CN114854522A - Beverage brewing equipment, control method and device thereof and readable storage medium - Google Patents

Beverage brewing equipment, control method and device thereof and readable storage medium Download PDF

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Publication number
CN114854522A
CN114854522A CN202210577296.8A CN202210577296A CN114854522A CN 114854522 A CN114854522 A CN 114854522A CN 202210577296 A CN202210577296 A CN 202210577296A CN 114854522 A CN114854522 A CN 114854522A
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beverage
shaking
identification circuit
beverage brewing
brewing apparatus
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Inventor
叶斌
柏鹤
蔡雪飞
张修强
陈腾飞
窦晓蕾
周菡
周珊
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Midea Group Co Ltd
Guangdong Midea Kitchen Appliances Manufacturing Co Ltd
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Midea Group Co Ltd
Guangdong Midea Kitchen Appliances Manufacturing Co Ltd
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Priority to CN202210577296.8A priority Critical patent/CN114854522A/en
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    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12GWINE; PREPARATION THEREOF; ALCOHOLIC BEVERAGES; PREPARATION OF ALCOHOLIC BEVERAGES NOT PROVIDED FOR IN SUBCLASSES C12C OR C12H
    • C12G3/00Preparation of other alcoholic beverages
    • C12G3/04Preparation of other alcoholic beverages by mixing, e.g. for preparation of liqueurs
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • A47J31/40Beverage-making apparatus with dispensing means for adding a measured quantity of ingredients, e.g. coffee, water, sugar, cocoa, milk, tea
    • A47J31/41Beverage-making apparatus with dispensing means for adding a measured quantity of ingredients, e.g. coffee, water, sugar, cocoa, milk, tea of liquid ingredients
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • A47J31/44Parts or details or accessories of beverage-making apparatus
    • A47J31/4403Constructional details
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • A47J31/44Parts or details or accessories of beverage-making apparatus
    • A47J31/52Alarm-clock-controlled mechanisms for coffee- or tea-making apparatus ; Timers for coffee- or tea-making apparatus; Electronic control devices for coffee- or tea-making apparatus
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • A47J31/44Parts or details or accessories of beverage-making apparatus
    • A47J31/52Alarm-clock-controlled mechanisms for coffee- or tea-making apparatus ; Timers for coffee- or tea-making apparatus; Electronic control devices for coffee- or tea-making apparatus
    • A47J31/521Alarm-clock-controlled mechanisms for coffee- or tea-making apparatus ; Timers for coffee- or tea-making apparatus; Electronic control devices for coffee- or tea-making apparatus the electronic control being performed over a network, e.g. by means of a computer or a handheld device

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  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Chemical & Material Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Organic Chemistry (AREA)
  • Biochemistry (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Bioinformatics & Cheminformatics (AREA)
  • General Health & Medical Sciences (AREA)
  • Genetics & Genomics (AREA)
  • Health & Medical Sciences (AREA)
  • Wood Science & Technology (AREA)
  • Zoology (AREA)
  • Devices For Dispensing Beverages (AREA)

Abstract

本发明提出了一种饮品调制设备及其控制方法和装置、可读存储介质,饮品调制设备包括:主机,主机包括安装结构和安装腔,安装结构用于放置容器;饮品舱,能够安装于安装腔,用于为容器提供饮品;摇晃系统,设于主机,用于摇晃容器;识别系统,识别系统用于获取饮品的种类;通信装置,设于主机上,并能够获取来自于电子设备的控制参数;控制器,与摇晃系统、识别系统和通信装置电连接,并用于根据通信装置接收到的摇晃参数控制摇晃系统工作。本发明能够可以实现饮品调制设备与电子设备的联动控制,进而提升饮品调制设备的智能性,并且可以更有针对性地摇晃容器内的饮品,确保制出的饮品的口感。

Figure 202210577296

The present invention provides a beverage preparation device, a control method and device thereof, and a readable storage medium. The beverage preparation device includes: a main unit, the main unit includes an installation structure and an installation cavity, and the installation structure is used for placing the container; the beverage compartment can be installed in the installation The cavity is used to provide drinks for the container; the shaking system is installed on the host to shake the container; the identification system is used to obtain the type of drinks; the communication device is installed on the host and can obtain the control from the electronic equipment parameters; the controller is electrically connected with the shaking system, the identification system and the communication device, and is used for controlling the shaking system to work according to the shaking parameters received by the communication device. The invention can realize the linkage control between the beverage preparation equipment and the electronic equipment, thereby improving the intelligence of the beverage preparation equipment, and can shake the beverage in the container more targetedly to ensure the taste of the prepared beverage.

Figure 202210577296

Description

Beverage brewing equipment, control method and device thereof and readable storage medium
Technical Field
The invention relates to the technical field of wine mixing, in particular to a beverage preparation device, a control method and a control device of the beverage preparation device, and a readable storage medium.
Background
The wine mixer mainly aims to assist a wine mixer so as to reduce the workload of the wine mixer. In the related art, there are two ways of injecting the beverage: one is to insert the wine bottle directly into the machine; the other is to fill the wine into the beverage cabin and then install the wine in the machine. However, in the above-mentioned manner, only the user knows the type of the beverage in the beverage compartment, and the wine dispenser cannot identify and record the types of the beverages filled in different beverage compartments. Moreover, after the beverage dispenser is used for a period of time, the user also has the risk of forgetting the types of the beverages in the beverage chamber, so that the beverage dispenser cannot work accurately.
Disclosure of Invention
The present invention is directed to solving at least one of the problems of the prior art.
The invention provides a control method of a beverage brewing device in a first aspect, wherein the beverage brewing device comprises: the device comprises a main machine and a shaking system, wherein the main machine comprises a mounting structure, the mounting structure is used for placing a container, and the shaking system is arranged on the main machine and is used for shaking the container; the control method comprises the following steps: acquiring modulation information; determining a control parameter according to the modulation information; and controlling the shaking system to work according to the control parameters.
The invention can acquire the modulation information, determine the control parameter according to the modulation information and control the shaking system to work according to the control parameter.
The drink in the container can be shaken in a targeted manner, so that the shaking condition of the drink is matched with the brewing information, and the taste of the prepared drink is ensured.
By acquiring the modulation information, a scheme for configuring the beverage can be obtained, so that the shaking system can be accurately controlled to work, and the occurrence of modulation errors is avoided.
In the above technical solution, the beverage brewing apparatus further comprises: a beverage compartment for providing a beverage to the container; the modulation information includes: the type of beverage in the beverage compartment.
In the technical scheme, the control parameters are determined according to the type of the drink. When the types of drinks are different, the control parameters are different. For example, some drinks require a higher shaking frequency and some oils require a lower shaking frequency. The shaking mode is determined according to the type of the drink, so that the drink can be configured more pertinently.
In any of the above technical solutions, the modulation information includes: target drink information.
In the technical scheme, after the target beverage information is acquired, the type of the beverage after configuration is determined, for example, the same raw material needs to be configured with the beverage mixed uniformly, or the beverage mixed in different levels is configured, and different target beverages can be configured by changing the shaking mode. The drink can be configured more pertinently by acquiring the target drink information and determining the shaking mode.
In any of the above technical solutions, the modulation information includes: beverage formula information.
According to the technical scheme, under the condition that the beverage formula information is obtained, the configuration mode of the beverage can be known, the shaking system is controlled to work according to the beverage configuration mode, and the beverage can be configured in a more targeted manner.
In any of the above technical solutions, the beverage brewing device is in communication connection with the electronic device; determining a control parameter based on the modulation information, comprising: generating first information to the electronic device according to the modulation information; control parameters are received from the electronic device.
According to the technical scheme, the method and the device can acquire the type of the beverage in the beverage chamber and send the first information to the electronic equipment according to the type of the beverage. And then, after further receiving the control parameters fed back by the electronic equipment, controlling the shaking system to work according to the received control parameters.
Therefore, on one hand, linkage control of the beverage brewing equipment and the electronic equipment can be achieved, the intelligence of the beverage brewing equipment is further improved, on the other hand, the beverage in the container can be shaken more pertinently, the shaking condition of the beverage is guaranteed to be matched with the type of the beverage, and the taste of the made beverage is guaranteed.
Specifically, after receiving the first information from the beverage brewing device, the electronic device can determine the type of the beverage in the beverage chamber according to the first signal; then, the electronic device can determine the beverage which can be brewed by the beverage according to the type of the beverage, determine the relevant shaking parameter in the brewing process of the beverage, and send the control parameter to the beverage brewing device, so that the controller controls the shaking system to shake the container according to the control parameter.
In addition, the electronic device determines the beverage which can be brewed by the beverage, the corresponding menu of the beverage which can be brewed by the beverage can be displayed to the user, the target beverage is determined according to the selection of the user, the relevant shaking parameters in the brewing process of the target beverage are further determined, and the control parameters are sent to the beverage brewing device, so that the controller controls the shaking system to shake the container according to the control parameters.
Therefore, the control method of the beverage brewing equipment provided by the invention can identify the type of the beverage in the beverage cabin and control the shaking system to work according to the beverage which can be brewed by the beverage. Like this, both can realize the coordinated control of electronic equipment and drink modulating device, can be directed against the drink in the drink cabin more pointed rock the container again, promote drink modulating device's intelligence to promote the taste of the drink of making out.
In any of the above technical solutions, the beverage brewing apparatus further comprises: an identification system for obtaining a type of beverage, the identification system comprising: the identification circuit is electrically connected with a controller in the beverage brewing equipment, the moving part can adjust the resistance value of the resistance component connected into the identification circuit and conduct the identification circuit, and the controller controls the shaking system to work according to the received control parameters; acquiring modulation information, comprising: acquiring the resistance value of the resistor component connected into the identification circuit; and determining the type of the beverage in the beverage cabin according to the resistance value and the preset corresponding relation.
In this technical scheme, be provided with label subassembly and moving part on the drink cabin, the moving part can move for the drink cabin, and to the label subassembly.
The host computer has the installation cavity, and under the condition that the installation cavity was installed to the drink cabin, the moving part can insert identification circuit with at least partly access of resistance component to switch on whole identification circuit. And, through adjusting the position of moving part in the drink cabin, can adjust the resistance that resistance component inserts in the identification circuit. Therefore, after the beverage cabin is installed in the installation cavity of the installation part, the resistance value of the resistance component connected into the identification circuit can be obtained, the type of the beverage in the beverage cabin is determined according to the resistance value of the resistance component connected into the identification circuit and the preset corresponding relation, and then the beverage brewing equipment can be automatically controlled conveniently, so that the intelligent degree of the beverage brewing equipment is improved. Illustratively, the beverage brewing device is a wine mixer, and outputs a corresponding wine menu according to the type of beverage, controls the wine brewing parameters of the beverage brewing device according to the type of beverage, and the like.
Particularly, in the use process of a user, the user firstly adds drinks into the drink cabin and adjusts the position of the movable piece according to the types of the drinks, so that the movable piece points to the position, corresponding to the types of the drinks, in the label component. Then, the user places the drink cabin in the installation intracavity to make the moving part insert at least a part of resistance component in the identification circuit, so that the identification circuit constitutes a closed return circuit. And the resistance value of the resistance component connected into the identification circuit corresponds to the type of the beverage in the beverage cabin. Therefore, the beverage brewing device can identify the type of the beverage in the beverage cabin according to the resistance value of the resistance component connected into the identification circuit, so that the subsequent automatic control of the beverage brewing device is facilitated, and the intelligence degree of the beverage brewing device is improved.
In any of the above technical solutions, the control method of the beverage brewing apparatus further includes: acquiring shaking parameters of the container; sending shaking parameters to the electronic equipment; and receiving the adjusting parameters from the electronic equipment, and adjusting the control parameters according to the adjusting parameters.
In the technical scheme, in the process of shaking the container by the shaking system, the actual shaking parameters of the container are obtained, and the obtained shaking parameters are sent to the electronic equipment; correspondingly, after receiving the shaking parameters sent by the beverage brewing equipment, the electronic equipment compares the actual shaking parameters of the container with the control parameters sent by the electronic equipment to the beverage brewing equipment, and judges whether the shaking system works abnormally or not; in case of an abnormal operation of the shaking system, the electronic device may send the adjustment parameters to the beverage brewing device to adjust the operation of the shaking system according to the situation. Furthermore, the beverage brewing equipment receives the adjusting parameters sent by the electronic equipment to adjust the control parameters, and then controls the shaking system to work according to the adjusted control parameters, so that the aim of correcting the control parameters is fulfilled.
A second aspect of the present invention provides a control device for a beverage brewing apparatus, the beverage brewing apparatus comprising: the device comprises a main machine and a shaking system, wherein the main machine comprises a mounting structure, the mounting structure is used for placing a container, and the shaking system is arranged on the main machine and is used for shaking the container; the control device includes: an acquisition unit configured to acquire modulation information; a determining unit, configured to determine a control parameter according to the modulation information; and the control unit is used for controlling the shaking system to work according to the control parameters.
The invention can acquire the modulation information, determine the control parameter according to the modulation information and control the shaking system to work according to the control parameter.
The drink in the container can be shaken in a targeted manner, so that the shaking condition of the drink is matched with the brewing information, and the taste of the prepared drink is ensured.
By acquiring the modulation information, a scheme for configuring the beverage can be obtained, so that the shaking system can be accurately controlled to work, and the occurrence of modulation errors is avoided.
In the above technical solution, the beverage brewing apparatus further comprises: a beverage compartment for providing a beverage to the container; the modulation information includes: the type of beverage in the beverage compartment.
In the technical scheme, the control parameters are determined according to the type of the drink. When the types of drinks are different, the control parameters are different. For example, some drinks require a higher shaking frequency and some oils require a lower shaking frequency. The shaking mode is determined according to the type of the drink, so that the drink can be configured more pertinently.
In any of the above technical solutions, the modulation information includes: target drink information.
In the technical scheme, after the target beverage information is acquired, the type of the beverage after configuration is determined, for example, the same raw material needs to be configured with the beverage mixed uniformly, or the beverage mixed in different levels is configured, and different target beverages can be configured by changing the shaking mode. The drink can be configured more pertinently by acquiring the target drink information and determining the shaking mode.
In any of the above technical solutions, the modulation information includes: beverage formula information.
According to the technical scheme, under the condition that the beverage formula information is obtained, the configuration mode of the beverage can be known, the shaking system is controlled to work according to the beverage configuration mode, and the beverage can be configured in a more targeted manner.
In any of the above technical solutions, the beverage brewing device is in communication connection with the electronic device; the determination unit is specifically configured to: generating first information to the electronic device according to the modulation information; control parameters are received from the electronic device.
According to the technical scheme, the method and the device can acquire the type of the beverage in the beverage chamber and send the first information to the electronic equipment according to the type of the beverage. And then, after further receiving the control parameters fed back by the electronic equipment, controlling the shaking system to work according to the received control parameters.
Therefore, on one hand, linkage control of the beverage brewing equipment and the electronic equipment can be achieved, the intelligence of the beverage brewing equipment is further improved, on the other hand, the beverage in the container can be shaken more pertinently, the shaking condition of the beverage is guaranteed to be matched with the type of the beverage, and the taste of the made beverage is guaranteed.
Specifically, after receiving the first information from the beverage brewing device, the electronic device can determine the type of the beverage in the beverage chamber according to the first signal; then, the electronic device can determine the beverage which can be brewed by the beverage according to the type of the beverage, determine the relevant shaking parameter in the brewing process of the beverage, and send the control parameter to the beverage brewing device, so that the controller controls the shaking system to shake the container according to the control parameter.
In addition, the electronic device determines the beverage which can be brewed by the beverage, the corresponding menu of the beverage which can be brewed by the beverage can be displayed to the user, the target beverage is determined according to the selection of the user, the relevant shaking parameters in the brewing process of the target beverage are further determined, and the control parameters are sent to the beverage brewing device, so that the controller controls the shaking system to shake the container according to the control parameters.
Therefore, the control method of the beverage brewing equipment provided by the invention can identify the type of the beverage in the beverage cabin and control the shaking system to work according to the beverage which can be brewed by the beverage. Therefore, the linkage control of the electronic equipment and the beverage brewing equipment can be realized, the container can be shaken more pertinently aiming at the beverage in the beverage cabin, the intelligence of the beverage brewing equipment is improved, and the taste of the brewed beverage is improved.
In any of the above technical solutions, the beverage brewing apparatus further comprises: an identification system for obtaining a type of beverage, the identification system comprising: the identification circuit is electrically connected with a controller in the beverage brewing equipment, the moving part can adjust the resistance value of the resistance component connected into the identification circuit and conduct the identification circuit, and the controller controls the shaking system to work according to the received control parameters; the obtaining unit is specifically configured to: acquiring the resistance value of the resistor component connected into the identification circuit; and determining the type of the beverage in the beverage cabin according to the resistance value and the preset corresponding relation.
In this technical scheme, be provided with label subassembly and moving part on the drink cabin, the moving part can move for the drink cabin, and to the label subassembly.
The host computer has the installation cavity, and under the condition that the installation cavity was installed to the drink cabin, the moving part can insert identification circuit with at least partly access of resistance component to switch on whole identification circuit. And, through adjusting the position of moving part in the drink cabin, can adjust the resistance that resistance component inserts in the identification circuit. Therefore, after the beverage cabin is installed in the installation cavity of the installation part, the resistance value of the resistance component connected into the identification circuit can be obtained, the type of the beverage in the beverage cabin is determined according to the resistance value of the resistance component connected into the identification circuit and the preset corresponding relation, and then the beverage brewing equipment can be automatically controlled conveniently, so that the intelligent degree of the beverage brewing equipment is improved. Specifically, including but not limited to: outputting a corresponding wine menu according to the type of the drink, controlling the wine blending parameters of the drink blending equipment according to the type of the drink, and the like.
Particularly, in the use process of a user, the user firstly adds drinks into the drink cabin and adjusts the position of the movable piece according to the types of the drinks, so that the movable piece points to the position, corresponding to the types of the drinks, in the label component. Then, the user places the beverage cabin in the installation cavity, and makes the moving part insert at least a part of resistance component in the identification circuit, so that the identification circuit constitutes a closed loop. And the resistance value of the resistance component connected into the identification circuit corresponds to the type of the beverage in the beverage cabin. Therefore, the beverage type identification circuit can identify the type of the beverage in the beverage cabin according to the resistance value accessed into the identification circuit by the resistance component, so that the subsequent automatic control of the beverage brewing equipment is facilitated, and the intelligence degree of the beverage brewing equipment is improved.
In any one of the above technical solutions, the control device of the beverage apparatus further includes: a transmitting unit, a receiving unit and an adjusting unit; the acquisition unit is further configured to: the method comprises the steps of obtaining shaking parameters of a container, sending the shaking parameters to the electronic equipment by a sending unit, receiving adjustment parameters from the electronic equipment by a receiving unit, and adjusting control parameters according to the adjustment parameters by an adjusting unit.
In the technical scheme, in the process of shaking the container by the shaking system, the actual shaking parameters of the container can be obtained, and the obtained shaking parameters are sent to the electronic equipment; correspondingly, after receiving the shaking parameters sent by the beverage brewing equipment, the electronic equipment compares the actual shaking parameters of the container with the control parameters sent by the electronic equipment to the beverage brewing equipment, and judges whether the shaking system works abnormally or not; in case of an abnormal operation of the shaking system, the electronic device may send the adjustment parameters to the beverage brewing device to adjust the operation of the shaking system according to the situation. Furthermore, the beverage brewing equipment receives the adjusting parameters sent by the electronic equipment to adjust the control parameters, and then controls the shaking system to work according to the adjusted control parameters, so that the aim of correcting the control parameters is fulfilled.
In a third aspect, the present invention provides a beverage brewing apparatus, including a processor, a memory, and a program or instructions stored on the memory and executable on the processor, wherein the program or instructions, when executed by the processor, implement the steps of the control method as described above.
The beverage brewing apparatus provided by the fourth aspect of the present invention has all the advantages of the control method as described above, and will not be discussed herein.
A fifth aspect of the present invention provides a readable storage medium having a program stored thereon, the program, when executed by a processor, implementing the steps of the control method as described above.
A sixth aspect of the present invention provides a beverage brewing apparatus comprising: the main machine comprises a mounting structure and a mounting cavity, and the mounting structure is used for placing a container; the beverage cabin can be arranged in the installation cavity and used for providing beverages for the container; the shaking system is arranged on the main machine and used for shaking the container; and the controller is electrically connected with the shaking system and used for controlling the shaking system to work according to the shaking parameters received by the communication device.
According to the beverage brewing equipment provided by the invention, the main machine comprises the mounting structure and the mounting cavity, and a user can mount the container on the mounting structure and place beverage raw materials to be brewed into the container in the using process. The drink cabin sets up in the installation intracavity to can place the drink in the drink cabin, the drink cabin can provide the drink for the container. The shaking system is arranged on the main machine and connected with the shaking system, so that the container is shaken by the shaking system to prepare the beverage.
Under the condition of acquiring the modulation information, the control parameters can be determined according to the modulation information, and the work of the shaking system can be controlled according to the control parameters.
The drink in the container can be shaken in a targeted manner, so that the shaking condition of the drink is matched with the brewing information, and the taste of the prepared drink is ensured.
By acquiring the modulation information, a scheme for configuring the beverage can be obtained, so that the shaking system can be accurately controlled to work, and the occurrence of modulation errors is avoided.
In the above technical solution, the beverage brewing apparatus further comprises: the identification system is used for acquiring the type of the beverage; the communication device is arranged on the host and can acquire control parameters from the electronic equipment; the controller is electrically connected with the recognition system and the communication device, and the controller controls the shaking system to work according to the control parameters received by the communication device.
In the technical scheme, after the beverage cabin is installed on the host machine, the identification system can acquire the type of the beverage in the beverage cabin, and is electrically connected with the controller. The communication device is arranged on the host, and the beverage brewing equipment is in communication connection with the electronic equipment through the communication device and can transmit information with the electronic equipment.
In particular, after the beverage pod is installed in the host, the identification system detects the type of beverage; the controller controls the communication device to send first information to the electronic equipment according to the type of the beverage in the beverage cabin. After receiving the first information, the electronic device sends a corresponding control parameter to the beverage brewing device according to the first information, wherein the control parameter is related to the type of the beverage. Correspondingly, after the controller receives the control parameters, the controller can control the shaking system to work according to the control parameters, and then the shaking condition of the beverage in the container is matched with the type of the beverage.
Therefore, on one hand, linkage control of the beverage brewing equipment and the electronic equipment can be achieved, the intelligence of the beverage brewing equipment is further improved, on the other hand, the beverage in the container can be shaken more pertinently, the shaking condition of the beverage is guaranteed to be matched with the type of the beverage, and the taste of the made beverage is guaranteed.
Specifically, after receiving the first information from the beverage brewing device, the electronic device can determine the type of the beverage in the beverage chamber according to the first signal; then, the electronic device can determine the beverage which can be brewed by the beverage according to the type of the beverage, determine the relevant shaking parameter in the brewing process of the beverage, and send the control parameter to the beverage brewing device, so that the controller controls the shaking system to shake the container according to the control parameter.
In addition, the electronic device determines the beverage which can be brewed by the beverage, the corresponding menu of the beverage which can be brewed by the beverage can be displayed to the user, the target beverage is determined according to the selection of the user, the relevant shaking parameters in the brewing process of the target beverage are further determined, and the control parameters are sent to the beverage brewing device, so that the controller controls the shaking system to shake the container according to the control parameters.
Therefore, the beverage brewing device provided by the invention can identify the type of the beverage in the beverage chamber and control the work of the shaking system according to the beverage which can be brewed by the beverage. Therefore, the linkage control of the electronic equipment and the beverage brewing equipment can be realized, the container can be shaken more pertinently aiming at the beverage in the beverage cabin, the intelligence of the beverage brewing equipment is improved, and the taste of the brewed beverage is improved.
In the above technical solution, the beverage brewing apparatus further comprises: and the third sensor is arranged on the shaking system and is electrically connected with the controller, and the third sensor is used for detecting the shaking parameters of the container.
In this technical scheme, drink preparation equipment still includes the third sensor. Wherein the third sensor is arranged on the shaking system and is used for detecting shaking parameters of the container. In addition, the third sensor is electrically connected with the controller, and the controller controls the communication device to send the shaking parameters of the detection container to the electronic equipment. Thus, after receiving the shaking parameters of the container, the electronic equipment compares the shaking data of the container with the control parameters sent to the electronic equipment; if the shaking data is consistent with the control parameters, the shaking system works normally; if the shake data does not control the parameter to be consistent, the shake is abnormal at the moment. Therefore, in order to guarantee the taste of the prepared drink, the electronic equipment sends the adjusting parameters to the drink preparing equipment, and then the control parameters are adjusted through the adjusting parameters, so that the controller controls the shaking system to work according to the adjusted control parameters, and the drink in the container is accurately adjusted. Specifically, the third sensor may employ an angle sensor.
In some possible technical solutions, the beverage brewing apparatus further comprises: the fourth sensor is arranged in the beverage cabin and electrically connected with the controller, and the fourth sensor is used for detecting the amount of the beverage in the beverage cabin.
In this technical scheme, drink preparation equipment still includes the fourth sensor. Wherein, the second sensor sets up in the drink cabin to can be used to the drink volume in the drink cabin. Correspondingly, the fourth sensor is also electrically connected with the controller, so that the controller judges whether the beverage in the beverage cabin is sufficient or not according to the detection result of the fourth sensor.
Specifically, in the case that it is detected that the amount of beverage in the beverage compartment is less than the threshold value, the controller may control the communication device to send the second information to the electronic device, so that the electronic device issues an alarm in response to the second information, thereby prompting the user to add the beverage. Specifically, the fourth sensor may employ a liquid level sensor.
In some possible technical schemes, a label component and a movable piece are arranged on the drink cabin, and the movable piece can move relative to the drink cabin and point to the label component; the identification system comprises an identification circuit and a resistor component, the identification circuit is electrically connected with the controller, and the moving part can adjust the resistance value of the resistor component connected into the identification circuit and conduct the identification circuit.
In the technical scheme, a label component and a moving part are arranged on the drink cabin, and the moving part can move relative to the drink cabin; the user can adjust the moving part according to the kind of drink in the drink cabin when placing the drink cabin, and then makes the moving part point to the position that the label subassembly corresponds. Further, the identification system includes an identification circuit and a resistive component. Under the condition that the beverage cabin is installed to the installation cavity, the moving part can insert at least a part of resistance component into the identification circuit to switch on whole identification circuit. And, through adjusting the position of moving part in the drink cabin, can adjust the resistance that resistance component inserts in the identification circuit.
In the user's use, the user adds the drink to the drink cabin at first to the position of moving part is adjusted according to the kind of drink for the moving part points to the position corresponding with the drink kind in the label subassembly. Then, the user places the beverage cabin in the installation cavity, and makes the moving part insert at least a part of resistance component in the identification circuit, so that the identification circuit constitutes a closed loop.
And the resistance value of the resistance component connected into the identification circuit corresponds to the type of the beverage in the beverage cabin. Like this, the controller can be based on the resistance that resistance component inserted in the identification circuit, comes the kind of discernment drink under-deck drink, and then the subsequent automatic control of the drink modulation equipment of being convenient for, has promoted the intelligent degree of drink modulation equipment.
In some possible solutions, the moving part comprises: the mounting piece is movably arranged on the beverage cabin; the guiding piece is arranged on the mounting piece and used for guiding the label assembly; and the conducting piece is arranged on the mounting piece or the guiding piece and is used for connecting at least one part of the resistance component into the identification circuit and conducting the identification circuit.
In this technical scheme, the moving part includes installed part, guide member and leads on the piece. Wherein, the installed part activity sets up on the drink cabin to can remove on the drink cabin. The guide piece is arranged on the mounting piece and can move under the driving of the mounting piece so as to point to different positions of the label assembly. The conducting piece is arranged on the mounting piece or the guiding piece and can move under the driving of the mounting piece; and, under the condition that the drink cabin is installed to the installation cavity, the piece that leads to can shine partly cut in the identification circuit with resistance component directly to lead to in the identification circuit.
After the user pours into the drink in the drink under-deck into, can adjust the installed part so that guide member point to the label subassembly and the corresponding position of drink kind, and then the kind of user's drink is reminded through guide member. In addition, during the process of adjusting the mounting part by a user, the conducting part can move along with the mounting part; correspondingly, the resistance value of the resistance component connected into the identification circuit is adjusted after the beverage cabin is installed in the installation cavity. Then, the user can install the beverage cabin into the installation cavity; at this time, the conducting piece can connect at least one part of the resistance component into the identification circuit and enable the identification circuit to be conducted into a closed loop.
Further, the resistance value of the resistor component connected into the identification circuit is related to the position of the conducting piece, the position of the conducting piece is related to the direction of the guiding piece, and the direction of the guiding piece is related to the type of the beverage in the beverage cabin. Therefore, the resistance value of the resistance component accessed into the identification circuit corresponds to the type of the beverage in the beverage cabin, and the type of the beverage in the beverage cabin can be determined according to the resistance value of the resistance component accessed into the identification circuit.
In some possible solutions, the identification circuit and the resistive component are arranged on the mounting; the identification system also comprises a magnetic induction switch which is arranged on the identification circuit; the conduction piece is a magnetic piece, and the magnetic piece can conduct the magnetic induction switch when the beverage cabin is installed in the installation cavity.
In this technical scheme, identification circuit and resistance component set up on the installed part to identification system still includes the magnetic induction switch, and the piece that switches on is the magnetic part, and then adjusts the resistance that the resistance component inserts in the identification circuit through non-contact control. Specifically, the identification circuit and the resistance component are both provided on the mounting member, and the magnetic induction switch is provided on the identification circuit. After the user installed the installation cavity with the drink cabin, the magnetic part was relative with magnetic induction switch's position, and then switched on magnetic induction switch to make at least part of resistance component insert in the identification circuit.
In some possible solutions, the identification circuit comprises a first bus and a second bus; the resistor assembly comprises a plurality of first resistors, the resistance values of the first resistors are the same, and the first resistors are connected in series with the first bus; the quantity of magnetic induction switch is a plurality of, and a plurality of magnetic induction switch's one end is connected respectively in the tail end of a plurality of first resistances, and a plurality of magnetic induction switch's the other end is connected respectively in the second bus.
In the technical scheme, the identification circuit comprises a first bus and a second bus, the resistance component comprises a plurality of first resistances, and the number of the magnetic induction switches is multiple. The number of the first resistors is the same, and the first circuits are connected in series on the first bus; the tail end of each first resistor is connected with a magnetic induction switch, and the magnetic induction switches are ensured to be also connected to the second bus. Under the condition that the magnetic induction switch is switched off, the first bus and the second bus are not conducted; when any one of the magnetic induction switches is conductive, the first bus and the second bus are conductive, and a corresponding number of first resistors are connected to the identification circuit.
Specifically, when the user points to the different positions of label subassembly with the guide, the magnetism spare is also in the different positions in drink cabin to after the drink cabin is installed the installation cavity, the magnetism spare can switch on the magnetic induction switch in different positions. Therefore, the magnetic part can connect all the first resistors on the front side of the conducted magnetic induction switch into the closed identification circuit, so that the resistance value of the resistor component connected into the closed identification circuit is ensured to be corresponding to the resistance value of the drink in the drink cabin.
In some possible solutions, the identification circuit comprises a third bus and a fourth bus; the resistor assembly comprises a plurality of second resistors, and the resistance values of the second resistors are different; the quantity of magnetic induction switch is a plurality of, and a second resistance and a magnetic induction switch series connection are magnetic induction component, and a plurality of magnetic induction component parallel connection are between third bus and fourth bus.
In this technical scheme, resistance assembly includes a plurality of second resistance, and the quantity of magnetic induction switch is a plurality of. Wherein, a second resistance and a magnetic induction switch are connected in series to form a magnetic induction component; because the resistance values of the plurality of second resistors are different, the resistance values of different magnetic induction components are different. Under the condition that the magnetic induction switch is disconnected, the third bus and the fourth bus are not conducted; and under the condition that any one magnetic induction switch is conducted, the third bus and the fourth bus are conducted, and the second resistor with the corresponding resistance value is connected into the identification circuit.
Specifically, when the user will direct the piece to the different positions of label subassembly, the magnetism piece is also in the different positions in drink cabin to after the installation cavity is installed to the drink cabin, the magnetism piece can switch on the magnetic induction switch of different positions, and then inserts the second resistance that corresponds the position in the identification circuit. And the resistance values of different second resistors are different, so that the resistance value of the resistor assembly connected to the closed identification circuit is ensured to be corresponding to the resistance value of the beverage in the beverage cabin.
In some possible technical schemes, the identification circuit is arranged on the installation piece, and the resistance component is arranged on the drink cabin and is connected with the conduction piece; at least a portion of the resistive component is electrically connected to the identification circuit when the beverage capsule is mounted to the mounting cavity.
In this technical scheme, the identification circuit sets up on the installed part, and resistance component sets up on the drink cabin. Therefore, the identification circuit can be conducted in a contact mode, and the resistance value of the resistor assembly connected into the identification circuit is adjusted. Specifically, the resistance component is connected with the conducting piece; therefore, in the process that the user moves the mounting piece, the resistance value of the resistance component can be directly adjusted by the conducting piece, and the resistance value of the resistance component is determined to correspond to the type of the beverage in the beverage cabin. Then, after the user installed the installation cavity with the drink cabin, can directly insert identification circuit with the resistance component to ensure that the resistance component inserted in identification circuit matches with the drink kind in the drink cabin.
In some possible technical solutions, the resistor assembly includes a resistor and a sliding sheet, and the sliding sheet is connected with the resistor in a sliding manner; the conduction piece is connected with the sliding piece and drives the sliding piece to move on the resistor body.
In this technical solution, the resistance assembly includes a resistor and a slider. The sliding sheet is connected with the resistor body in a sliding mode, and when the sliding sheet is located at different positions of the resistor body, the different positions of the resistor body can participate in the electrical identification circuit. In addition, the conducting piece is connected with the sliding piece; when the user is removing the installed part, can make to lead to a band-pass gleitbretter and slide on the resistive element, and then make the gleitbretter with the access of resistive element in the identification circuit on the installed part.
Specifically, one end of the resistor body can be connected with the identification circuit through a first electric contact, the slide sheet is in contact with the resistor body through a second electric contact, and the slide sheet can be connected with the identification circuit through a third electric contact; and the slide sheet can slide in the length direction of the resistor body, and further the resistance value of the resistor body connected into the identification circuit is adjusted by changing the length of the resistor body between the first electric contact and the second electric contact, so that the resistance value of the resistor assembly connected into the identification circuit is changed.
In some possible embodiments, the tag assembly comprises: the fixing piece is arranged on the drink cabin; a plurality of identification tags disposed on the fixing member; when the moving piece points to different identification tags, the resistance values of the resistor components connected into the identification circuit are different.
In this solution, the tag assembly comprises a fixture and a plurality of identification tags. The fixing piece is arranged on the beverage, and the relative position of the fixing piece and the beverage cabin is fixed; the plurality of identification tags are respectively arranged at different positions of the fixing piece, and different identification tags represent different beverage types; in addition, when the moving piece points to different identification tags, the resistance values of the resistor component connected into the identification circuit are different.
Therefore, after a user adds the beverage into the beverage cabin, the position of the movable piece is adjusted according to the type of the beverage, so that the guide piece of the movable piece points to the corresponding identification tag, and the user can determine the type of the beverage in the beverage cabin according to the identification tag pointed by the guide piece in the subsequent use process. And when the user adjusts the position of moving part, the resistance of resistance subassembly when inserting identification circuit has been adjusted, and then ensures the subsequent intelligent control of drink modulation equipment.
The beverage brewing apparatus comprises: at least one of a wine mixer, a coffee maker, a milk product preparer, and a beverage preparer.
Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.
Drawings
The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
FIG. 1 is a flow chart of a control method of a beverage brewing apparatus according to one embodiment of the present invention;
FIG. 2 is a block diagram of a control device of a beverage brewing apparatus according to one embodiment of the present invention;
FIG. 3 is a block diagram of a beverage brewing apparatus according to one embodiment of the present invention;
FIG. 4 is a schematic structural diagram of a beverage brewing apparatus according to one embodiment of the present invention;
FIG. 5 is an exploded view of the beverage brewing apparatus shown in FIG. 4;
FIG. 6 is a schematic view of the installation of a fourth sensor in the beverage brewing apparatus according to one embodiment of the present invention;
FIG. 7 is a schematic view of a partial configuration of a beverage brewing apparatus according to one embodiment of the present invention;
FIG. 8 is a schematic view of a partial configuration of a beverage brewing apparatus according to one embodiment of the present invention;
FIG. 9 is a schematic exploded view of a beverage pod of the beverage brewing apparatus according to one embodiment of the present invention;
FIG. 10 is one of the schematic structural views of a beverage pod in the beverage brewing apparatus according to one embodiment of the present invention;
FIG. 11 is a second schematic view of a beverage compartment of the beverage brewing apparatus according to the embodiment of the present invention;
FIG. 12 is one of the electrical schematic diagrams of the identification system in the beverage brewing apparatus of one embodiment of the present invention;
FIG. 13 is a second schematic circuit diagram of an identification system in the beverage brewing apparatus according to one embodiment of the present invention;
fig. 14 is a schematic partial structure diagram of a beverage brewing apparatus according to an embodiment of the present invention.
Wherein, the correspondence between the reference numbers and the part names in fig. 4 to 14 is:
100 beverage brewing apparatus, 102 main unit, 104 mounting structure, 106 container, 108 beverage compartment, 110 shaking system, 112 identification system, 114 controller, 116 first sensor, 118 capsule, 120 second sensor, 122 third sensor, 124 fourth sensor, 126 cover, 128 tag element, 130 moving element, 132 identification circuit, 134 resistor element, 136 mounting element, 138 directing element, 140 conducting element, 142 magnetic induction switch, 142a first magnetic induction switch, 142b second magnetic induction switch, 142c third magnetic induction switch, 142n nth magnetic induction switch, 144 first bus, 146 second bus, 148a first resistor, 148b second first resistor, 148c third first resistor, 148n nth first resistor, 150 third bus, 152 fourth bus, 154a first second resistor, 154b second resistor, 154c third second resistor, 154n second resistor, 156 resistor, 158 slide, 160 mount, 162 identification tag, 164 first electrical contact, 166 second electrical contact, 168 third electrical contact, 170 mounting cavity, 172 wine injection system, 174 fifth sensor.
Detailed Description
In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced otherwise than as specifically described herein, and thus the scope of the present invention is not limited by the specific embodiments disclosed below.
A beverage brewing apparatus 100, a beverage brewing apparatus control method and device, and a readable storage medium provided according to some embodiments of the present invention are described below with reference to fig. 1 to 14.
As shown in fig. 1, in some embodiments of the present invention, a control method of a beverage brewing apparatus is provided, the beverage brewing apparatus comprising: the host computer and the system that rocks, the host computer includes mounting structure, mounting structure are used for placing the container, and the system that rocks is located the host computer for rock the container.
The control method comprises the following steps:
step 1002, acquiring modulation information;
step 1004, determining control parameters according to the modulation information;
and step 1006, controlling the shaking system to work according to the control parameters.
The invention can acquire the modulation information, determine the control parameter according to the modulation information and control the shaking system to work according to the control parameter.
The drink in the container can be shaken in a targeted manner, so that the shaking condition of the drink is matched with the brewing information, and the taste of the prepared drink is ensured.
By acquiring the modulation information, a scheme for configuring the beverage can be obtained, so that the shaking system can be accurately controlled to work, and the occurrence of modulation errors is avoided.
In the above embodiment, the beverage brewing apparatus further comprises: a beverage compartment for providing a beverage to the container; the modulation information includes: the type of beverage in the beverage compartment.
In this embodiment, the control parameters are determined according to the type of beverage. When the types of drinks are different, the control parameters are different. For example, some drinks require a higher shaking frequency and some oils require a lower shaking frequency. The shaking mode is determined according to the type of the drink, so that the drink can be configured more pertinently.
In any of the above embodiments, the modulation information comprises: target drink information.
In this embodiment, after the target beverage information is obtained, the type of the configured beverage may be determined, for example, the same raw material, the beverage that needs to be configured uniformly, or the beverage that needs to be configured hierarchically, and different target beverages may be configured by changing the shaking manner. The drink can be configured more pertinently by acquiring the target drink information and determining the shaking mode.
In any of the above embodiments, the modulation information comprises: beverage formula information.
In the embodiment, under the condition that the beverage formula information is obtained, the configuration mode of the beverage can be known, the shaking system is controlled to work according to the beverage configuration mode, and the beverage can be configured in a more targeted manner.
In any of the above embodiments, the beverage brewing device is in communicative connection with the electronic device. Determining a control parameter based on the modulation information, comprising: generating first information to the electronic device according to the modulation information; control parameters are received from the electronic device.
In the embodiment, the method and the device can acquire the type of the beverage in the beverage chamber and send the first information to the electronic equipment according to the type of the beverage. And then, after further receiving the control parameters fed back by the electronic equipment, controlling the shaking system to work according to the received control parameters.
Therefore, on one hand, linkage control of the beverage brewing equipment and the electronic equipment can be achieved, the intelligence of the beverage brewing equipment is further improved, on the other hand, the beverage in the container can be shaken more pertinently, the shaking condition of the beverage is guaranteed to be matched with the type of the beverage, and the taste of the made beverage is guaranteed.
Specifically, after receiving first information from the beverage brewing device, the electronic device can determine the type of the beverage in the beverage chamber according to the first signal; then, the electronic device can determine the beverage which can be brewed by the beverage according to the type of the beverage, determine the relevant shaking parameter in the brewing process of the beverage, and send the control parameter to the beverage brewing device, so that the controller controls the shaking system to shake the container according to the control parameter.
In addition, the electronic device determines the beverage which can be brewed by the beverage, the corresponding menu of the beverage which can be brewed by the beverage can be displayed to the user, the target beverage is determined according to the selection of the user, the relevant shaking parameters in the brewing process of the target beverage are further determined, and the control parameters are sent to the beverage brewing device, so that the controller controls the shaking system to shake the container according to the control parameters.
Therefore, the control method of the beverage brewing equipment provided by the invention can identify the type of the beverage in the beverage cabin and control the shaking system to work according to the beverage which can be brewed by the beverage. Therefore, the linkage control of the electronic equipment and the beverage brewing equipment can be realized, the container can be shaken more pertinently aiming at the beverage in the beverage cabin, the intelligence of the beverage brewing equipment is improved, and the taste of the brewed beverage is improved.
In any of the above embodiments, the beverage brewing apparatus further comprises: an identification system for obtaining a type of beverage, the identification system comprising: discernment circuit and resistance component, the controller electricity in discernment circuit and the drink modulating device is connected, and the moving part can adjust the resistance that resistance component inserts in the discernment circuit to switch on the discernment circuit, the controller rocks system work according to the control parameter control that receives.
Acquiring modulation information, comprising: acquiring the resistance value of the resistor component connected into the identification circuit; and determining the type of the beverage in the beverage cabin according to the resistance value and the preset corresponding relation.
In this embodiment, be provided with label subassembly and moving part on the drink cabin, the moving part can move relative to the drink cabin, and the direction is to the label subassembly.
The host computer has the installation cavity, and under the condition that the installation cavity was installed to the drink cabin, the moving part can insert identification circuit with at least partly access of resistance component to switch on whole identification circuit. And, through adjusting the position of moving part in the drink cabin, can adjust the resistance that resistance component inserts in the identification circuit. Therefore, after the beverage cabin is installed in the installation cavity of the installation part, the resistance value of the resistance component connected into the identification circuit can be obtained, the type of the beverage in the beverage cabin is determined according to the resistance value of the resistance component connected into the identification circuit and the preset corresponding relation, and then the beverage brewing equipment can be automatically controlled conveniently, so that the intelligent degree of the beverage brewing equipment is improved. Illustratively, the beverage brewing device is a wine blender, and outputs a corresponding wine menu according to the type of beverage, controls the wine blending parameters of the beverage brewing device according to the type of beverage, and the like.
Particularly, in the use process of a user, the user firstly adds drinks into the drink cabin and adjusts the position of the movable piece according to the types of the drinks, so that the movable piece points to the position, corresponding to the types of the drinks, in the label component. Then, the user places the beverage cabin in the installation cavity, and makes the moving part insert at least a part of resistance component in the identification circuit, so that the identification circuit constitutes a closed loop. And the resistance value of the resistance component connected into the identification circuit corresponds to the type of the beverage in the beverage cabin. Therefore, the beverage type identification circuit can identify the type of the beverage in the beverage cabin according to the resistance value accessed into the identification circuit by the resistance component, so that the subsequent automatic control of the beverage brewing equipment is facilitated, and the intelligence degree of the beverage brewing equipment is improved.
In any of the above embodiments, the control method of the beverage brewing apparatus further comprises: acquiring shaking parameters of the container; sending shaking parameters to the electronic equipment; and receiving the adjusting parameters from the electronic equipment, and adjusting the control parameters according to the adjusting parameters.
In this embodiment, in the process of shaking the container by the shaking system, the actual shaking parameters of the container are obtained by the present invention, and the obtained shaking parameters are sent to the electronic device; correspondingly, after receiving the shaking parameters sent by the beverage brewing equipment, the electronic equipment compares the actual shaking parameters of the container with the control parameters sent by the electronic equipment to the beverage brewing equipment, and judges whether the shaking system works abnormally or not; in case of an abnormal operation of the shaking system, the electronic device may send the adjustment parameters to the beverage brewing device to adjust the operation of the shaking system according to the situation. Furthermore, the beverage brewing equipment receives the adjusting parameters sent by the electronic equipment to adjust the control parameters, and then controls the shaking system to work according to the adjusted control parameters, so that the aim of correcting the control parameters is fulfilled.
As shown in fig. 2, in some embodiments of the present invention, a control device 200 of a beverage brewing apparatus is provided, the beverage brewing apparatus comprising: the host computer and the system that rocks, the host computer includes mounting structure, mounting structure are used for placing the container, and the system that rocks is located the host computer for rock the container.
The control device 200 of the beverage brewing apparatus comprises: an obtaining unit 210, configured to obtain modulation information; a determining unit 220, configured to determine a control parameter according to the modulation information; and a control unit 230 for controlling the operation of the shaking system according to the control parameters.
The invention can acquire the modulation information, determine the control parameter according to the modulation information and control the shaking system to work according to the control parameter.
The drink in the container can be shaken in a targeted manner, so that the shaking condition of the drink is matched with the brewing information, and the taste of the prepared drink is ensured.
By acquiring the modulation information, a scheme for configuring the beverage can be obtained, so that the shaking system can be accurately controlled to work, and the occurrence of modulation errors is avoided.
In the above embodiment, the beverage brewing apparatus further comprises: a beverage compartment for providing a beverage to the container; the modulation information includes: the type of beverage in the beverage compartment.
In this embodiment, the control parameters are determined according to the type of beverage. When the types of drinks are different, the control parameters are different. For example, some drinks require a higher shaking frequency and some oils require a lower shaking frequency. The shaking mode is determined according to the type of the drink, so that the drink can be configured more pertinently.
In any of the above embodiments, the modulation information comprises: target drink information.
In this embodiment, after the target beverage information is obtained, the type of the configured beverage may be determined, for example, the same raw material, the beverage that needs to be configured uniformly, or the beverage that needs to be configured hierarchically, and different target beverages may be configured by changing the shaking manner. The drink can be configured more pertinently by acquiring the target drink information and determining the shaking mode.
In any of the above embodiments, the modulation information comprises: beverage formula information.
In the embodiment, under the condition that the beverage formula information is obtained, the configuration mode of the beverage can be known, the shaking system is controlled to work according to the beverage configuration mode, and the beverage can be configured in a more targeted manner.
In any of the above embodiments, the beverage brewing device is in communicative connection with the electronic device; the determination unit is specifically configured to: generating first information to the electronic device according to the modulation information; control parameters are received from the electronic device.
In the embodiment, the method and the device can acquire the type of the beverage in the beverage chamber and send the first information to the electronic equipment according to the type of the beverage. And then, after further receiving the control parameters fed back by the electronic equipment, controlling the shaking system to work according to the received control parameters.
Therefore, on one hand, linkage control of the beverage brewing equipment and the electronic equipment can be achieved, the intelligence of the beverage brewing equipment is further improved, on the other hand, the beverage in the container can be shaken more pertinently, the shaking condition of the beverage is guaranteed to be matched with the type of the beverage, and the taste of the made beverage is guaranteed.
Specifically, after receiving the first information from the beverage brewing device, the electronic device can determine the type of the beverage in the beverage chamber according to the first signal; then, the electronic device can determine the beverage which can be brewed by the beverage according to the type of the beverage, determine the relevant shaking parameter in the brewing process of the beverage, and send the control parameter to the beverage brewing device, so that the controller controls the shaking system to shake the container according to the control parameter.
In addition, the electronic device determines the beverage which can be brewed by the beverage, the corresponding menu of the beverage which can be brewed by the beverage can be displayed to the user, the target beverage is determined according to the selection of the user, the relevant shaking parameters in the brewing process of the target beverage are further determined, and the control parameters are sent to the beverage brewing device, so that the controller controls the shaking system to shake the container according to the control parameters.
Therefore, the control method of the beverage brewing equipment provided by the invention can identify the type of the beverage in the beverage cabin and control the shaking system to work according to the beverage which can be brewed by the beverage. Therefore, the linkage control of the electronic equipment and the beverage brewing equipment can be realized, the container can be shaken more pertinently aiming at the beverage in the beverage cabin, the intelligence of the beverage brewing equipment is improved, and the taste of the brewed beverage is improved.
In any of the above embodiments, the beverage brewing apparatus further comprises: an identification system for obtaining a type of beverage, the identification system comprising: the identification circuit is electrically connected with a controller in the beverage brewing equipment, the moving part can adjust the resistance value of the resistance component connected into the identification circuit and conduct the identification circuit, and the controller controls the shaking system to work according to the received control parameters; the obtaining unit is specifically configured to: acquiring the resistance value of the resistor component connected into the identification circuit; and determining the type of the beverage in the beverage cabin according to the resistance value and the preset corresponding relation.
In this embodiment, be provided with label subassembly and moving part on the drink cabin, the moving part can move relative to the drink cabin, and the direction is to the label subassembly.
The host computer has the installation cavity, and under the condition that the installation cavity was installed to the drink cabin, the moving part can insert identification circuit with at least partly access of resistance component to switch on whole identification circuit. And, through adjusting the position of moving part in the drink cabin, can adjust the resistance that resistance component inserts in the identification circuit. Therefore, after the beverage cabin is installed in the installation cavity of the installation part, the resistance value of the resistance component connected into the identification circuit can be obtained, the type of the beverage in the beverage cabin is determined according to the resistance value of the resistance component connected into the identification circuit and the preset corresponding relation, and then the subsequent automatic control on the beverage brewing equipment is facilitated, so that the intelligent degree of the beverage brewing equipment is improved. Specifically, including but not limited to: outputting a corresponding wine menu according to the type of the drink, controlling the wine blending parameters of the drink blending equipment according to the type of the drink, and the like.
Particularly, in the use process of a user, the user firstly adds drinks into the drink cabin and adjusts the position of the movable piece according to the types of the drinks, so that the movable piece points to the position, corresponding to the types of the drinks, in the label component. Then, the user places the beverage cabin in the installation cavity, and makes the moving part insert at least a part of resistance component in the identification circuit, so that the identification circuit constitutes a closed loop. And the resistance value of the resistance component connected into the identification circuit corresponds to the type of the beverage in the beverage cabin. Therefore, the beverage type identification circuit can identify the type of the beverage in the beverage cabin according to the resistance value accessed into the identification circuit by the resistance component, so that the subsequent automatic control of the beverage brewing equipment is facilitated, and the intelligence degree of the beverage brewing equipment is improved.
In any of the above embodiments, the control device of the beverage appliance further comprises: a transmitting unit, a receiving unit and an adjusting unit; the acquisition unit is further configured to: the method comprises the steps of obtaining shaking parameters of a container, sending the shaking parameters to the electronic equipment by a sending unit, receiving adjustment parameters from the electronic equipment by a receiving unit, and adjusting control parameters according to the adjustment parameters by an adjusting unit.
In this embodiment, in the process of shaking the container by the shaking system, the actual shaking parameters of the container are obtained by the present invention, and the obtained shaking parameters are sent to the electronic device; correspondingly, after receiving the shaking parameters sent by the beverage brewing equipment, the electronic equipment compares the actual shaking parameters of the container with the control parameters sent by the electronic equipment to the beverage brewing equipment, and judges whether the shaking system works abnormally or not; in case of an abnormal operation of the shaking system, the electronic device may send the adjustment parameters to the beverage brewing device to adjust the operation of the shaking system according to the situation. Furthermore, the beverage brewing equipment receives the adjusting parameters sent by the electronic equipment to adjust the control parameters, and then controls the shaking system to work according to the adjusted control parameters, so that the aim of correcting the control parameters is fulfilled.
As shown in fig. 3, in an embodiment of the present invention, a beverage brewing apparatus 300 is provided, which includes a processor 310, a memory 320 and a program or instructions stored on the memory 320 and executable on the processor 310, wherein the program or instructions, when executed by the processor, implement the steps of the control method of the beverage brewing apparatus as in the above-mentioned embodiments.
In the embodiment of the present invention, the beverage brewing apparatus provided has all the advantages of the control method of the beverage brewing apparatus as in the above embodiments, and is not discussed herein.
In an embodiment of the present invention, a readable storage medium is proposed, on which a program is stored, which program, when being executed by a processor, realizes the steps of the control method of a beverage brewing device as in the above embodiments.
As shown in fig. 4 and 5, a first embodiment of the present invention proposes a beverage brewing apparatus 100, comprising: a main body 102, a drink compartment 108, a shake system 110, and a controller 114.
The main body 102 includes a mounting structure 104 and a mounting cavity 170, and a user can mount the container 106 to the mounting structure 104 and place the wine material to be brewed into the mounting cavity 170 during use. The beverage compartment 108 is disposed within the main body 102, and a beverage can be disposed within the beverage compartment 108, and the beverage compartment 108 can provide a beverage to the container 106. The shaking system 110 is disposed on the main body 102, and the shaking system 110 is connected to shake the container 106 by the shaking system 110 to prepare the beverage.
Under the condition of acquiring the modulation information, the control parameters can be determined according to the modulation information, and the work of the shaking system can be controlled according to the control parameters.
The drink in the container can be shaken in a targeted manner, so that the shaking condition of the drink is matched with the brewing information, and the taste of the prepared drink is ensured.
By acquiring the modulation information, a scheme for configuring the beverage can be obtained, so that the shaking system can be accurately controlled to work, and the occurrence of modulation errors is avoided.
In the above embodiment, the beverage brewing apparatus 100 further comprises: an identification system 112 and a communication device (not shown in the figure), the identification system 112 being used to obtain the type of beverage; the communication device is arranged on the host computer 102 and can acquire control parameters from the electronic equipment; the controller 114 is electrically connected to the recognition system 112 and the communication device, and the controller 114 controls the operation of the wobble system based on control parameters received by the communication device.
In this embodiment, after the beverage pod 108 is mounted to the host 102, the identification system 112 may obtain the type of beverage within the beverage pod 108 and the identification system 112 is electrically connected to the controller 114. The communication device is disposed on the main body 102, and the beverage brewing apparatus 100 is in communication connection with the electronic device through the communication device and can communicate with the electronic device.
In particular, as shown in fig. 4 and 5, after the beverage pod 108 is installed to the host 102, the identification system 112 detects the type of beverage; the controller 114 controls the communication device to send the first information to the electronic device according to the type of beverage in the beverage compartment 108. After receiving the first information, the electronic device sends a corresponding control parameter to the beverage brewing device 100 according to the first information, where the control parameter is related to the type of beverage. Correspondingly, the controller 114, after receiving the control parameter, can control the shaking system 110 to operate according to the control parameter, so as to match the shaking condition of the beverage in the container 106 with the type of the beverage.
Therefore, on one hand, the linkage control of the beverage brewing device 100 and the electronic device can be realized, the intelligence of the beverage brewing device 100 is further improved, on the other hand, the beverage in the container 106 can be shaken more specifically, so that the beverage can be matched with the type of the beverage under the shaking condition, and the taste of the prepared beverage is ensured.
Specifically, after receiving the first information from the beverage brewing device 100, the electronic device can determine the type of beverage in the beverage compartment 108 according to the first information; the electronic device may then determine the wine that the beverage is capable of brewing based on the type of beverage, determine a shake parameter associated with the brewing of the beverage, and send a control parameter to the beverage brewing device 100 to cause the controller 114 to control the shake system 110 to shake the container 106 according to the control parameter.
In addition, when the electronic device determines that the drink can be brewed, the electronic device may also display a menu corresponding to the drink that can be brewed to the user, and determine a target drink according to the user's selection, and further determine a related shaking parameter during the brewing process of the target drink, and send the control parameter to the drink brewing device 100, so that the controller 114 controls the shaking system 110 to shake the container 106 according to the control parameter.
Thus, the beverage brewing apparatus 100 of the present invention is capable of identifying the type of beverage in the beverage compartment 108 and controlling the operation of the shaking system 110 based on the wine that the beverage can be brewed. Thus, the linkage control of the electronic device and the beverage brewing device 100 can be realized, the container 106 can be shaken more specifically for the beverage in the beverage cabin 108, the intelligence of the beverage brewing device 100 is improved, and the taste of the brewed beverage is improved.
As shown in fig. 5, the wine blender 100 also includes a first sensor 116. Wherein a first sensor 116 is disposed on the mounting structure 104 and is operable to detect whether the container 106 is in place. Correspondingly, the first sensor 116 is also electrically connected to the controller 114, so that the controller 114 can determine whether the container 106 is mounted in place according to the detection result of the first sensor 116.
Specifically, in the event that the container 106 is detected not to be installed in place, the controller 114 may control the communication device to send second information to the electronic apparatus, so that the electronic apparatus issues an alarm in response to the second information, thereby prompting the user to reinstall.
Specifically, as shown in fig. 5, the first sensor 116 may employ a position sensor.
In addition, the mixer 100 according to the present embodiment has all the advantages of the mixer 100 according to the first embodiment, and can identify the type of the base wine in the base wine compartment 108 and control the operation of the shaking system 110 according to the prepared wine. Thus, the linkage control of the electronic device and the wine blending machine 100 can be realized, the container 106 can be more specifically shaken aiming at the base wine in the base wine cabin 108, the intelligence of the wine blending machine 100 is improved, and the taste of the blended wine is improved, which is not discussed herein.
The third embodiment of the present invention provides a wine blending machine 100, further comprising, based on the first and second embodiments:
as shown in fig. 2, the blender 100 further includes a capsule 118 and a second sensor 120. Wherein the capsule 118 is disposed on the mounting structure 104 and the flavored wine is disposed within the capsule 118, the capsule 118 may provide the flavored wine to the receptacle 106. Additionally, a second sensor 120 is provided on the mounting structure 104 and may be used to detect whether the capsule 118 is mounted in place. Correspondingly, the second sensor 120 is also electrically connected to the controller 114, so that the controller 114 can determine whether the capsule 118 is installed in place according to the detection result of the second sensor 120.
Specifically, as shown in fig. 5, in case it is detected that the capsule 118 is not mounted in place, the controller 114 may control the communication means to transmit a second message to the electronic device, so that the electronic device issues an alarm in response to the second message, thereby prompting the user to re-mount.
Specifically, as shown in fig. 5, the second sensor 120 may employ a position sensor.
In addition, the mixer 100 according to the present embodiment has all the advantages of the mixer 100 according to the first embodiment, and can identify the type of the base wine in the base wine compartment 108 and control the operation of the shaking system 110 according to the prepared wine. Thus, the linkage control of the electronic device and the wine blending machine 100 can be realized, the container 106 can be more specifically shaken aiming at the base wine in the base wine cabin 108, the intelligence of the wine blending machine 100 is improved, and the taste of the blended wine is improved, which is not discussed herein.
A fourth embodiment of the present invention provides a wine dispenser 100, which comprises, on the basis of the first, second and third embodiments,
further:
as shown in fig. 5, the beverage brewing apparatus 100 further comprises a third sensor 122. Wherein the third sensor 122 is disposed on the swing system 110 and is configured to detect a swing parameter of the container 106. Further, the third sensor 122 is electrically connected to the controller 114, and the controller 114 controls the communication device to transmit the shake parameter of the detection container 106 to the electronic device. Thus, after receiving the shaking parameters of the container 106, the electronic device compares the shaking data of the container 106 with the control parameters sent to the electronic device; if the shaking data is consistent with the control parameters, it indicates that the shaking system 110 is working normally; if the shake data does not control the parameter to be consistent, the shake is abnormal at the moment.
Therefore, to ensure the taste of the prepared beverage, the electronic device sends the adjustment parameters to the beverage preparation device 100, and then adjusts the control parameters by the adjustment parameters, so that the controller 114 controls the shaking system 110 to operate according to the adjusted control parameters, thereby ensuring the accurate adjustment of the beverage in the container 106.
Specifically, as shown in fig. 5, the third sensor 122 may employ an angle sensor.
In addition, the beverage brewing apparatus 100 of the present embodiment has all the advantages of the beverage brewing apparatus 100 of the first embodiment, and can identify the type of the beverage in the beverage compartment 108 and control the operation of the shaking system 110 according to the beverage that can be brewed by the beverage. Thus, the linkage control of the electronic device and the beverage brewing device 100 can be realized, the container 106 can be more specifically shaken for the beverage in the beverage compartment 108, the intelligence of the beverage brewing device 100 is improved, and the taste of the brewed beverage is improved, which is not discussed herein.
Further:
as shown in fig. 6, the beverage brewing apparatus 100 further comprises a fourth sensor 124. Wherein the second sensor 120 is disposed within the beverage compartment 108 and is operable to measure the amount of beverage within the beverage compartment 108. Correspondingly, the fourth sensor 124 is also electrically connected to the controller 114, so that the controller 114 determines whether the beverage in the beverage compartment 108 is sufficient according to the detection result of the fourth sensor 124.
Specifically, in the event that the amount of beverage detected within the beverage pod 108 is less than the threshold value, the controller 114 may control the communication device to send a second message to the electronic device to cause the electronic device to issue an alert in response to the second message to prompt the user to add the beverage.
Specifically, as shown in fig. 6, the fourth sensor 124 may be a liquid level sensor and is disposed on the cover 126 of the beverage chamber 108.
In addition, the beverage brewing apparatus 100 of the present embodiment has all the advantages of the beverage brewing apparatus 100 of the first embodiment, and can identify the type of beverage in the beverage compartment 108 and control the operation of the shaking system 110 according to the wine brewed by the beverage. Thus, the linkage control of the electronic device and the beverage brewing device 100 can be realized, the container 106 can be more specifically shaken for the beverage in the beverage compartment 108, the intelligence of the beverage brewing device 100 is improved, and the taste of the brewed beverage is improved, which is not discussed herein.
Further:
as shown in fig. 7 and 9, the beverage container 108 is provided with a label assembly 128 and a movable member 130, and the movable member 130 can move relative to the beverage container 108; when the user places the beverage compartment 108, the user can adjust the movable member 130 according to the type of beverage in the beverage compartment 108, so that the movable member 130 points to a position corresponding to the tag assembly 128.
Further, as shown in fig. 7 and 8, the identification system 112 includes an identification circuit 132 and a resistive component 134. With the beverage compartment 108 mounted to the mounting cavity 170, the moveable member 130 can engage at least a portion of the resistive element 134 into the identification circuit 132 and conduct the entire identification circuit 132. And, through adjusting the position of the moving part 130 in the drink cabin 108, the resistance value of the resistor component 134 connected to the identification circuit 132 can be adjusted.
In the using process of the user, as shown in fig. 5 and 9, the user firstly adds the beverage into the beverage compartment 108, and adjusts the position of the movable member 130 according to the type of the beverage, so that the movable member 130 points to the position of the label assembly 128 corresponding to the type of the beverage. The user then places the beverage chamber 108 into the mounting cavity 170 and causes the moveable member 130 to engage at least a portion of the resistive element 134 into the identification circuit 132 such that the identification circuit 132 forms a closed loop.
And, the resistance value that the resistor component 134 accesses to the identification circuit 132 corresponds to the type of beverage in the beverage compartment 108. Thus, the controller 114 can identify the type of the beverage in the beverage compartment 108 according to the resistance value of the resistor component 134 accessed to the identification circuit 132, thereby facilitating the subsequent automatic control of the beverage brewing device 100 and improving the intelligence degree of the beverage brewing device 100.
In addition, the beverage brewing apparatus 100 of the present embodiment has all the advantages of the beverage brewing apparatus 100 of the first embodiment, and can identify the type of beverage in the beverage compartment 108 and control the operation of the shaking system 110 according to the wine brewed by the beverage. Thus, the linkage control of the electronic device and the beverage brewing device 100 can be realized, the container 106 can be more specifically shaken for the beverage in the beverage compartment 108, the intelligence of the beverage brewing device 100 is improved, and the taste of the brewed beverage is improved, which is not discussed herein.
Further, the method comprises the following steps:
as shown in fig. 5, 6 and 9, moveable member 130 includes a mounting member 136, an index member 138 and a lead member 140. Wherein, the mounting member 136 is movably disposed on the beverage chamber 108 and can move on the beverage chamber 108. The guide 138 is disposed on the mounting member 136 and is movable by the mounting member 136 to point at different locations on the tag assembly 128.
As shown in fig. 5, 6 and 9, the conducting member 140 is disposed on the mounting member 136 or the guiding member 138, and can move under the driving of the mounting member 136; and, with the beverage chamber 108 mounted to the mounting cavity 170, the pass-through 140 can couple a portion of the resistive component 134 directly into the identification circuit 132 to pass through the identification circuit 132.
As shown in fig. 9, after the user injects the beverage into the beverage compartment 108, the mounting member 136 may be adjusted to make the guide 138 point to the position of the tag assembly 128 corresponding to the type of beverage, so as to prompt the user for the type of beverage through the guide 138. In addition, during the process of adjusting the mounting member 136 by the user, the conducting member 140 moves along with the mounting member 136; correspondingly, the resistance value of the resistor assembly 134 connected to the identification circuit 132 is adjusted after the beverage chamber 108 is installed in the installation cavity 170. The user can then install the drink pod 108 into the mounting cavity 170; at this time, the conducting element 140 connects at least a portion of the resistor element 134 to the identification circuit 132, and the identification circuit 132 is conducted to a closed loop.
Further, the resistance value of the resistor assembly 134 connected to the identification circuit 132 is related to the position of the conducting element 140, the position of the conducting element 140 is related to the orientation of the directing element 138, and the orientation of the directing element 138 is related to the type of beverage in the beverage chamber 108. Therefore, the resistance value of the resistor component 134 accessed into the identification circuit 132 at this time corresponds to the type of the beverage in the beverage compartment 108, thereby ensuring that the type of the beverage in the beverage compartment 108 can be determined according to the resistance value of the resistor component 134 accessed into the identification circuit 132.
In addition, the beverage brewing apparatus 100 of the present embodiment has all the advantages of the beverage brewing apparatus 100 of the first embodiment, and can identify the type of the beverage in the beverage compartment 108 and control the operation of the shaking system 110 according to the beverage that can be brewed by the beverage. Thus, the linkage control of the electronic device and the beverage brewing device 100 can be realized, the container 106 can be more specifically shaken for the beverage in the beverage compartment 108, the intelligence of the beverage brewing device 100 is improved, and the taste of the brewed beverage is improved, which is not discussed herein.
Further:
as shown in fig. 8 and 10, the identification circuit 132 and the resistor assembly 134 are disposed on the mounting member 136, and the identification system 112 further includes a magnetic induction switch 142, and the conducting member 140 is a magnetic member, so as to adjust the resistance value of the resistor assembly 134 connected to the identification circuit 132 through the non-contact control. Specifically, the identification circuit 132 and the resistive component 134 are both disposed on the mount 136, and the magnetic induction switch 142 is disposed on the identification circuit 132. After the user installs the beverage chamber 108 in the installation cavity 170, the magnetic member is opposite to the magnetic induction switch 142, and the magnetic induction switch 142 is turned on, so that at least a portion of the resistor assembly 134 is connected to the identification circuit 132.
In this embodiment, further, as shown in fig. 12, the identification circuit 132 includes a first bus 144 and a second bus 146, the resistance component 134 includes a plurality of first resistances, and the magnetic induction switches 142 are plural in number. Wherein the number of the first resistors is the same, and the first circuits are connected in series to the first bus 144; the magnetic induction switch 142 is connected to the end of each first resistor, and ensures that the magnetic induction switch 142 is also connected to the second bus bar 146. With the magnetic induction switch 142 open, the first bus 144 and the second bus 146 are non-conductive; in the case of any one of the magnetic induction switches 142 being conductive, the first bus 144 is conductive with the second bus 146 and a corresponding number of first resistors are connected into the identification circuit 132.
Specifically, as shown in fig. 11, when the user points the guiding element 138 to different positions of the tag assembly 128, the magnetic element is located at different positions of the beverage chamber 108, and after the beverage chamber 108 is installed in the installation cavity 170, the magnetic element turns on the magnetic induction switch 142 at different positions. Thus, the magnetic member can connect all the first resistors on the front side of the turned-on magnetic induction switch 142 to the closed identification circuit 132, so as to ensure that the resistance value of the resistor assembly 134 connected to the closed identification circuit 132 corresponds to the resistance value of the beverage in the beverage compartment 108.
Specifically, as shown in fig. 12, a plurality of first resistors are connected in series to the first bus 144, and each first resistor includes a first resistor 148a, a second first resistor 148b, third first resistors 148c and … …, and an nth first resistor 148 n. Correspondingly, the tail end of the first resistor 148a is connected to the first magnetic induction switch 142a, the tail end of the second first resistor 148b is connected to the second magnetic induction switch 142b, the tail end of the third first resistor 148c is connected to the third magnetic induction switches 142c and … …, and the tail end of the nth first resistor 148n is connected to the nth magnetic induction switch 142 n.
Specifically, the mounting member 136 is provided with N magnetic induction switches 142 and N first resistors, all the first resistors are connected in series to the first bus 144, a lead is led out from a tail end of each first resistor to connect to one magnetic induction switch 142, and the other ends of the magnetic induction switches 142 are all connected to the second bus 146. After all the first resistors and the magnetic induction switches 142 are connected, the first resistors and the magnetic induction switches 142 are uniformly distributed and installed on the circumference of the installation member 136, and the position of each magnetic induction switch 142 corresponds to the position of the identification tag 162 in the fixing ring on the beverage chamber 108. The number of components N is the same as the number of identification tags 162 in the fixed loop in the tag index 138. All the first resistors have the same resistance value, which is r.
Specifically, after the user adds a beverage to the beverage pod 108, the label director 138 is rotated such that the director 138 points at the identification label 162 of the added beverage; the drink compartment 108 is then inserted entirely into the mounting member 136. When the beverage chamber 108 is inserted into the mounting cavity 170, the guide 138 will be coupled to a particular magnetic induction switch 142 on the mounting member 136.
Specifically, assuming that the magnetic induction module corresponds to the nth magnetic induction switch 142n, the nth magnetic induction switch 142n is turned on, and the total resistance of the magnetic induction module is R ═ n × R. After the system measures the value of R, the position of the nth magnetic induction switch 142n can be known through conversion, and then the corresponding identification tag 162 can be found through a preset position list, so as to obtain the type of the beverage.
Thus, the beverage type in the beverage compartment 108 can be intelligently identified, and the subsequent intelligent control of the beverage brewing device 100 is facilitated; in addition, the invention can also prompt the type of the beverage in the beverage cabin 108 for the user, and can still play a role of prompting after the user uses the beverage for a period of time, so that the user can know the condition of the beverage in the beverage cabin 108 conveniently.
In addition, the beverage brewing apparatus 100 of the present embodiment has all the advantages of the beverage brewing apparatus 100 of the first embodiment, and can identify the type of beverage in the beverage compartment 108 and control the operation of the shaking system 110 according to the wine brewed by the beverage. Thus, the linkage control of the electronic device and the beverage brewing device 100 can be realized, the container 106 can be more specifically shaken for the beverage in the beverage compartment 108, the intelligence of the beverage brewing device 100 is improved, and the taste of the brewed beverage is improved, which is not discussed herein.
Further:
as shown in fig. 8 and 10, the identification circuit 132 and the resistor assembly 134 are disposed on the mounting member 136, and the identification system 112 further includes a magnetic induction switch 142, and the conducting member 140 is a magnetic member, so as to adjust the resistance value of the resistor assembly 134 connected to the identification circuit 132 through the non-contact control. Specifically, the identification circuit 132 and the resistive component 134 are both disposed on the mount 136, and the magnetic induction switch 142 is disposed on the identification circuit 132. After the user installs the beverage chamber 108 in the installation cavity 170, the magnetic member is opposite to the magnetic induction switch 142, and the magnetic induction switch 142 is turned on, so that at least a portion of the resistor assembly 134 is connected to the identification circuit 132.
In this embodiment, further, as shown in fig. 13, the resistance component 134 includes a plurality of second resistances, and the number of the magnetic induction switches 142 is plural. Wherein, a second resistance and a magnetic induction switch 142 are connected in series and form a magnetic induction component; because the resistance values of the plurality of second resistors are different, the resistance values of different magnetic induction components are different. With the magnetic induction switch 142 open, the third bus 150 and the fourth bus 152 are not conductive; in the case of any of the magnetic induction switches 142 being conductive, the third bus 150 and the fourth bus 152 are conductive, and a second resistor of a corresponding resistance value is connected to the identification circuit 132.
Specifically, as shown in fig. 13, when the user points the guiding element 138 to different positions of the tag assembly 128, the magnetic element is also located at different positions of the beverage chamber 108, and after the beverage chamber 108 is installed in the installation cavity 170, the magnetic element turns on the magnetic induction switch 142 at different positions, so as to switch the second resistor at the corresponding position into the identification circuit 132. Moreover, since the different second resistors have different resistance values, the resistance value of the resistor assembly 134 connected to the closed identification circuit 132 is ensured to correspond to the resistance value of the beverage in the beverage compartment 108.
Specifically, as shown in fig. 13, a first second resistor 154a is connected in series with the first magnetic induction switch 142a and is coupled between the third bus 150 and the fourth bus 152, a second resistor 154b is connected in series with the second magnetic induction switch 142b and is coupled between the third bus 150 and the fourth bus 152, a third second resistor 154c is connected in series with the third magnetic induction switch 142c and is coupled between the third bus 150 and the fourth bus 152, … …, and an nth second resistor 154n is connected in series with the nth magnetic induction switch 142n and is coupled between the third bus 150 and the fourth bus 152.
Specifically, as shown in fig. 13, N magnetic induction switches 142 and N second resistors are disposed on the mounting cavity 170; a magnetic induction switch 142, a second resistor, are connected in series and form a magnetic induction assembly, all of which are connected in parallel between the third bus 150 and the fourth bus 152. After all the magnetic induction components are connected, the magnetic induction components are uniformly distributed and installed on the circumference of the installation part 136, and the position of each magnetic induction switch 142 corresponds to the position of the identification tag 162 in the fixed ring on the beverage chamber 108.
Specifically, after the user adds a beverage to the beverage pod 108, the label director 138 module is rotated so that the director 138 points at the identification label 162 of the added beverage; the drink compartment 108 is then inserted entirely into the mounting member 136. When the beverage chamber 108 is inserted into the mounting cavity 170, the guide 138 will be coupled to a particular magnetic induction switch 142 on the mounting member 136.
Specifically, assuming that the magnetic induction switch 142n just corresponds to the nth magnetic induction switch 142n, the nth magnetic induction switch 142n is turned on, the total resistance of the magnetic induction module is the resistance of the nth second resistor 154n, the position of the magnetic induction switch 142 can be known through conversion, and then the corresponding identification tag 162 can be found through a preset position list, so as to know the type of the beverage.
Thus, the beverage type in the beverage compartment 108 can be intelligently identified, and the subsequent intelligent control of the beverage brewing device 100 is facilitated; in addition, the invention can also prompt the type of the beverage in the beverage cabin 108 for the user, and can still play a role of prompting after the user uses the beverage for a period of time, so that the user can know the condition of the beverage in the beverage cabin 108 conveniently.
In addition, the beverage brewing apparatus 100 of the present embodiment has all the advantages of the beverage brewing apparatus 100 of the first embodiment, and can identify the type of beverage in the beverage compartment 108 and control the operation of the shaking system 110 according to the wine brewed by the beverage. Thus, the linkage control of the electronic device and the beverage brewing device 100 can be realized, the container 106 can be shaken more specifically for the beverage in the beverage compartment 108, the intelligence of the beverage brewing device 100 is improved, and the taste of the brewed beverage is improved, which is not discussed herein.
Further:
as shown in fig. 8, the identification circuit 132 is disposed on the mounting member 136 and the resistor assembly 134 is disposed on the beverage chamber 108. In this way, the identification circuit 132 can be turned on in a contact manner, and the resistance value of the resistor assembly 134 connected to the identification circuit 132 can be adjusted. Specifically, the resistor assembly 134 is connected to the pass-through 140; thus, during the process of moving the mounting member 136 by the user, the conducting member 140 can directly adjust the resistance value of the resistor assembly 134, and determine that the resistance value of the resistor assembly 134 corresponds to the type of beverage in the beverage compartment 108. Then, after the user installs the beverage chamber 108 in the installation cavity 170, the resistor component 134 can be directly connected to the identification circuit 132, and the resistance value of the resistor component 134 connected to the identification circuit 132 is ensured to be matched with the type of beverage in the beverage chamber 108.
In this embodiment, further, as shown in fig. 14, the resistance assembly 134 includes a resistance body 156 and a slide piece 158. The slider 158 is slidably connected to the resistor 156, and when the slider 158 is located at a position different from the resistor 156, the resistor 156 can be engaged with the electrical recognition circuit 132 at the position different from the resistor 156. In addition, the conducting member 140 is connected to the sliding piece 158; when the user moves the mounting member 136, the conductive member 140 may slide on the resistive member 156 with the slide piece 158, so that the slide piece 158 couples the resistive member 156 into the identification circuit 132 on the mounting member 136.
Specifically, as shown in fig. 14, one end of the resistive element 156 may be connected to the identification circuit 132 through a first electrical contact 164, the slider 158 may be in contact with the resistive element 156 through a second electrical contact 166, and the slider 158 may be connected to the identification circuit 132 through a third electrical contact 168; the sliding piece 158 can slide in the longitudinal direction of the resistor 156, and the resistance value of the resistor 156 connected to the identification circuit 132 is adjusted by changing the length of the resistor 156 between the first electrical contact 164 and the second electrical contact 166, so as to change the resistance value of the resistor assembly 134 connected to the identification circuit 132.
Specifically, as shown in fig. 14, one end of the resistive element 156 may be connected to the identification circuit 132 through a first electrical contact 164, the slider 158 may be in contact with the resistive element 156 through a second electrical contact 166, and the slider 158 may be connected to the identification circuit 132 through a third electrical contact 168; the sliding piece 158 can slide in the longitudinal direction of the resistor 156, and the resistance value of the resistor 156 connected to the identification circuit 132 is adjusted by changing the length of the resistor 156 between the first electrical contact 164 and the second electrical contact 166, so as to change the resistance value of the resistor assembly 134 connected to the identification circuit 132.
Specifically, as shown in fig. 14, assuming that the length of the resistor body 156 is L1, the total resistance value of the resistor body 156 is R, and the length L2 of the resistor body 156 between the first electrical contact 164 and the second electrical contact 166. Then, the resistance R of the resistor 156 connected to the identification circuit 132 is (L2/L1) × R.
Specifically, as shown in fig. 14, the resistance assembly 134 includes a resistor body 156 and a slider 158. One end of the resistive element 156 may be connected to the identification circuit 132 via a first electrical contact 164, the slide 158 may be in contact with the resistive element 156 via a second electrical contact 166, and the slide 158 may be connected to the identification circuit 132 via a third electrical contact 168.
The sliding piece 158 can slide in the longitudinal direction of the resistor 156, and the resistance value of the resistor 156 connected to the identification circuit 132 is adjusted by changing the length of the resistor 156 between the first electrical contact 164 and the second electrical contact 166, so as to change the resistance value of the resistor assembly 134 connected to the identification circuit 132. The controller 114 can read the resistance value of the resistor component 134 connected to the identification circuit 132, and can know the identification tag 162 pointed by the guiding element 138 through the conversion of the resistance value, so as to identify the type of the beverage added in the beverage compartment 108.
Thus, the beverage type in the beverage compartment 108 can be intelligently identified, and the subsequent intelligent control of the beverage brewing device 100 is facilitated; in addition, the invention can also prompt the type of the beverage in the beverage cabin 108 for the user, and can still play a role of prompting after the user uses the beverage for a period of time, so that the user can know the condition of the beverage in the beverage cabin 108 conveniently.
In addition, the beverage brewing apparatus 100 of the present embodiment has all the advantages of the beverage brewing apparatus 100 of the first embodiment, and can identify the type of the beverage in the beverage compartment 108 and control the operation of the shaking system 110 according to the beverage that can be brewed by the beverage. Thus, the linkage control of the electronic device and the beverage brewing device 100 can be realized, the container 106 can be more specifically shaken for the beverage in the beverage compartment 108, the intelligence of the beverage brewing device 100 is improved, and the taste of the brewed beverage is improved, which is not discussed herein.
Further:
as shown in fig. 10, 11 and 12, the tag assembly 128 includes a fixture 160 and a plurality of identification tags 162. Wherein, the fixing member 160 is disposed on the beverage, and the relative position of the fixing member 160 and the beverage chamber 108 is fixed; the plurality of identification tags 162 are respectively arranged at different positions of the fixing member 160, and different identification tags 162 represent different beverage types; in addition, the resistance of the resistor element 134 coupled to the identification circuit 132 varies when the moveable member 130 is oriented at different identification tags 162.
Therefore, after the user adds the beverage into the beverage compartment 108, the position of the movable member 130 is adjusted according to the type of the beverage, so that the guiding element 138 of the movable member 130 points to the corresponding identification tag 162, and the user can determine the type of the beverage in the beverage compartment 108 according to the identification tag 162 pointed by the guiding element 138 in the subsequent use process. Moreover, when the user adjusts the position of the movable member 130, the resistance of the resistor element 134 when the resistor element is connected to the identification circuit 132 can be adjusted, thereby ensuring the subsequent intelligent control of the beverage brewing device 100.
Specifically, as shown in fig. 10, 11 and 12, the fixing member 160 can be a fixing ring, and the fixing ring can be rotatably disposed on the beverage chamber 108; a plurality of identification tags 162 are provided on the circumferential side of the fixing ring.
Specifically, as shown in fig. 10 and 12, the identification label 162 may be filled with a cocktail drink name. More specifically, as shown in fig. 11, the identification tag 162 may be filled with the names of gold wine, vodka, rum, tequila, whiskey, brandy, and the like.
In some possible embodiments, as shown in FIG. 11, the magnetic induction switch 142 may employ a reed switch.
In some possible embodiments, specifically, as shown in fig. 11, a mounting cavity 170 is provided on the main body 102, and the beverage chamber 108 can be placed in the mounting cavity 170. And, a fifth sensor 174 is arranged in the mounting cavity 170, and the fifth sensor 174 is electrically connected to the controller 114 and is used for detecting whether the beverage chamber 108 is mounted in place.
In some possible embodiments, as shown in fig. 11, the beverage brewing apparatus 100 further comprises an alcohol injection system 172, the alcohol injection system 172 being disposed within the main body 102 and being configured to inject the beverage in the beverage compartment 108 into the container 106.
In addition, the beverage brewing apparatus 100 of the present embodiment has all the advantages of the beverage brewing apparatus 100 of the first embodiment, and can identify the type of beverage in the beverage compartment 108 and control the operation of the shaking system 110 according to the wine brewed by the beverage. Thus, the linkage control of the electronic device and the beverage brewing device 100 can be realized, the container 106 can be more specifically shaken for the beverage in the beverage compartment 108, the intelligence of the beverage brewing device 100 is improved, and the taste of the brewed beverage is improved, which is not discussed herein.
Specifically, the beverage brewing device provided by the invention has the following working process:
the beverage brewing apparatus includes an identification system. After the user adds the beverage, the type of the beverage added by the user is identified on the beverage cabin, and then the identification system can automatically identify the type of the beverage selected by the user so as to judge what beverage is added in the corresponding beverage cabin.
A liquid level sensor is arranged in the beverage cabin, and the controller identifies the liquid level in the beverage cabin through the liquid level sensor so as to judge the surplus of the beverage in the cabin.
The mounting structure is provided with a position sensor, and the controller identifies whether the capsule is mounted in place through the position sensor.
The mounting structure is provided with a position sensor, and the controller identifies whether the container is mounted in place through the position sensor.
The extreme angle position of the shaking system is provided with a position sensor, the controller records the shaking times through the position sensor, and the shaking frequency is converted through recording the time of sensing the position twice or multiple times.
The controller uploads the detected information to a cloud for storage, the program of the electronic equipment can access cloud data and make necessary analysis on the cloud data, and meanwhile, corresponding instructions are sent to the equipment according to analysis results, or prompt information is displayed in an APP interface of the electronic equipment, or recommended wine recipes are displayed in the APP of the electronic equipment.
The beverage brewing apparatus comprises: at least one of a wine mixer, a coffee maker, a milk product preparer, and a beverage preparer.
In one possible application, the beverage may be base wine, milk, water, beverage, coffee, etc., or may be prepared cocktail, milky tea, beverage, coffee, etc.
The beverage preparation equipment can be used for preparing alcoholic beverages such as cocktail and other non-alcoholic beverages such as fruit juice according to user requirements, and the technical scheme does not make hard limit on the types of the beverages prepared by the beverage preparation equipment.
Illustratively, the beverage brewing equipment is a wine blending machine, wine is shaken according to brewing information, different brewed wines can be obtained through configuration, and intelligence and accuracy in the wine brewing process are improved.
In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically limited, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention; the terms "connected", "mounted", "fixed", and the like are to be construed broadly and may include, for example, fixed connections, detachable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (22)

1. A control method of a beverage brewing apparatus, characterized in that the beverage brewing apparatus comprises: the device comprises a host and a shaking system, wherein the host comprises a mounting structure, the mounting structure is used for placing a container, and the shaking system is arranged on the host and is used for shaking the container; the control method comprises the following steps:
acquiring modulation information;
determining a control parameter according to the modulation information;
and controlling the shaking system to work according to the control parameters.
2. The control method of a beverage brewing apparatus according to claim 1,
the beverage brewing apparatus further comprises: a beverage pod for providing a beverage to the container;
the modulation information includes: the type of beverage in the beverage compartment.
3. The control method of a beverage brewing apparatus according to claim 1,
the modulation information includes: target drink information.
4. The control method of a beverage brewing apparatus according to claim 1,
the modulation information includes: beverage formula information.
5. The control method of a beverage brewing apparatus according to claim 2,
the beverage brewing equipment is in communication connection with the electronic equipment;
the determining a control parameter according to the modulation information includes:
generating first information to the electronic equipment according to the modulation information;
control parameters are received from the electronic device.
6. The method of controlling a beverage brewing apparatus according to claim 2, wherein a label assembly and a movable member are disposed on the beverage compartment, the movable member being movable relative to the beverage compartment and pointing towards the label assembly, the beverage brewing apparatus further comprising: an identification system for obtaining a type of the beverage, the identification system comprising: the identification circuit is electrically connected with a controller in the beverage brewing equipment, the moving part can adjust the resistance value of the resistance component connected into the identification circuit and conduct the identification circuit, and the controller controls the shaking system to work according to the received control parameters;
the acquiring of the modulation information includes:
acquiring the resistance value of the resistor component connected into the identification circuit;
and determining the type of the beverage in the beverage cabin according to the resistance value and the preset corresponding relation.
7. The control method of a beverage brewing apparatus according to claim 5, further comprising:
acquiring shaking parameters of the container;
sending a shake parameter to the electronic device;
and receiving an adjusting parameter from the electronic equipment, and adjusting the control parameter according to the adjusting parameter.
8. A control device for a beverage brewing apparatus, the beverage brewing apparatus comprising: the device comprises a main machine and a shaking system, wherein the main machine comprises a mounting structure, the mounting structure is used for placing a container, and the shaking system is arranged on the main machine and is used for shaking the container; the control device includes:
an acquisition unit configured to acquire modulation information;
a determining unit, configured to determine a control parameter according to the modulation information;
and the control unit is used for controlling the shaking system to work according to the control parameters.
9. A beverage brewing apparatus comprising a processor, a memory and a program or instructions stored on the memory and executable on the processor, which program or instructions, when executed by the processor, carry out the steps of the control method of the beverage brewing apparatus according to any one of claims 1 to 7.
10. A readable storage medium, on which a program is stored, characterized in that the program, when being executed by a processor, carries out the steps of the control method of a beverage brewing apparatus according to any one of claims 1 to 7.
11. A beverage brewing apparatus, comprising:
the main machine comprises a mounting structure and a mounting cavity, and the mounting structure is used for placing a container;
the beverage cabin can be arranged in the mounting cavity and used for providing beverages for the container;
the shaking system is arranged on the main machine and used for shaking the container;
and the controller is electrically connected with the shaking system and used for controlling the shaking system to work according to the received control parameters.
12. Beverage brewing device according to claim 11,
the beverage brewing apparatus further comprises:
an identification system for obtaining a type of the beverage;
the communication device is arranged on the host and can acquire control parameters from the electronic equipment;
the controller is electrically connected with the recognition system and the communication device, and the controller controls the shaking system to work according to the control parameters received by the communication device.
13. The beverage brewing apparatus of claim 11, further comprising:
and the third sensor is arranged on the shaking system and is electrically connected with the controller, and the third sensor is used for detecting the shaking parameters of the container.
14. The beverage brewing apparatus according to claim 12,
the beverage cabin is provided with a label component and a movable piece, and the movable piece can move relative to the beverage cabin and points to the label component;
the identification system comprises an identification circuit and a resistor component, the identification circuit is electrically connected with the controller, and the moving part can adjust the resistance value of the resistor component connected into the identification circuit and conduct the identification circuit.
15. The beverage brewing apparatus according to claim 14, wherein said movable member comprises:
the mounting piece is movably arranged on the beverage cabin;
the guiding piece is arranged on the mounting piece and used for guiding the label assembly;
and the conducting piece is arranged on the mounting piece or the guiding piece and is used for connecting at least one part of the resistance component into the identification circuit and conducting the identification circuit.
16. The beverage brewing apparatus according to claim 15,
the identification circuit and the resistor assembly are arranged on the mounting piece;
the identification system further comprises a magnetic induction switch, and the magnetic induction switch is arranged on the identification circuit;
the conduction piece is a magnetic piece, and the beverage cabin is arranged in the installation cavity, so that the magnetic piece can conduct the magnetic induction switch.
17. The beverage brewing apparatus according to claim 16,
the identification circuit comprises a first bus and a second bus;
the resistor assembly comprises a plurality of first resistors, the resistance values of the first resistors are the same, and the first resistors are connected in series with the first bus;
the quantity of magnetic induction switch is a plurality of, and is a plurality of magnetic induction switch's one end connect respectively in the tail end of a plurality of first resistance, it is a plurality of magnetic induction switch's the other end connect respectively in the second bus.
18. The beverage brewing apparatus according to claim 16,
the identification circuit comprises a third bus and a fourth bus;
the resistor assembly comprises a plurality of second resistors, and the resistance values of the second resistors are different;
the quantity of magnetic induction switch is a plurality of, one the second resistance is with one the magnetic induction switch series connection is magnetic induction subassembly, and is a plurality of magnetic induction subassembly parallel connection be in the third bus with between the fourth bus.
19. The beverage brewing apparatus according to claim 15,
the identification circuit is arranged on the installation piece, and the resistance component is arranged on the beverage cabin and is connected with the conduction piece;
at least a portion of the resistive component is electrically connected to the identification circuit with the beverage pod mounted to the mounting cavity.
20. The beverage brewing apparatus according to claim 19,
the resistor assembly comprises a resistor body and a slide sheet, and the slide sheet is connected with the resistor body in a sliding manner;
the conducting piece is connected with the sliding piece and drives the sliding piece to move on the resistor body.
21. The beverage brewing apparatus of claim 14, wherein the label assembly comprises:
the fixing piece is arranged on the drink cabin;
a plurality of identification tags disposed on the fixing member;
when the moving piece points to different identification tags, the resistance values of the resistor component connected into the identification circuit are different.
22. The beverage brewing apparatus according to any one of claims 11 to 21,
the beverage brewing apparatus comprises: at least one of a wine mixer, a coffee maker, a milk product preparer, and a beverage preparer.
CN202210577296.8A 2022-05-25 2022-05-25 Beverage brewing equipment, control method and device thereof and readable storage medium Pending CN114854522A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116407997A (en) * 2023-06-06 2023-07-11 广州玺明机械科技有限公司 Intelligent control method and device of shaking machine, computer equipment and storage medium
US12178360B1 (en) 2023-08-08 2024-12-31 Sharkninja Operating Llc Intelligent blending and user interface
USD1075401S1 (en) 2023-08-01 2025-05-20 Sharkninja Operating Llc Blender
USD1101490S1 (en) 2023-08-02 2025-11-11 Sharkninja Operating Llc Blender user interface
US12611066B2 (en) 2023-06-09 2026-04-28 Sharkninja Operating Llc Blender food item texture control

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20100242497A1 (en) * 2007-11-05 2010-09-30 Claudio Bertone Apparatus and methods for producing beverages
CN102640193A (en) * 2009-12-02 2012-08-15 雀巢产品技术援助有限公司 Beverage preparation machine supporting a remote service functionality
CN102681563A (en) * 2012-01-10 2012-09-19 廖明忠 An electronic controller, a bartending method and a bartending device
CN204607968U (en) * 2015-03-30 2015-09-02 赵建国 Automatic rectification machine
US20210330119A1 (en) * 2018-09-07 2021-10-28 Starship Technologies Oü System and method for beverage dispensing

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20100242497A1 (en) * 2007-11-05 2010-09-30 Claudio Bertone Apparatus and methods for producing beverages
CN102640193A (en) * 2009-12-02 2012-08-15 雀巢产品技术援助有限公司 Beverage preparation machine supporting a remote service functionality
CN102681563A (en) * 2012-01-10 2012-09-19 廖明忠 An electronic controller, a bartending method and a bartending device
CN204607968U (en) * 2015-03-30 2015-09-02 赵建国 Automatic rectification machine
US20210330119A1 (en) * 2018-09-07 2021-10-28 Starship Technologies Oü System and method for beverage dispensing

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116407997A (en) * 2023-06-06 2023-07-11 广州玺明机械科技有限公司 Intelligent control method and device of shaking machine, computer equipment and storage medium
CN116407997B (en) * 2023-06-06 2023-12-22 广州玺明机械科技有限公司 Intelligent control method and device of shaking machine, computer equipment and storage medium
US12611066B2 (en) 2023-06-09 2026-04-28 Sharkninja Operating Llc Blender food item texture control
USD1075401S1 (en) 2023-08-01 2025-05-20 Sharkninja Operating Llc Blender
USD1101490S1 (en) 2023-08-02 2025-11-11 Sharkninja Operating Llc Blender user interface
US12178360B1 (en) 2023-08-08 2024-12-31 Sharkninja Operating Llc Intelligent blending and user interface

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