KR102236911B1 - System and method for vision inspection automation and smart operation management of harness manufacturing process - Google Patents

Abstract

The present invention relates to a system and method for automatic vision inspection and smart operation management of a harness manufacturing process in which the inspection mode setting of a harness product is automatically made and information and status of the inspection process can be monitored in real time. An inspection waiting unit that waits according to an inspection sequence when the harness product manufactured by the unit is transferred in a box with a unique tag attached; a vision inspection unit that performs an inspection using an automatic vision inspection system for an inspector holding a unique tag; Result classification unit that divides the harness products that have been inspected by the vision inspection unit into good and defective products, and divides them using a box with a unique tag; information and status of the inspection process by communicating with an IP-based wired/wireless communication network and a predetermined communication protocol It enables real-time monitoring of the product, and when the inspection start information is received at the inspection start stage of the vision inspection unit, the product model information to be inspected is transmitted to the inspection unit of the vision inspection unit, and the inspection environment and the inspection environment for the corresponding product model are automatically It includes a DB and a server unit for automatically setting the determination reference values.

Description

System and method for vision inspection automation and smart operation management of harness manufacturing process

The present invention relates to a harness product inspection, specifically, for automatic vision inspection and smart operation management of a harness manufacturing process in which the inspection mode setting of the harness product is automatically made and information and status of the inspection process can be monitored in real time. It relates to systems and methods.

In general, the electrical connection between parts required in many fields, such as industrial sites, automated machinery, and automobiles, is classified by use and electrical characteristics, and the wirings are connected to connectors at once to improve workability, stability, and visibility. A bundle of wiring is called a wire harness.

Such a wire harness includes a connector housing for connection to a counterpart component and a plurality of electric wires connected to the connector housing. In particular, each wire is printed in various colors to prevent wiring errors.

However, considering that the work of connecting each wire to the connector housing is usually performed manually, there is a concern that a wiring error may occur due to the carelessness of the worker.

If a part of the wire harness is molded after such a defective wire harness is installed in a product such as a machine facility, automobile, or home appliance, it is difficult to find the cause of the failure, and even if the cause of the failure has been found, replacement is difficult. Is impossible.

Therefore, after the wiring of the wire harness is completed, a separate inspection process is performed to check whether the wire harness is defective.

For example, in the case of the wire harness inspection process for home appliances, the inspector visually judges the quantity/part of the product using a magnifying glass, etc. as an auxiliary tool, and then ships the passed product.

Such a method has a high possibility of causing fatigue of the inspector through continuous product repetition inspection, and there is a problem in that a passed product may be misused and shipped due to a decrease in inspection judgment due to this.

In addition, the prolongation of inspection time and the increase of the number of inspection personnel according to the increase in product production may increase the labor cost added thereto, which may eventually lead to weakening of the price competitiveness of the product due to the increase in manufacturing cost.

Recently, some large-scale wire harness manufacturers have introduced vision inspection machines to improve the inspection process.

However, in the case of the introduced vision inspection machine, since the inspector directly inserts the product into the inspection jig in a certain direction according to the product recognition direction, there is an operational problem in that the jig must be changed for each type according to the product.

As described above, in the case of the currently used wire harness vision inspection equipment, the type of wire color for each pin of the wire harness increases, and thus, when adjacent wires have similar colors, it becomes difficult to distinguish colors during vision inspection and to discriminate incorrect wiring.

In addition, since a special jig for each product model is required, if the variety of products produced is diversified, additional costs for additional production may be incurred, thereby increasing the inspection cost.

In particular, in the inspection work method, there is a possibility that human industrial accidents due to musculoskeletal diseases, etc. may be accompanied due to the work in the form of a fixed posture in which the inspector inserts the product into the inspection jig.

Accordingly, there is a demand for the development of a new technology that automates the inspection of harness products and enables real-time monitoring of information and status of the inspection process.

Korean Patent Registration No. 10-1448267 Korean Patent Registration No. 10-1885986 Republic of Korea Patent Publication No. 10-2015-0115469

The present invention is to solve the problem of the conventional harness product inspection technology, the inspection mode setting of the harness product is automatically made and the vision inspection automation of the harness manufacturing process so that the information and status of the inspection process can be monitored in real time. Its purpose is to provide a system and method for smart operation and management.

The present invention automates the inspection of harness products, converts information of the inspection process into a cloud DB, and records the process of work in a cloud DB in real time through tags and tag readers, and stores information and status of the inspection process through an operator terminal. Its purpose is to provide a system and method for automating vision inspection and smart operation management of the harness manufacturing process that can be monitored in real time.

The present invention enables automation of vision inspection and smart operation management of the harness manufacturing process to prevent information recording errors in the DB by transmitting the standby box ID information to the server at the inspection start stage and completion stage of the harness product. It is an object to provide a system and method for the purpose.

In the inspection start step of the present invention, when the inspection start information is received, the product model information previously recorded in the DB is transmitted to the inspector, and the inspection environment and the judgment reference values for the corresponding product model are automatically set by the inspector to improve inspection efficiency and Its purpose is to provide a system and method for automating vision inspection and smart operation management of the harness manufacturing process to increase accuracy.

The present invention is a harness manufacturing process in which the inspection mode setting is automatically performed using product model information previously recorded in the DB, so that the inspector does not need to set the inspection environment and judgment reference values according to the product model to be inspected during inspection work. Its purpose is to provide a system and method for vision inspection automation and smart operation management.

Other objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

The system for automating vision inspection and smart operation management of the harness manufacturing process according to the present invention to achieve the above object is carried out according to the inspection sequence when the harness product manufactured by the production and manufacturing department is transferred in a box with a unique tag attached thereto. An inspection waiting unit for waiting; A vision inspection unit for inspecting the harness products transferred from the inspection waiting unit using an automatic vision inspection system for an inspector carrying a unique tag; A result classification unit that divides into and divides each box using a box with a unique tag; It communicates with an IP-based wired/wireless communication network and a predetermined communication protocol so that information and status of the inspection process can be monitored in real time, and the vision inspection unit When the inspection start information is received at the inspection start stage, the inspection target product model information is transmitted to the inspection unit of the vision inspection unit, and the inspection environment and the judgment standard values for the corresponding product model are automatically set by the inspection machine. It characterized in that it includes;

Here, the DB and the server unit manages the entire function to monitor the information and status of the inspection process in real time, and the server in charge of transmitting and receiving message information with other functional areas through an IP-based wired/wireless communication network and a predetermined communication protocol. ,A DB that stores and manages the data and status information extracted from the tag reader in each area of the inspection waiting unit, the vision inspection unit, and the result classification unit, and the message information transmitted from the inspection unit of the vision inspection unit, while communicating with the operation manager smart terminal or the operation manager It characterized in that it comprises a web server that configures and provides information in a form requested from an operation manager.

In addition, the vision inspection unit is characterized in that during the inspection of the harness product, the standby box ID information is transmitted to the server of the DB and the server unit together in the inspection start stage and the completion stage, so that an error in recording information in the DB can be prevented.

And in the production and manufacturing department, a tag input device is used by the manufacturer to input their ID and information related to the product to be manufactured into the tag, and the tag input device is in the form of an app or a user interface in the form of a GUI in a smart terminal carried by the producer. It is characterized by being input.

In addition, a tag reader is provided in each area of the inspection waiting unit, the vision inspection unit, and the result classification unit, and each tag reader reads information of a tag arriving in the corresponding area and transmits it to the DB and the server unit.

And the vision inspection unit, the communication connector is attached and connected to the vision inspection unit, transmits the vision inspection process and result information to the DB and server unit through the IP-based wired and wireless communication network, or down the information provided from the DB and server unit to the vision inspection unit. It is characterized in that it plays a role of giving.

And the operation manager smart terminal refers to the operation manager's smart phone, smart pad, or computer existing in an external arbitrary moving area, and accesses DB information at any time through the IP communication network, and the progress of the inspection process and results of the harness manufactured product. It is characterized in that it supports to monitor the health status in real time.

In addition, the operation manager monitor is an operation manager monitor that exists in the same communication network area as the automatic vision inspection system, and accesses DB information at any time through an IP-based wired/wireless communication network to monitor the progress and status of the inspection process and results of the harness manufactured in real time. It is characterized in that it supports to be monitored.

The method for automating vision inspection and smart operation management of the harness manufacturing process according to the present invention to achieve another object is to wait according to the inspection sequence when the harness product manufactured in the production and manufacturing stage is transferred in a box with a unique tag attached thereto. Inspection waiting step; The tag reader of the inspection waiting unit reads the tag attached to the box and transmits it to the server, and the server creates a new entry in the DB and sets the status of the entry to'wait for inspection'; the tag reader of the vision inspection unit is the inspector The tag is read and transmitted to the server, and after inspection, the tag attached to the box containing each product of good and defective products is read, and the tag ID of the test waiting box and the tester tag information are recorded together in the corresponding entry in the DB, and the status of the entry is checked. Vision inspection step of transitioning from'waiting' to'inspecting'; upon completion of the inspection, the inspection result information including the total number of inspection products, the number of good products, the quantity of goods, and the inspection completion time is transmitted to the server through the communication connector of the vision inspection unit. And an inspection completion step of storing the entry in the corresponding area of the entry created in the DB and transitioning the state of the entry from'inspecting' to'inspection completed'.

Here, in the vision inspection step, the DB sends the product model information stored in the corresponding entry to the server, and the server transmits it to the inspection unit of the vision inspection unit, and the inspector sets the inspection environment and criteria according to the received product model information, and prepares for inspection. It is characterized in that it outputs a completion signal.

In addition, the operation manager checks the inspection process and result information and status of the operation management monitor included in the same communication network area or the harness product stored and managed in the DB by the operation manager smart terminal or computer used in the external mobile area. When requesting information for this purpose, the request is received from the web server, the corresponding information of the DB is obtained, and the information is displayed on the operation manager terminal and the monitor.

In addition, the items stored in the entry created in the DB for the vision inspection automation and smart operation management of the harness manufacturing process are: record order, inspection waiting registration time, waiting box ID, quantity of products to be inspected, manufacturer ID, inspection start time, quality box It characterized in that it includes an item of ID, defective box ID.

In addition, in the tag attached to the box in the inspection waiting step, manufacturer specific information, product model information, and manufacturing time information, which are input through a tag input device before starting the manufacturing operation, are stored.

The system and method for automating vision inspection and smart operation management of a harness manufacturing process according to the present invention as described above have the following effects.

First, the setting of the inspection mode of the harness product is made automatically, and the information and status of the inspection process can be monitored in real time.

Second, the inspection of the harness product is automated, the information of the inspection process is converted into a cloud DB, and the process of work is recorded in the cloud DB in real time through tags and tag readers, and the information and status of the inspection process are recorded in real time through the operator's terminal. To be monitored.

Third, in the inspection process of the harness product, by transmitting the standby box ID information to the server at the inspection start stage and completion stage, it is possible to prevent information recording errors in the DB.

Fourth, at the inspection start stage, when the inspection start information is received, the product model information previously recorded in the DB is transmitted to the inspection machine, and the inspection environment and the judgment standard values for the product model are automatically set by the inspection machine to improve inspection efficiency and Make it possible to increase accuracy.

Fifth, the inspection mode setting is made automatically using the product model information previously recorded in the DB, so that the inspector does not have to separately set the inspection environment and judgment standard values according to the product model to be inspected when performing the inspection operation, thereby improving the inspection work efficiency. Raise.

1 is a configuration diagram of a system for automating vision inspection and smart operation management of a harness manufacturing process according to the present invention
2 is an operation flow diagram between components of a system for automating vision inspection and smart operation management of a harness manufacturing process according to the present invention.
3 is a flowchart showing a method for automating vision inspection and smart operation management of a harness manufacturing process according to the present invention

Hereinafter, preferred embodiments of a system and method for automating vision inspection and smart operation management of a harness manufacturing process according to the present invention will be described in detail as follows.

Features and advantages of the system and method for automating vision inspection and smart operation management of a harness manufacturing process according to the present invention will become apparent through detailed description of each embodiment below.

1 is a block diagram of a system for automating vision inspection and smart operation management of a harness manufacturing process according to the present invention.

A system and method for automating vision inspection and smart operation management of a harness manufacturing process according to the present invention enables automatic setting of an inspection mode of a harness product and monitoring information and status of an inspection process in real time.

To this end, the present invention automates the inspection of the harness product, converts the information of the inspection process into a cloud DB, and records the process of work in a cloud DB in real time through tags and tag readers, It may include a configuration that allows the status to be monitored in real time.

The present invention may include a configuration capable of preventing an error in recording information in a DB by transmitting the standby box ID information to the server together in the inspection start stage and completion stage of the harness product.

The present invention provides a configuration in which the product model information previously recorded in the DB is transmitted to the tester when the test start information is received in the test start step so that the tester automatically sets the test environment and judgment reference values for the corresponding product model. Can include.

As shown in Fig. 1, the system for vision inspection automation and smart operation management of the harness manufacturing process according to the present invention includes a production and manufacturing unit 10, an inspection waiting unit 20, a vision inspection unit 30, and a result classification unit 40. , DB and server unit 50, operation manager monitor 60, user smart mobile terminal (or computer) 70, IP-based wired and wireless communication network 80, and external mobile communication and WiFi network 90.

The production and manufacturing unit 10 refers to an area in which harness products are manufactured and produced by a production person in charge, and the manufactured harness products are contained in a box to which a unique tag 10a is attached.

The inspection waiting unit 20 is an area that waits and waits for an order to inspect manufactured and manufactured harness products, and waits in the form of a box with a tag attached thereto.

The vision inspection unit 30 is an area in which the manufactured and manufactured harness products are individually inspected for necessary matters by automatic vision inspection technology, and are determined as good or defective products.

The vision inspection unit 30 has an inspector 30a carrying a unique tag 30c, and allows the inspector to perform inspection using an automatic vision inspection system.

The result classification unit 40 is an area that divides the harness product, which has been inspected by the inspector 30a, into good and defective products, and is put in a corresponding position. In order to contain good and defective products, each box with a unique tag 40a is used, and the tag 40a is used to support the automatic progress of the next process in the work flow.

The tag input device 10b is used by the producer in the production and manufacturing unit 10 to input their ID and information related to the product to be manufactured into the tag 10a, and for convenience in use, in a smart terminal carried by the producer. Input through the user interface in the form of an app or GUI.

The tag readers 20a, 30d, and 40b read the information of the tags 10a, 30c, and 40a arriving in the corresponding area and transmit the information to the DB and the server unit 50.

And the communication connector (30e) is attached to the vision inspection machine (30b), and transmits the vision inspection process and result information to the DB and server unit 50 through the IP-based wired and wireless communication network 80, or the DB and server unit 50 ) Serves to drop the information down to the vision inspection machine (30b).

The DB and server unit 50 is composed of a server 50a, a DB 50b, and a web server 50c.

The server 50a manages the entire functions of the DB and the server unit 50, and transmits/receives message information to and from other functional areas according to the IP-based wired/wireless communication network 80 and a predetermined communication protocol. The DB 50b serves to store and manage the data and status information extracted from the message information transmitted from the tag readers 20a, 30d, 40b and the vision inspector 30b in each area.

The web server 50c serves to configure and send information in the form requested from the operation manager while communicating with the operation manager smart terminal 70 or the operation manager monitor 60.

At this time, in the case of the operation manager monitor 60 existing in the same communication network area as the present system, it is connected to the web server 50c through the IP-based wired/wireless communication network 80, and the operation manager smart terminal ( Alternatively, in the case of PC) 70, it is connected to the web server 50c through an external WiFi or mobile communication network (4G/LTE, 5G, etc.) 90.

In addition, the IP-based wired/wireless communication network 80 refers to a system network for providing a service environment according to the present invention, and may be any type of IoT network, wired/wireless LAN, or other communication network, if necessary, and such communication It provides a means to send and receive information by a communication connector of a tag reader and a vision inspector in another area through a network and a message format and protocol of a predetermined type.

And IP communication network (4G/LTE, 5G, etc.) means a general WiFi network or mobile communication network (4G/LTE, 5G, etc.). It allows access to the web server 50c through a computer.

The operation manager smart terminal 70 refers to an operation manager's smartphone, smart pad, or computer existing in an external arbitrary mobile area, and can access DB information at any time through an IP communication network (4G/LTE, 5G, etc.)90. By accessing, the progress and status of the inspection process and results of the harness manufactured product can be monitored in real time.

The operation manager monitor 60 is an operation manager monitor that exists in the same communication network area as the system according to the present invention, and accesses DB information at any time through the IP-based wired/wireless communication network 80 to proceed with the inspection process and results of the harness manufactured product. It plays the role of monitoring the situation and status in real time.

2 shows the flow structure of work related to automatic vision inspection from the production and manufacture of harnesses, and real-time data and state storage management and monitoring of vision inspection processes and results.

In the production and manufacturing unit 10, the operator (that is, the person in charge of production and manufacturing) is attached to the tag attached to the box that will contain the harness product manufactured by him or herself, and the tag 10a through the tag input device 10b using his smart terminal app. Enter your own ID, product model information to be manufactured, and current time.

When the manufacturing operator's work is completed (when the model has been manufactured, or the box containing the manufactured product is full and is ready to be handed over to the next level of inspection), the box with the tag containing the information entered by the operator is It is moved to the inspection waiting unit 20 to be passed on to the inspection step.

The harness manufactured box waiting in the inspection waiting unit 20 is read by the tag reader 20a with the tag attached to the box when the inspection order is reached, and the read data information is configured in a communication message format and transmitted to the server 50a. do. If the communication protocol is correct, the server 50a receives the transmitted message and sends an acknowledgment message to complete the message communication process. In the received message, valid data information (e.g., worker information, product information, working time information, etc.) is sent to the DB, a new entry in the DB is created and stored in a designated area, and the status of this entry is set to'waiting for inspection'. .

The tester 30a notifies the start of the test by reading his tag to the tag reader 30d. It is composed of a message format along with the tester, tag information, time information, etc. read from the tag reader 30d and transmitted to the server. , The server 50a receives the transmitted message and sends an acknowledgment message to complete the message communication process.

At this time, the inspector prepares a box for each of the good and defective products after inspection, and the tag attached to each bag is read by the tag reader 30d so that it is transmitted to the server along with the inspector tag information. Also, by including the tag ID of the test waiting box in the communication message format, the corresponding entry (that is, the entry in which the same test waiting box tag ID is recorded) is found and recorded in the DB, so that errors in the record location of the test result data in the DB are prevented. Make sure it doesn't happen.

Valid data information (e.g., inspector information, inspection start time information, box information for good and defective products, etc.) from the received message is sent to the DB 50b and stored in the corresponding area of the entry created in the DB 50b. The status is changed from'waiting for inspection' to'inspecting'.

The DB 50b sends the product model information stored in the corresponding entry to the server, and the server transmits it to the tester 30b.

The inspection machine 30b sets the inspection environment and the judgment criteria according to the received product model information.

When the setting of the inspection environment and judgment criteria is completed, the inspection preparation completion signal is output and the inspector who sees it proceeds with the inspection.

When the inspection work of the harness product contained in one box is completed, the inspector presses the inspection completion button on the inspection machine, the inspector sends the inspection result information (the total number of inspection products, the number of good items, the quantity of goods, the inspection completion time information, etc.) to the communication connector ( 30e), the message format is configured and delivered to the server, and the server 50a receives the transmitted message and sends an acknowledgment message to complete the message communication process.

In the received message, valid data information (e.g. total number of inspection products, number of good products, quantity of goods, inspection completion time information, etc.) is sent to the DB and stored in the corresponding area of the entry created in the DB, and the status of this entry is'Inspecting. A series of inspection processes are completed by transitioning from'to'test completed'.

On the other hand, in the case of the operation manager, the operation management monitor 60 included in the same communication network area or the operation manager smart terminal (or computer) 70 used in the external mobile area inspects the harness products stored and managed in the DB. When an information request is made to check the process and result information and status in real time, the request is received from the web server 50c, the corresponding information of the DB is obtained, and the information is displayed on the operation manager terminal and monitor.

At this time, by implementing various application programs in the operation manager terminal or computer, the data stored and managed in the DB can be monitored as a result of various types of statistical analysis and processing.

Table 1 shows the form of an entry in the DB created during a series of harness vision inspection processes, and includes relevant information and progress status until inspection completion for one inspection target product box.

Included items may include items such as record order, registration time waiting for inspection, waiting box ID, quantity of products to be inspected, manufacturer ID, inspection start time, good box ID, and defective box ID.

Such information can be configured by changing it in various forms, such as deletion or modification, or addition of new items as necessary.

The recording order is the order information of the entries created when one inspection target product box enters the inspection standby state.

The progress status is set to one of (waiting for inspection, in inspection, inspection completed) according to the progress of the inspection.

3 is a flowchart illustrating a method for automating vision inspection and smart operation management of a harness manufacturing process according to the present invention.

In the manufacturing process step (S301), 1..n means the manufacturing process of the harness that is being simultaneously batched by several workers, and the product to be inspected step (S302) is the harness manufactured in the manufacturing process step (S301). It means the process of waiting for the product to be inspected by the next step, an automatic vision inspection machine.

Here, it is a harness product that is put in a box with a unique tag attached, and several boxes stand by at random. However, harness products of the same model manufactured by the same operator are contained in the same box, and harness products of the same model manufactured by one operator may be divided into several boxes according to the size of the box.

In the tag attached to the box, the manufacturer (worker) unique information, product model information, manufacturing time, etc. are recorded. That is, the producer (worker) inputs his own unique information, model information of the product to be manufactured, manufacturing time, etc. through the tag input device before starting the manufacturing operation.

In addition, in the vision inspection step (S303), the vision inspection system automatically adjusts the judgment criteria according to the type of the harness product to be inspected to be inspected, and this automatic adjustment includes the tag information attached to the harness product box waiting for inspection. It is registered in the server, and the model information is transferred from the server to the vision inspection system to be automatically performed.

In the classification of inspection products, it is a process of automatically classifying good and defective products so that they are immersed in boxes at different locations according to the inspection results of the products performed by the vision inspection system.

Each box containing good and defective products has its own tag attached, and this tag information is registered in the DB by the inspector before the inspection starts in the vision inspection system, and by reading only this tag, it is automatically recognized in the next process in the future business. And the necessary information of the DB can be automatically updated.

One vision inspection table consists of a vision inspection system stage, a classification stage for inspection products, and a stage for classifying after inspection (good products) and after inspection (defective products). You can configure a vision inspection table.

The system and method for automating vision inspection and smart operation management of the harness manufacturing process according to the present invention described above automates the inspection of the harness product, converts the information of the inspection process into a cloud DB, and performs tasks through tags and tag readers. The process is recorded in the cloud DB in real time so that the information and status of the inspection process can be monitored in real time through the operator's terminal.

In particular, during the inspection process of the harness product, the standby box ID information is transmitted to the server at the inspection start stage and completion stage, so that information recording errors in the DB can be prevented, and when inspection start information is entered at the inspection start stage. The product model information previously recorded in the DB is transmitted to the tester so that the tester automatically sets the test environment and judgment standard values for the product model to increase test efficiency and accuracy.

As described above, it will be understood that the present invention is implemented in a modified form without departing from the essential characteristics of the present invention.

Therefore, the specified embodiments should be considered from a descriptive point of view rather than a limiting point of view, and the scope of the present invention is shown in the claims rather than the above description, and all differences within the scope equivalent thereto are included in the present invention. It will have to be interpreted.

10. Production and Manufacturing Department 20. Inspection Waiting Department
30. Vision Inspection Department 40. Result Classification Department
50. DB and server part 60. Operation manager monitor
70. User smart mobile terminal 80. IP-based wired/wireless communication network
90. External mobile communication and WiFi network

Claims (13)

An inspection waiting unit for waiting according to the inspection order when the harness product manufactured by the production and manufacturing unit is transferred in a box with a unique tag attached thereto;
A vision inspection unit for inspecting a harness product transferred from the inspection waiting unit for an inspector carrying a unique tag using an automatic vision inspection system;
A result classification unit that divides the harness products that have been inspected by the vision inspection unit into good and defective products, and divides them by using a box with a unique tag attached to each;
It communicates with an IP-based wired/wireless communication network and a predetermined communication protocol so that information and status of the inspection process can be monitored in real time, and product model information to be inspected when inspection start information is received at the inspection start stage of the vision inspection unit. Including; a DB and a server unit that transmits to the inspection unit of the vision inspection unit so that the inspection environment and judgment reference values for the corresponding product model are automatically set by the inspection machine,
The vision inspection unit transmits the standby box ID information to the server of the DB and the server unit together in the inspection start stage and completion stage during the inspection of the harness product, thereby preventing an error in recording information in the DB. Vision inspection automation and smart operation management system. The method of claim 1, wherein the DB and the server unit,
The server that manages the entire function to monitor the information and status of the inspection process in real time, and is responsible for sending and receiving message information with other functional areas through an IP-based wired/wireless communication network and a specified communication protocol,
DB for storing and managing data and status information extracted from the message information transmitted from the tag reader in each area of the inspection waiting unit, the vision inspection unit, and the result classification unit, and the inspection machine of the vision inspection unit;
A system for automating vision inspection and smart operation management of a harness manufacturing process, comprising a web server that configures and provides information in a form requested from an operation manager while communicating with an operation manager smart terminal or an operation manager monitor. delete The tag input device according to claim 1, wherein a tag input device is used by the producer to input their ID and information related to the product to be manufactured into the tag in the production and manufacturing unit,
The tag input device is a system for automating vision inspection and smart operation management of a harness manufacturing process, characterized in that the tag input device is input through a user interface in the form of an app or a GUI in a smart terminal carried by a producer. The method of claim 1, wherein a tag reader is provided in each area of the inspection waiting unit, the vision inspection unit, and the result classification unit,
Each tag reader is a system for automating vision inspection and smart operation management of a harness manufacturing process, characterized in that it reads the information of the tag that has arrived in the corresponding area and transmits it to the DB and the server unit. The method of claim 1, wherein the vision inspection unit,
A communication connector is attached and connected to the vision inspection machine and transmits the vision inspection process and result information to the DB and server through an IP-based wired/wireless communication network.
A system for automating vision inspection and smart operation management of a harness manufacturing process, characterized in that it serves to drop information provided from the DB and the server unit to the vision inspector. The method of claim 2, wherein the operation manager smart terminal refers to an operator's smart phone or smart pad or computer existing in an external arbitrary moving area,
A system for automatic vision inspection and smart operation management of the harness manufacturing process, characterized in that it supports monitoring the progress and status of the inspection process and results of the harness manufacturing product in real time by accessing DB information at any time through an IP communication network. . The method of claim 2, wherein the operation manager monitor is an operation manager monitor existing in the same communication network area as the automatic vision inspection system,
Vision inspection automation and smart operation management of the harness manufacturing process, characterized in that it supports real-time monitoring of the progress and status of the inspection process and results of the harness manufactured by accessing DB information at any time through an IP-based wired/wireless communication network. For the system. An inspection waiting step of waiting according to an inspection sequence when the harness product manufactured in the production manufacturing step is transferred in a box with a unique tag attached thereto;
A step of reading the tag attached to the box and transmitting it to the server by reading the tag attached to the box, creating a new entry in the DB, and setting the state of the entry to'waiting for inspection';
The tag reader of the vision inspection department reads the inspector's tag and transmits it to the server, and after the inspection, reads the tag attached to the box containing each of the good and defective products, so that the inspection waiting box tag ID and inspector tag information are recorded in the corresponding entry in the DB. And a vision inspection step of transitioning the state of the entry from'waiting for inspection'to'inspecting';
When the inspection is completed, the inspection result information including the total number of inspection products, the number of good items, the quantity of items, and inspection completion time information is transmitted to the server through the communication connector of the vision inspection unit and stored in the corresponding area of the entry created in the DB, and the status of the entry. A method for automating vision inspection and smart operation management of a harness manufacturing process, comprising: an inspection completion step of transitioning from'inspection'to'inspectioncompletion'. The method of claim 9, wherein in the vision inspection step,
The DB sends the product model information stored in the corresponding entry to the server, and the server transmits it to the inspection unit of the vision inspection unit.
A method for automating vision inspection and smart operation management of a harness manufacturing process, characterized in that the inspector sets inspection environment and judgment criteria according to received product model information and outputs an inspection preparation completion signal. The inspection process and result information and status of a harness product stored and managed in a DB in an operation manager smart terminal or computer used in an operation management monitor included in the same communication network area by an operation manager or an external mobile area. If you request information to check in real time,
A method for automating vision inspection and smart operation management of a harness manufacturing process, characterized in that, receiving a request from a web server, acquiring the corresponding information of the DB, and displaying it on an operator's terminal and a monitor. The method of claim 9, wherein the items stored in an entry created in the DB for automatic vision inspection and smart operation management of the harness manufacturing process are:
Vision inspection automation and smart operation of the harness manufacturing process, characterized by including the items of record order, inspection waiting registration time, waiting box ID, quantity of products to be inspected, manufacturer ID, inspection start time, good box ID, and defective box ID Method for management. The method of claim 9, wherein the tag attached to the box in the inspection waiting step is input through a tag input device before starting the manufacturing operation.
A method for automating vision inspection and smart operation management of a harness manufacturing process, characterized in that producer-specific information, product model information, and manufacturing time information are stored.

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