CN110980002A

CN110980002A - Biological food can capable of preventing bacteria

Info

Publication number: CN110980002A
Application number: CN201911377037.5A
Authority: CN
Inventors: 王宗慧
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-04-10

Abstract

The invention discloses a bacteria-proof biological food can, and belongs to the technical field of food packaging. A bacteria-resistant bio-food can comprising: the outer jar of body still includes: the food can comprises a can cover and a partition plate, wherein the can cover is arranged at the top of an outer can body in a matched mode, the can cover is welded with the top surface of the outer can body, the inner cavity of the outer can body is hollow, the top end of the outer can body is provided with an opening, the bottom of the inner cavity of the outer can body is provided with the partition plate in a matched mode, the partition plate divides the inner cavity of the outer can body into two cavities which are an upper cavity and a lower cavity, the upper cavity is located above the partition plate, the lower cavity is located below the partition plate, the can cover is coaxially provided with a through hole, the edge of the partition plate is vertically provided with a through hole penetrating through the wall thickness of the partition plate, and the bottom surface of the outer can body is.

Description

Biological food can capable of preventing bacteria

Technical Field

The invention belongs to the technical field of food packaging, and particularly relates to a bacteria-proof biological food can.

Background

Canned food is the food that often sees in the supermarket, canned food needs good leakproofness to guarantee that the food in the jar is not polluted by the bacterium and dampproofing, and in canned food's packing, the producer only concerns the leakproofness when the encapsulation usually, does not consider the leakproofness problem when people take food, and when people take food, external air gets into the food jar and brings the bacterium into, and people can pollute all the other food in the food jar when grabbing food by hand bacterium, brings the health hidden danger.

Disclosure of Invention

The invention aims to solve the problem of bacteria prevention of a food can, and provides a bacteria-proof biological food can.

In order to achieve the purpose, the invention adopts the following technical scheme:

a bacteria-resistant bio-food can comprising: the outer jar of body still includes: the tank cover is arranged at the top of the outer tank body in a matching way, the tank cover is welded with the top surface of the outer tank body, the inner cavity of the outer tank body is hollow, the top end of the inner cavity of the outer tank body is provided with an opening, the bottom of the inner cavity of the outer tank body is provided with a partition plate in a matching way, the partition plate divides the inner cavity of the outer tank body into two cavities which are respectively an upper cavity above the partition plate and a lower cavity below the partition plate, the tank cover is coaxially provided with a through hole, the edge of the partition plate is vertically provided with a through hole penetrating through the wall thickness of the partition plate, the bottom surface of the outer tank body is coaxially provided with a second mounting hole, the bottom of the second mounting hole is coaxially provided with a first mounting hole, the diameter of the first mounting hole is smaller than that of the second mounting hole, the first guide plate is communicated, the first guide groove is communicated with the first mounting hole, the first guide groove is conical, the distance between two opposite inclined planes of the first guide groove is gradually reduced from top to bottom, a ring plate is coaxially arranged at the top of the inner wall of the lower cavity, the ring plate is hollow, the ring plate is made of composite paper, a drying agent is filled in the inner cavity of the ring plate, a sealing plug is arranged in the first mounting hole in a matched manner, an external plate matched with the second mounting hole is coaxially arranged at the bottom end of the sealing plug, a placing groove is coaxially formed in the bottom surface of the external plate, and a pull rod which vertically extends downwards is coaxially arranged at the bottom of the placing groove;

the improved structure of the drying device is characterized in that an inner hollow inner tank body is arranged in the upper chamber in a matched mode, a connecting rod matched with the through hole is coaxially arranged on the top surface of the inner tank body, a rotating handle is coaxially arranged on the top surface of the connecting rod, a flow hole corresponding to the flow hole is formed in the bottom surface of the inner tank body, a second guide plate is arranged at the bottom of the inner chamber of the inner tank body in a matched mode, a second guide groove corresponding to the flow hole is formed in the top surface of the second guide plate, the second guide groove is conical, an installation shell is coaxially arranged at the top of the inner chamber of the inner tank body, a drying agent is arranged in the.

Preferably, the bottom of the inner cavity of the outer tank body is provided with a vacuum pump for pumping air in the lower cavity and a battery for providing power for the vacuum pump, one end of the vacuum pump is located outside, the other end of the vacuum pump is located in the lower cavity, and the bottom of the outer circular surface of the outer tank body is provided with an on-off button for controlling the operation of the vacuum pump.

Preferably, the plug, the externally-arranged plate and the pull rod are made of rubber, the bottom end of the pull rod is flush with the bottom surface of the externally-arranged plate, and the plug, the externally-arranged plate and the pull rod are of an integrated structure.

Preferably, friction grains are arranged on the outer circular surface of the pull rod, the friction grains are densely distributed on the outer circular surface of the pull rod, and a plurality of anti-skid protrusions are arranged at the bottom end of the pull rod.

Preferably, the outer tank body, the tank cover and the inner tank body are made of transparent plastics, and the outer surface of the outer tank body is coated with transparent heat insulation paint.

Compared with the prior art, the invention provides a bacteria-proof biological food can which has the following beneficial effects:

the food is placed in the inner tank body, the through hole is not overlapped with the circulation hole in the initial state, when the food needs to be taken out, the rotating handle is rotated, the rotating handle drives the connecting rod to rotate, the connecting rod drives the inner tank body to rotate, the through hole and the circulation hole are in an overlapped state instantly when the inner tank body rotates, the food in the inner tank body passes through the through hole and the circulation hole under the action of gravity to enter the lower chamber and moves to the bottom of the first guide groove under the guide of the first guide plate, the sealing plug and the external plate are pulled out through the pull rod at the moment, the food falls out, the sealing plug and the external plate are quickly reset, the external air is not contacted with the air in the inner tank body filled with the food, the possibility of bacterial pollution is reduced, the opening and closing button is pressed after the food is taken out, the vacuum pump is started to extract the air in the lower chamber, the air with bacteria entering the lower chamber from the outside during the food taking out, the food packaging container further reduces bacterial pollution, can prevent air with bacteria from entering the inner cavity of the inner container body when the conducting holes and the circulating holes are overlapped, does not need to grab food by hands, and prevents the bacteria on the hands from polluting the food.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the inner tank structure of the present invention;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is a cross-sectional view of the outer tank of the present invention;

FIG. 5 is a cross-sectional view of the inner tank of the present invention;

FIG. 6 is a schematic diagram of the construction of the plug and external plate of the present invention;

fig. 7 is a partial cross-sectional view of the present invention.

The reference numbers in the figures illustrate:

10. an outer tank body; 110. a can lid; 111. a through hole; 120. a partition plate; 121. a via hole; 130. a ring plate; 140. a first guide plate; 150. a first mounting hole; 160. a second mounting hole; 170. blocking; 180. an external plate; 181. a placing groove; 182. a pull rod; 20. rotating the handle; 30. a connecting rod; 40. an inner tank body; 410. mounting a shell; 420. a second guide plate; 430. a flow-through hole; 50. a vacuum pump; 510. and opening and closing the button.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the mechanism or element referred to 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.

As shown in fig. 1-7, a bacteria-proof bio-food can includes: the outer tank 10, still include: the matching sets up the cover 110 at the top of the outer jar of body 10, cover 110 and the welding of the top surface of the outer jar of body 10, the inside cavity of the outer jar of body 10 and top set to the opening, the matching of outer jar of body 10 inner chamber bottom be provided with division board 120, division board 120 divide into two cavities and be located the last cavity of division board 120 top, be located the lower cavity of division board 120 below respectively with outer jar of body 10 inner chamber, cover 110 coaxial seted up through hole 111, division board 120 edge vertically set up run through the conducting hole 121 of division board 120 wall thickness, outer jar of body 10 bottom coaxial seted up second mounting hole 160, second mounting hole 160 hole bottom coaxial seted up first mounting hole 150, first mounting hole 150 diameter be less than second mounting hole 160 diameter and first mounting hole 150 and lower cavity intercommunication, room bottom matching be provided with first guide board 140, the top surface of the first guide plate 140 is coaxially provided with a first guide groove, the first guide groove is communicated with a first mounting hole 150, the first guide groove is conical, the distance between two opposite inclined surfaces of the first guide groove is gradually reduced from top to bottom, the top of the inner wall of the lower cavity is coaxially provided with a ring plate 130, the ring plate 130 is hollow, the ring plate 130 is made of composite paper, a drying agent is filled in the inner cavity of the ring plate 130, a sealing plug 170 is arranged in the first mounting hole 150 in a matching manner, an external plate 180 matched with the second mounting hole 160 is coaxially arranged at the bottom end of the sealing plug 170, the bottom surface of the external plate 180 is coaxially provided with a placement groove 181, and the bottom of the placement groove 181 is coaxially provided with a pull rod 182 extending vertically downwards.

The inner cavity of the upper cavity is internally provided with a hollow inner tank body 40 in a matching manner, the top surface of the inner tank body 40 is coaxially provided with a connecting rod 30 matched with the through hole 111, the top surface of the connecting rod 30 is coaxially provided with a rotating handle 20, the bottom surface of the inner tank body 40 is provided with a circulation hole 430 corresponding to the through hole 121, the bottom of the inner cavity of the inner tank body 40 is provided with a second guide plate 420 in a matching manner, the top surface of the second guide plate 420 is provided with a second guide groove corresponding to the circulation hole 430, the second guide groove is conical, the top of the inner cavity of the inner tank body 40 is coaxially provided with an installation shell 410, the installation shell 410 is hollow in the installation shell 410, the installation shell 410.

More perfect, the outer jar of body 10 inner chamber bottom be provided with be used for taking out the vacuum pump 50 of taking off the cavity air, be used for providing the battery of electric power for vacuum pump 50, vacuum pump 50 one end be located the external world, the other end is located the lower chamber, the outer disc bottom of the outer jar of body 10 be provided with the start-stop button 510 that is used for controlling the operation of vacuum pump 50.

More perfectly, the plugging plug 170, the external plate 180 and the pull rod 182 are made of rubber, the bottom end of the pull rod 182 is flush with the bottom surface of the external plate 180, and the plugging plug 170, the external plate 180 and the pull rod 182 are of an integrated structure.

More perfectly, friction grains are arranged on the outer circular surface of the pull rod 182, the friction grains are densely distributed on the outer circular surface of the pull rod 182, and a plurality of anti-skid protrusions are arranged at the bottom end of the pull rod 182; the anti-slip protrusions may prevent the food can from slipping, and the friction lines may prevent slipping when the pull rod 182 is held by hand.

More perfectly, the outer tank body 10, the tank cover 110 and the inner tank body 40 are made of transparent materials, specifically, the outer tank body 10, the tank cover 110 and the inner tank body 40 are made of transparent plastics, and the outer surface of the outer tank body 10 is coated with transparent heat-insulating paint; the transparent heat insulation coating can isolate the heat radiation of the sun, and can prevent the food in the food can from being deteriorated by illumination.

Food is placed in the inner tank body 40, the through hole 121 is not overlapped with the circulation hole 430 in the initial state, when the food needs to be taken out, the rotating handle 20 is rotated, the rotating handle 20 drives the connecting rod 30 to rotate, the connecting rod 30 drives the inner tank body 40 to rotate, when the inner tank body 40 rotates, the through hole 121 and the circulation hole 430 are in an overlapped state at a moment, at the moment, the food in the inner tank body 40 passes through the through hole 121 and the circulation hole 430 under the action of gravity to enter the lower chamber and moves to the bottom of the first guide groove under the guide of the first guide plate 140, at the moment, the sealing plug 170 and the external plate 180 are pulled out through the pull rod 182, the food falls out, then the sealing plug 170 and the external plate 180 are reset rapidly, the external air is not contacted with the air in the inner tank body 40 filled with the food, the possibility of bacterial pollution is reduced, the start-stop button 510 is pressed after the food is taken out, the vacuum pump 50, air with bacteria entering the lower cavity from the outside when food is taken is pumped away, so that the bacterial pollution is further reduced, the air with bacteria entering the inner cavity of the inner tank body 40 when the conducting hole 121 and the circulating hole 430 are overlapped can be avoided, and the food is not required to be grabbed by hands in the invention, so that the food is prevented from being polluted by the bacteria on the hands.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A bacteria-resistant bio-food can comprising: outer jar of body (10), its characterized in that still includes: the tank cover (110) is arranged at the top of the outer tank body (10) in a matching manner, the tank cover (110) is welded with the top surface of the outer tank body (10), the inner part of the outer tank body (10) is hollow, the top end of the inner cavity of the outer tank body (10) is provided with an opening, the bottom of the inner cavity of the outer tank body (10) is provided with a partition plate (120) in a matching manner, the partition plate (120) divides the inner cavity of the outer tank body (10) into two cavities, namely an upper cavity above the partition plate (120) and a lower cavity below the partition plate (120), the tank cover (110) is coaxially provided with a through hole (111), the edge of the partition plate (120) is vertically provided with a through hole (121) penetrating through the wall thickness of the partition plate (120), the bottom surface of the outer tank body (10) is coaxially provided with a second mounting hole (160), the bottom of the second mounting hole (160) is coaxially provided with a first mounting hole (150), the diameter of the, the bottom of the lower chamber is provided with a first guide plate (140) in a matching way, the top surface of the first guide plate (140) is coaxially provided with a first guide groove, the first guide groove is communicated with the first mounting hole (150), the first guide groove is conical, the distance between two opposite inclined planes of the first guide groove is gradually reduced from top to bottom, the top of the inner wall of the lower cavity is coaxially provided with a ring plate (130), the ring plate (130) is hollow, the ring plate (130) is made of composite paper, the inner cavity of the ring plate (130) is filled with a drying agent, a sealing plug (170) is arranged in the first mounting hole (150) in a matching way, an external plate (180) matched with the second mounting hole (160) is coaxially arranged at the bottom end of the sealing plug (170), the bottom surface of the external plate (180) is coaxially provided with a placement groove (181), and the bottom of the placement groove (181) is coaxially provided with a pull rod (182) which vertically extends downwards;

the inner cavity of the upper cavity is internally provided with a hollow inner tank body (40) in a matching manner, the top surface of the inner tank body (40) is coaxially provided with a connecting rod (30) matched with the through hole (111), the top surface of the connecting rod (30) is coaxially provided with a rotating handle (20), the bottom surface of the inner tank body (40) is provided with a through hole (430) corresponding to the through hole (121), the bottom of the inner cavity of the inner tank body (40) is provided with a second guide plate (420) in a matching manner, the top surface of the second guide plate (420) is provided with a second guide groove corresponding to the through hole (430), the second guide groove is conical, the top of the inner cavity of the inner tank body (40) is coaxially provided with an installation shell (410), the inner cavity of the installation shell (410) is internally hollow, a drying agent is arranged in the.

2. A bacteria-resistant bio-food can according to claim 1, wherein: the outer jar of body (10) inner chamber bottom be provided with vacuum pump (50) that are used for taking off the cavity air, be used for providing the battery of electric power for vacuum pump (50), vacuum pump (50) one end be located external, the other end is located the lower cavity, outer jar of body (10) outer disc bottom be provided with and be used for controlling vacuum pump (50) moving start-stop button (510).

3. A bacteria-resistant bio-food can according to claim 1, wherein: the plug (170), the external plate (180) and the pull rod (182) are made of rubber, the bottom end of the pull rod (182) is flush with the bottom surface of the external plate (180), and the plug (170), the external plate (180) and the pull rod (182) are of an integrated structure.

4. A bacteria-resistant bio-food can according to claim 1, wherein: friction grains are arranged on the outer circular surface of the pull rod (182), the friction grains are densely distributed on the outer circular surface of the pull rod (182), and a plurality of anti-skidding bulges are arranged at the bottom end of the pull rod (182).

5. A bacteria-resistant bio-food can according to claim 1, wherein: the outer tank body (10), the tank cover (110) and the inner tank body (40) are made of transparent materials, the outer tank body 10, the tank cover (110) and the inner tank body 40 are made of transparent plastics, and the outer surface of the outer tank body 10 is coated with transparent heat-insulating paint.