CN112265721B

CN112265721B - Food detection sample storage device

Info

Publication number: CN112265721B
Application number: CN202011104250.1A
Authority: CN
Inventors: 不公告发明人
Original assignee: Shandong Golden Crown Food Co ltd
Current assignee: Shandong Golden Crown Food Co ltd
Priority date: 2020-10-15
Filing date: 2020-10-15
Publication date: 2022-06-07
Anticipated expiration: 2040-10-15
Also published as: CN112265721A

Abstract

The invention discloses a food detection sample storage device, wherein a storage assembly comprises a rotating roller, a roller shaft, a material pushing hole, a sealed sample storage tank, a discharge hole, a positioning pin, a rotating disk and a handle, wherein the rotating roller is arranged in a freezing box under the matching of the roller shaft; the discharge gate has been seted up on the top of freezer, and the discharge gate side of freezer and the roll surface laminating of rotatory roller, and the discharge opening can rotate this discharge gate department when rotatory roller is rotatory. The present case has abandoned the traditional mode and has waited to detect food sample and has had a mixed and disorderly mode of piling up the pile up, and the replacement will be detected food sample and adorn in single sealed sample storage jar sealedly, just so avoided original mode from the source to detect between the sample mutual contact, be infected with, also can avoid the food sample that has deteriorated to pollute other food samples, guarantee to detect the precision.

Description

Food detection sample storage device

Technical Field

The invention relates to the technical field of food detection, in particular to a food detection sample storage device.

Background

Food inspection refers to a subject for studying and evaluating food quality and changes thereof, which inspects the quality of food raw materials, auxiliary materials, semi-finished products, finished products and byproducts according to some basic theories of physics, chemistry and biochemistry and various technologies and established technical standards, such as international and national food sanitation/safety standards, so as to ensure the qualified product quality.

At present, various foods to be detected are contained in glass bottles or bags and stacked in a freezer in a disordered manner, and samples to be detected need to be transferred and searched during sampling, so that energy is consumed, the detection efficiency is influenced, and the stacked food samples to be detected can be contacted and stained with each other, so that the detection result is inaccurate; in addition, when the refrigerator is stored and sampled, a large amount of cold air is lost after the door of the refrigerator is opened, and the refrigerator needs to be operated and refrigerated at high power after the door of the refrigerator is closed, so that electric energy is consumed, and energy is not saved.

Disclosure of Invention

The present invention is directed to a storage device for food inspection samples, which is designed to overcome the drawbacks of the prior art.

The purpose of the invention can be realized by the following technical scheme:

a food testing sample storage device, comprising: the refrigerator comprises a freezing box (1), a storage assembly (2) and a transfer assembly (3), wherein the storage assembly (2) is arranged in the freezing box (1), and the transfer assembly (3) is installed at the top of the freezing box (1);

the storage component (2) comprises a rotating roller (21), a roller shaft (22), a material pushing hole (23), a sealed sample storage tank (24), a discharge hole (25), a positioning pin (26), a rotating disc (27) and a handle (28), wherein the rotating roller (21) is arranged inside the freezer (1) under the matching of the roller shaft (22), a group of discharge holes (25) are formed in the rotating roller (21) along the circumferential direction, the material pushing hole (23) is formed in the hole wall of the bottom of the discharge hole (25) and is smaller than the discharge hole (25), and the sealed sample storage tank (24) is arranged inside the discharge hole (25); the rotating disc (27) is welded at one end of the roller shaft (22), the handle (28) is welded at the eccentric position of the plate surface of the rotating disc (27), and the positioning pin (26) is arranged on the rotating disc (27) in a penetrating mode through threaded fit; a discharge hole is formed in the top end of the freezing box (1), the side edge of the discharge hole of the freezing box (1) is attached to the surface of the rotating roller (21), and the discharge hole (25) can rotate to the discharge hole when the rotating roller (21) rotates;

the transfer assembly (3) comprises a transfer hood (31), a first push rod (32), a first air cylinder (33), a swing sealing plate (34), a return spring (35), a clamping plate (36), a sliding sealing plate (37), a second air cylinder (38) and a second push rod (39), wherein: the transfer machine cover (31) seals the discharge hole in the top of the freezing box (1), and the bottom surface of the transfer machine cover (31) is correspondingly provided with a material hole corresponding to the discharge hole in the top of the freezing box (1); a sealed sample storage tank is fixedly arranged on the right side of the transfer machine cover (31) and is communicated with a material opening of the transfer machine cover (31) through a pipe (50), a sealed sample storage tank through opening is formed in the sealed sample storage tank through the top surface of the pipe (50), clamping plates (36) are welded at two ends of the sealed sample storage tank through opening, and two ends of the sliding sealing plate (37) are in clamping fit with the clamping plates (36) at the corresponding ends;

a first air cylinder (33) is horizontally installed at the left end of the transfer hood (31), a first push rod (32) is coaxially connected to the right end of a piston rod of the first air cylinder (33), and the sealed sample storage tank (24) can be pushed into the sealed sample storage tank through pipe (50) from the discharge hole (25) by the first push rod (32); the sealed sample storage tank is horizontally provided with a second air cylinder (38) through the right end of the pipe (50), the left end of a piston rod of the second air cylinder (38) is coaxially provided with a second push rod (39), and the second push rod can push the sealed sample storage tank into a discharge hole (25) of the rotary roller (21) through the sealed sample storage tank (24) in the pipe (50); swing closing plate (34) lower extreme is unsettled, this swing closing plate upper end with sealed storage appearance jar is through passing through pipe (50) inside articulated, and swing closing plate (34) both sides and sealed storage appearance jar are equallyd divide equally between pipe (50) inner wall and are do not fixedly connected with reset spring (35), and swing closing plate (34) are located sliding seal plate (37) left side.

Preferably, the positioning pin (26) is arranged at an eccentric position of the rotating disc (27), and an end face of the positioning pin (26) is attached to a wall of the freezing box (1).

In the scheme, the lower end face of the swing sealing plate (34) can be attached to the inner wall of the sealed sample storage tank through a pipe (50) after rotating in place.

The invention has the beneficial effects that:

1. the scheme abandons the disordered stacking mode of food samples to be detected in the traditional mode, and replaces the disordered stacking mode with the disordered stacking mode, so that the food samples to be detected are hermetically arranged in a single sealed sample storage tank, the mutual contact and contamination among the original mode samples to be detected are avoided from the source, the deteriorated food samples can be prevented from polluting other food samples, the detection precision is ensured, and in addition, the sealed sample storage tank is convenient to push by two push rods, so that the samples are taken and placed, and three purposes are achieved;

2. each sealed storage sample containing food samples to be detected is filled in one corresponding discharge hole of the rotary roller, the storage mode is regular and ordered, the taking and the placing are convenient, the efficiency is high, the samples to be detected are prevented from being contacted and infected with each other, and the storage mode is matched with the storage mode of the samples to be detected, so that the mutual contact and the infection of the samples to be detected are avoided together, and the detection precision is ensured;

3. the scheme cancels a door opening structure of the traditional freezer, thus overcoming the most fundamental reason of cold air loss and ensuring energy and electricity conservation; the replacement has set up rotatory roller and transportation subassembly, and these both mutually support, have both guaranteed to be equipped with the sealed sample storage tank who detects the sample and normally got and put, have avoided air conditioning to run off from the at utmost simultaneously again to realize the power saving, kill two birds with one stone.

4. In conclusion, the filling mode of the food samples to be detected is adjusted from glass bottling or bagging to single disposable sealing canning, so that the mutual contact and contamination among the samples to be detected are avoided from the source, and the deteriorated food samples can be prevented from polluting other food samples; meanwhile, the placing mode of the food samples to be detected is adjusted from disordered stacking to one-by-one placing in the corresponding rotary roller discharge holes, so that the mutual contamination of the samples to be detected is further avoided, the detection precision is ensured, the technical possibility is provided for the cylinder type structure transfer assembly to take and place the samples to be detected one by one, the taking and placing are convenient and quick, and the detection efficiency is ensured; meanwhile, the containing mode, the placing mode and the transferring component of the food sample to be detected are matched with each other, and the traditional door opening structure of the freezing box is cancelled, so that the most fundamental reason of cold air loss is overcome, and energy and electricity are saved; the containing mode, the placing mode and the transferring component of the food sample to be detected in the scheme are organically matched and cooperated, and the rings are buckled with each other, so that the defects in the prior art are overcome together and perfectly.

Drawings

To facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is an overall perspective view of the present invention;

FIG. 2 is an overall internal structural view of the present invention;

fig. 3 is a partially enlarged view of a portion a in fig. 2.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 3, a storage device for food testing samples, comprising: freezer 1, storage subassembly 2 and transportation subassembly 3, the inside of freezer 1 is provided with storage subassembly 2, and transportation subassembly 3 is installed at the top of freezer 1, and freezer 1 in the present case has cancelled the structure of opening the door of traditional freezer, and other structures are the same with traditional freezer.

The storage component 2 comprises a rotating roller 21, a roller shaft 22, a pushing hole 23, a sealed sample storage tank 24, a discharging hole 25, a positioning pin 26, a rotating disk 27 and a handle 28, wherein the rotating roller 21 is installed inside the freezer 1 under the cooperation of the roller shaft 22, namely: the rotating rollers 21 are fixed at both ends to corresponding roller shafts 22, and the roller shafts 22 are rotatably supported on the freezer compartment 1 by bearings. A group of discharge holes 25 are uniformly distributed on the rotating roller 21 along the circumferential direction, and the discharge holes 25 are distributed on the same circumference. The bottom pore wall of discharge opening 25 has seted up stoking hole 23, and this stoking hole is less than discharge opening 25, and sealed storage appearance jar 24 sets up in the inside of discharge opening 25, and this sealed storage appearance jar 24 is spacing by the step face axial between discharge opening 25 and the stoking hole 23. The sealed sample storage tank 24 is of a disposable structure, and food to be detected is hermetically contained in the sealed sample storage tank 24, so that the phenomenon that certain deteriorated food to be detected pollutes other food to be detected can be avoided, and the detection precision is ensured.

The rotating disc 27 is welded at one end of the roller shaft 22, the handle 28 is welded at the eccentric position of the plate surface of the rotating disc 27, and the positioning pin 26 is arranged on the rotating disc 27 in a threaded fit mode. The positioning pins 26 are provided at eccentric positions of the rotary disk 27, and end faces of the positioning pins 26 are bonded to the wall of the refrigerator 1, so that the loss of cold air can be reduced when the rotary roller 21 rolls. The positioning pin 26 is provided at an eccentric position of the rotary plate 27, and an end surface of the positioning pin 26 is attached to a wall of the freezer 1, and after the rotation roller 21 rotates, thrust can be generated by the positioning pin 26 to press and position the rotary plate 27. The discharge gate has been seted up on the top of freezer 1, and the discharge gate side of freezer 1 and the roll surface laminating of rotatory roller 21, and discharge opening 25 can rotate this discharge gate department when rotatory roller 21 is rotatory. A circle is carved on the right disc surface of the rotating disc 27, and the circle is provided with mark points along the circumferential direction, and the positions of the mark points correspond to the circumferential positions of the discharge holes 25 on the rotating roller 21 one by one. Moreover, a pointer (not shown) is provided on the outer surface of the freezer 1, and when a certain discharge hole 25 is rotated to the discharge port of the freezer 1, a mark point on the rotary plate 27 corresponding to the discharge hole 25 is aligned with the pointer. By adopting the structure, the rotation angle of the rotating roller 21 can be conveniently marked and controlled, so that the sealed sample storage tank 24 can be conveniently taken and placed.

As shown in fig. 1 to 3, the transfer assembly 3 includes a transfer hood 31, a first push rod 32, a first air cylinder 33, a swing sealing plate 34, a return spring 35, a catch plate 36, a sliding sealing plate 37, a second air cylinder 38, and a second push rod 39, wherein: the discharge gate at 1 top of freezer is firmly sealed to transportation aircraft bonnet 31, and the discharge gate correspondence that transports the aircraft bonnet 31 bottom surface and correspond the freezer 1 top is equipped with the material mouth. Transport aircraft bonnet 31 right side and set firmly a sealed sample storage tank and pass through pipe 50, this sealed sample storage tank passes through the left end of pipe and transports aircraft bonnet 31's material mouth intercommunication, and seted up a sealed sample storage tank through pipe 50 top surface at sealed sample storage tank and pass through the mouth, sealed sample storage tank is equipped with cardboard 36 through the both ends welding of mouth, the cooperation of 36 joints of cardboard of sliding seal board 37 both ends and corresponding end, can cooperate the realization to the closed operation of transporting subassembly 3 like this, avoid air conditioning to run off.

The left end horizontal installation of transport aircraft bonnet 31 is equipped with first cylinder 33, and the piston rod right-hand member coaxial coupling of first cylinder 33 has first push rod 32, and this first push rod 32 can be with sealed sample storage tank 24 from the discharge opening 25 push to sealed sample storage tank in passing through the pipe 50. The sealed sample storage tank is horizontally provided with a second air cylinder 38 through the right end of a pipe 50, the left end of a piston rod of the second air cylinder 38 is coaxially provided with a second push rod 39, and the second push rod can push the sealed sample storage tank into the discharge hole 25 of the rotary roller 21 through the sealed sample storage tank 24 in the pipe 50. To facilitate viewing of the rotation of the rotatable roller 21 in place, the rotatable roller 21 and the transfer housing 31 are both made of a white transparent material to facilitate the pushing or pushing of the sealed sample reservoir 24 through the tube 50. Swing seal plate 34 lower extreme is unsettled, and this swing seal plate upper end is passed through pipe 50 inside with sealed storage appearance jar and is articulated, and swing seal plate 34 both sides and sealed storage appearance jar are equallyd divide between the pipe 50 inner walls and do not have the rigid coupling reset spring 35, and swing seal plate 34 is located sliding seal plate 37 left side. The lower end face of the swing sealing plate 34 can be attached to the inner wall of the sealed sample storage tank through the pipe 50 after rotating in place, so that the freezing box 1 can be sealed in a matched mode, and loss of cold air is reduced.

The working principle of the invention is as follows: when taking a sample, the positioning pin 26 is loosened, the rotating disc 27 is shaken through the handle 28, the rotating roller 21 is driven to rotate through the roller shaft 22, each discharging hole 25 can be rotated to the discharging hole of the freezing box 1, the first push rod 32 is controlled to push the sealed sample storage tank 24 to the sealed sample storage tank through the pipe 50 from the discharging hole 25, the sliding sealing plate 37 is opened again, the sealed sample storage tank 24 is taken out, and the food sample to be detected is hermetically contained in the sealed sample storage tank 24. When the sample is stored, the sample is loaded in an empty sealed sample storage tank 24, the sealed sample storage tank 24 is placed in the sealed sample storage tank passing pipe 50, and then the second push rod is controlled to push the sealed sample storage tank to the discharge hole 25 of the rotary roller 21 through the sealed sample storage tank 24 in the pipe 50.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A food testing sample storage device, comprising: the refrigerator comprises a freezing box (1), a storage assembly (2) and a transfer assembly (3), wherein the storage assembly (2) is arranged in the freezing box (1), and the transfer assembly (3) is installed at the top of the freezing box (1);

the storage component (2) comprises a rotating roller (21), a roller shaft (22), a material pushing hole (23), a sealed sample storage tank (24), a discharge hole (25), a positioning pin (26), a rotating disc (27) and a handle (28), wherein the rotating roller (21) is arranged inside the freezer (1) under the matching of the roller shaft (22), a group of discharge holes (25) are formed in the rotating roller (21) along the circumferential direction, the material pushing hole (23) is formed in the hole wall of the bottom of the discharge hole (25), the diameter of the material pushing hole is smaller than that of the discharge hole (25), and the sealed sample storage tank (24) is arranged inside the discharge hole (25); the rotating disc (27) is welded at one end of the roller shaft (22), the handle (28) is welded at the eccentric position of the plate surface of the rotating disc (27), and the positioning pin (26) is arranged on the rotating disc (27) in a penetrating mode through threaded fit; a discharge hole is formed in the top end of the freezing box (1), the side edge of the discharge hole of the freezing box (1) is attached to the surface of the rotating roller (21), and the discharge hole (25) can rotate to the discharge hole when the rotating roller (21) rotates;

2. Food test sample storage device according to claim 1, characterized in that the positioning pin (26) is arranged at an eccentric position of the rotating disc (27), the end face of the positioning pin (26) abutting against the wall of the freezer compartment (1).

3. The food testing sample storage device of claim 1, wherein the lower end face of the swing seal plate (34) can be attached to the inner wall of the sealed sample storage tank through the tube (50) after being rotated into position.