Food storage device for food detection
By introducing adjustment mechanisms and traction holes into the food storage device for food testing, the problems of difficulty in finding reagent tubes and temperature effects caused by disordered placement have been solved, realizing orderly storage and rapid positioning of reagent tubes, and improving testing efficiency and result accuracy.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HENAN TIANLI HENGYE TECH CO LTD
- Filing Date
- 2025-08-29
- Publication Date
- 2026-07-14
AI Technical Summary
In existing food storage devices used for food testing, the disorderly placement of reagent tubes makes it difficult for operators to find them, consumes a lot of time, and the cabinet door cannot be closed in time, while the external temperature affects the test results.
A device comprising a food temperature-controlled storage box and an adjustment mechanism was designed. Through the combination of a traction hole, a vertical rod, a guide block, and a placement box, the reagent tubes are placed in an orderly manner and their height is adjusted. Combined with the knob operation of the limit block and the transmission screw, intuitive label viewing and rapid positioning are ensured in a sealed state.
It enables the orderly storage and rapid location of reagent tubes, reduces search time, keeps the storage room sealed, avoids the influence of external temperature, and improves detection efficiency and result accuracy.
Smart Images

Figure CN224491957U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of food safety testing, specifically a food storage device for food testing. Background Technology
[0002] Food safety testing involves detecting harmful substances in food according to national standards, primarily targeting harmful and toxic indicators such as heavy metals and aflatoxin. An important aspect of food science and engineering is the introduction and application of chemical unit operations, developing them into food engineering unit operations. This promotes the development of the food industry towards large-scale, continuous, and automated processes. Food safety is also an interdisciplinary field that specifically explores ensuring food hygiene and safety during processing, storage, and sales, reducing disease risks, and preventing food poisoning. Therefore, food safety is extremely important.
[0003] Current food safety testing methods require storing various food items separately in reagent tubes before placing them in a temperature-controlled food storage box to prevent external temperatures from affecting food spoilage. However, existing food storage devices for food testing still have the following problems during use:
[0004] When operators retrieve reagent tubes containing food from temperature-controlled food storage boxes, the disorganized placement of the tubes leads to significant time wasted searching for them based on labels. This results in the cabinet door remaining open for extended periods, allowing external temperatures to enter the storage chamber and affecting the food storage environment, thus impacting test results. Therefore, it is essential to develop a food storage device for food testing that can be applied to the existing food safety testing field. Utility Model Content
[0005] To address the shortcomings of existing technologies, such as the disorderly placement of reagent tubes, which requires operators to spend a lot of time searching for the tubes according to their labels, and the inability to close the cabinet door for extended periods, allowing external temperatures to enter the storage room and affecting the storage environment of the food in the reagent tubes, thus impacting the test results, this invention proposes a food storage device for food testing.
[0006] The technical solution adopted by this utility model to solve its technical problem is: a food storage device for food testing, comprising:
[0007] A temperature-controlled food storage box, wherein the temperature-controlled food storage box is provided with an assembly slot, and a storage chamber is provided on the assembly slot;
[0008] An adjustment mechanism is provided, comprising a support block, multiple support blocks being fixedly mounted on the inner wall of the storage chamber, each support block having multiple traction holes, two sets of vertical rods being fixedly mounted on the bottom of the support block, each set having two vertical rods, the two vertical rods of each set being located on both sides of the traction hole, a baffle being fixedly mounted on the bottom of each vertical rod, a guide block being movably mounted on each vertical rod, a placement box being fixedly mounted between the two guide blocks, an opening being provided on the top of each placement box, the placement box being movably mounted with the traction hole, a vent hole being provided on each placement box, the vent hole communicating with the opening of the placement box, and a first arc block being fixedly mounted on the bottom of each placement box.
[0009] The traction mechanism includes a limiting block and a horizontal block, the horizontal blocks being arranged sequentially up and down, and the horizontal blocks being located below the first arc block.
[0010] Preferably, each of the placement boxes is equipped with a food reagent tube, and each food reagent tube is fixedly equipped with a test label, which is located above the support block.
[0011] Preferably, each of the horizontal blocks is fixedly equipped with a plurality of second arc blocks, which are sequentially fitted with the first arc blocks. The limiting block is located below the plurality of bearing blocks and is fixedly assembled on the bottom surface of the storage chamber.
[0012] Preferably, a connecting rod is symmetrically fixedly assembled between the limiting block and the inner wall of the storage chamber, and a transmission screw is movably assembled between the limiting block and the inner wall of the storage chamber. One end of the transmission screw movably passes through the limiting block, and a knob is fixedly assembled at one end of the transmission screw.
[0013] Preferably, the transmission screw is threaded with an adjusting block, which is movably assembled with two connecting rods, and the bottom of the lowest horizontal block is fixedly assembled with the top of the adjusting block, and support blocks are fixedly assembled at both ends of the multiple horizontal blocks.
[0014] Preferably, a cabinet door is hinged to the assembly slot, and a glass window is fixedly mounted on the cabinet door. The glass window is close to the storage room, and an operating port is provided on the cabinet door.
[0015] Preferably, the operating port is movably assembled with the knob on the limiting block, and a handle is fixedly assembled on the cabinet door, with the handle located on one side of the glass window.
[0016] Preferably, a support platform is fixedly mounted on the side of the food temperature-controlled storage box, and a food detector is fixedly mounted on the support platform. The food detector is provided with a detection placement port.
[0017] The advantages of this utility model are:
[0018] This invention places multiple food reagent tubes in a placement box, positioning them inside the traction hole. By pushing the first arc block, the placement box moves along the vertical rod via guide blocks. The placement box raises the food reagent tubes to a height different from other food reagent tubes, allowing operators to more intuitively understand the information on the test label through the glass window, thus improving operational efficiency. Attached Figure Description
[0019] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0020] Figure 1 This is a schematic diagram of the assembly structure of the food detector, the food temperature-controlled storage box, the adjustment mechanism, and the traction mechanism of this utility model.
[0021] Figure 2 This is a schematic diagram of the assembly structure of the food temperature-controlled storage box, the adjustment mechanism, and the traction mechanism of this utility model.
[0022] Figure 3 This is a schematic diagram of the structure of the temperature-controlled food storage box of this utility model;
[0023] Figure 4 This is a schematic diagram of the assembly structure of the adjustment mechanism and the food reagent tube of this utility model;
[0024] Figure 5 This is a schematic diagram of the traction mechanism structure of this utility model.
[0025] In the picture:
[0026] 10. Temperature-controlled food storage box; 11. Support platform; 12. Food testing instrument; 13. Assembly tank;
[0027] 20. Storage room; 21. Cabinet door; 22. Glass window; 23. Operating port;
[0028] 30. Handle; 31. Test container; 32. Food reagent tube; 33. Test sample label;
[0029] 40. Adjustment mechanism; 4000. Bearing block; 4001. Traction hole; 4002. Vertical rod; 4003. Baffle; 4004. Guide block; 4005. Placement box; 4006. Vent hole; 4007. First arc block;
[0030] 41. Traction mechanism; 4100. Connecting rod; 4101. Limiting block; 4102. Transmission screw; 4103. Knob; 4104. Adjusting block; 4105. Cross block; 4106. Support block; 4107. Second arc block. Detailed Implementation
[0031] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0032] The following is in conjunction with the appendix Figures 1-5 This application will be described in further detail.
[0033] This application discloses a food storage device for food testing. (Refer to...) Figure 1 and Figure 2 as well as Figure 4 A food storage device for food testing includes a temperature-controlled food storage box 10. The temperature-controlled food storage box 10 has an assembly groove 13, and a storage chamber 20 is provided on the assembly groove 13. Multiple adjustment mechanisms 40 are mounted on the assembly groove 13. Each adjustment mechanism 40 includes a support block 4000, which is fixedly mounted on the inner wall of the storage chamber 20. Each support block 4000 has multiple traction holes 4001. Two sets of vertical rods 4002 are fixedly mounted on the bottom of each support block 4000. Each set of vertical rods 4002 consists of two rods, with the two rods located on either side of the traction holes 4001. The bottoms of the vertical rods 4002 are fixedly mounted on... A baffle 4003 is fixedly mounted on the vertical rod 4002. Guide blocks 4004 are movably mounted on each vertical rod 4002. A placement box 4005 is fixedly mounted between each of the two guide blocks 4004. The top of each placement box 4005 is provided with an opening. The placement box 4005 moves on the traction hole 4001. Each placement box 4005 is provided with a vent hole 4006 that communicates with the opening of the placement box 4005. A first arc block 4007 is fixedly mounted on the bottom of each placement box 4005. A food reagent tube 32 is mounted on each placement box 4005. A test label 33 is fixedly mounted on each food reagent tube 32. The test label 33 is located above the support block 4000.
[0034] In this invention, multiple food reagent tubes 32 are placed in a placement box 4005, with the food reagent tubes 32 located inside the traction hole 4001. By pushing the first arc block 4007, the placement box 4005 moves on the vertical rod 4002 via the guide block 4004. The placement box 4005 raises the food reagent tubes 32 to a height different from that of other food reagent tubes 32, allowing the operator to more intuitively understand the information on the test label 33.
[0035] Reference Figure 1 and Figure 2 as well as Figure 5 The storage chamber 20 is equipped with a traction mechanism 41, which includes a limiting block 4101 and a horizontal block 4105. The horizontal blocks 4105 are arranged vertically and are located below the first arc block 4007. Multiple second arc blocks 4107 are fixedly mounted on each horizontal block 4105, and the second arc blocks 4107 are respectively attached to the first arc blocks 4007. The limiting block 4101 is located below multiple bearing blocks 4000 and is fixedly mounted on the bottom surface of the storage chamber 20. The limiting block 4101 and the inner wall of the storage chamber 20 are connected. A connecting rod 4100 is symmetrically fixedly assembled between the two connecting rods 4100. A transmission screw 4102 is movably assembled between the limiting block 4101 and the inner wall of the storage chamber 20. One end of the transmission screw 4102 movably passes through the limiting block 4101, and a knob 4103 is fixedly assembled at one end of the transmission screw 4102. An adjusting block 4104 that moves between the two connecting rods 4100 is threaded onto the transmission screw 4102. The bottom of the lowest horizontal block 4105 is fixedly assembled with the top of the adjusting block 4104. Support blocks 4106 are fixedly assembled at both ends of the multiple horizontal blocks 4105.
[0036] In this invention, turning the knob 4103 causes the transmission screw 4102 to rotate on the adjusting block 4104, which in turn moves on the two connecting rods 4100. Under the action of the support block 4106, the adjusting block 4104 drives multiple horizontal blocks 4105 to move, so that the second arc block 4107 on the horizontal block 4105 successively comes into contact with the first arc block 4007, and the first arc block 4007 is subjected to force.
[0037] Reference Figure 1 - Figure 3A cabinet door 21 is hinged to the assembly slot 13. A glass window 22 is fixedly mounted on the cabinet door 21. The glass window 22 is close to the storage chamber 20. An operation port 23 is provided on the cabinet door 21. The operation port 23 is movably assembled with the knob 4103 on the limit block 4101. A handle 30 is fixedly mounted on the cabinet door 21. The handle 30 is located on one side of the glass window 22. A support platform 11 is fixedly mounted on the side of the food temperature-controlled storage box 10. A food detector 12 is fixedly mounted on the support platform 11. A detection placement port 31 is provided on the food detector 12.
[0038] In this invention, multiple food reagent tubes 32 are placed in the storage box 4005, the cabinet door 21 is closed, and the knob 4103 is located in the operation port 23. Under the action of the limiting block 4101 and the cabinet door 21, the storage chamber 20 remains sealed.
[0039] Working principle: Multiple food reagent tubes 32 are placed in the storage box 4005, and the cabinet door 21 is closed, so that the knob 4103 is in the operating port 23. Under the action of the limiting block 4101 and the cabinet door 21, the storage chamber 20 is still sealed. When searching for the food reagent tube 32 according to the test label 33 for testing, the knob 4103 is turned, so that the transmission screw 4102 rotates on the adjusting block 4104, causing the adjusting block 4104 to move on the two connecting rods 4100. Under the action of the support block 4106, the adjusting block 4104 drives multiple horizontal blocks 4105 to move, so that the second arc block 4107 on the horizontal block 4105 successively comes into contact with the first arc block 4007, so that the first arc block 4007 is subjected to force. This allows the placement box 4005 to move on the vertical rod 4002 via the guide block 4004. The placement box 4005 raises the food reagent tube 32 to a different height than other food reagent tubes 32, allowing the operator to more intuitively understand the information on the test label 33 on the food reagent tube 32 through the glass window 22. The operator can then position the tube, open the cabinet door 21, take out the corresponding food reagent tube 32, and insert it into the food testing instrument 12 for testing. The second arc block 4107 in the test placement port 31 moves away from the first arc block 4007. Under the weight of the food reagent tube 32 and the placement box 4005, as well as the arc surfaces of the first and second arc blocks 4007, the placement box 4005 slowly returns to its original position, facilitating operation.
[0040] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.
Claims
1. A food storage device for food testing, characterized in that: include: A food temperature-controlled storage box (10) is provided with an assembly slot (13) and a storage chamber (20) is provided on the assembly slot (13). Adjustment mechanism (40), the adjustment mechanism (40) includes a support block (4000), multiple support blocks (4000) are fixedly assembled on the inner wall of the storage chamber (20), each support block (4000) is provided with multiple traction holes (4001), and two sets of vertical rods (4002) are fixedly assembled at the bottom of the support block (4000), each set of vertical rods (4002) has two rods, the two vertical rods (4002) of each set are respectively located on both sides of the traction hole (4001), and baffles (4002) are fixedly assembled at the bottom of each vertical rod (4002). 03), guide blocks (4004) are movably mounted on the vertical rod (4002), and a placement box (4005) is fixedly mounted between the two guide blocks (4004). The top of the placement box (4005) is provided with an opening. The placement box (4005) is movably mounted with the traction hole (4001). The placement box (4005) is provided with a vent hole (4006). The vent hole (4006) is connected to the opening of the placement box (4005). The bottom of the placement box (4005) is fixedly mounted with a first arc block (4007). The traction mechanism (41) includes a limiting block (4101) and a horizontal block (4105). The horizontal blocks (4105) are arranged vertically and horizontally, and the horizontal blocks (4105) are located below the first arc block (4007).
2. The food storage device for food testing according to claim 1, characterized in that: Each of the placement boxes (4005) is equipped with a food reagent tube (32), and each of the food reagent tubes (32) is fixedly equipped with a test label (33), which is located above the support block (4000).
3. The food storage device for food testing according to claim 1, characterized in that: Multiple second arc blocks (4107) are fixedly mounted on each of the horizontal blocks (4105). The second arc blocks (4107) are respectively attached to the first arc blocks (4007). The limiting block (4101) is located below the multiple bearing blocks (4000) and is fixedly mounted on the bottom surface of the storage chamber (20).
4. A food storage device for food testing according to claim 3, characterized in that: A connecting rod (4100) is symmetrically fixed between the limiting block (4101) and the inner wall of the storage chamber (20). A transmission screw (4102) is movably mounted between the limiting block (4101) and the inner wall of the storage chamber (20). One end of the transmission screw (4102) movably passes through the limiting block (4101), and a knob (4103) is fixedly mounted on one end of the transmission screw (4102).
5. A food storage device for food testing according to claim 4, characterized in that: The transmission screw (4102) is threaded with an adjusting block (4104), which is movably assembled with two connecting rods (4100). The bottom of the lowest horizontal block (4105) is fixedly assembled with the top of the adjusting block (4104), and support blocks (4106) are fixedly assembled at both ends of the multiple horizontal blocks (4105).
6. A food storage device for food testing according to claim 4, characterized in that: A cabinet door (21) is hinged to the assembly slot (13), and a glass window (22) is fixedly mounted on the cabinet door (21). The glass window (22) is close to the storage room (20), and an operation port (23) is provided on the cabinet door (21).
7. A food storage device for food testing according to claim 6, characterized in that: The operating port (23) is movably assembled with the knob (4103) on the limiting block (4101), and a handle (30) is fixedly assembled on the cabinet door (21), with the handle (30) located on one side of the glass window (22).
8. A food storage device for food testing according to claim 1, characterized in that: The food temperature-controlled storage box (10) is fixedly equipped with a support platform (11) on its side, and a food detector (12) is fixedly equipped on the support platform (11). The food detector (12) is provided with a detection placement port (31).