A heart-type fatty acid-binding protein assay kit

By designing a movable plate and pull plate structure, stable separation and fixation of reagent bottles and batch visual handling are achieved, solving the problem of low ease of operation of existing reagent kits and improving detection efficiency and stability.

CN224477255UActive Publication Date: 2026-07-10TIANJIN KANGERKE BIOSCI

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TIANJIN KANGERKE BIOSCI
Filing Date
2025-05-26
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

The fixed tube rack structure of existing reagent kits results in low ease of operation, affects the efficiency of testing operations, and the reagent bottles are prone to tipping over, spilling, or being damaged by collision.

Method used

The system employs a movable plate and pull plate structure. Pulling the pull plate causes the movable plate to slide, and the push rod simultaneously ejects multiple sets of reagent bottles. Combined with a gear rack and locking sleeve structure, it achieves stable separation and fixation of reagent bottles and batch visual handling, preventing accidental slippage.

Benefits of technology

It improves the convenience of reagent access, shortens the test preparation time, enhances the stability of the kit, is suitable for high-throughput joint detection scenarios, and improves the operational efficiency of heart-shaped fatty acid binding protein assay.

✦ Generated by Eureka AI based on patent content.

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Abstract

A kind of heart-shaped fatty acid binding protein determination kit, including box, box cover, fixed seat, movable plate, sleeve, pull plate, mounting bracket, lock sleeve, the box hinge box cover, box cover connects lock tongue, box connects lock seat, lock tongue is adapted to lock seat, lock tongue connects lock seat, the inside connection fixed seat of box, fixed seat has slide, slide is adapted to movable plate, movable plate connects slide, movable plate slides in slide, movable plate has multiple top rods, fixed seat has multiple placement grooves, placement groove is adapted to top rod, top rod connects placement groove, top rod upper portion connects rubber top block, rubber top block connects reagent bottle, reagent bottle connects placement groove.
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Description

Technical Field

[0001] This invention relates to the field of reagent kits, and more particularly to a reagent kit for the assay of heart-shaped fatty acid-binding proteins. Background Technology

[0002] An existing patent (publication number: CN218859088U) proposes a test kit, including a box body, a tube rack, a first flexible filler, a second flexible filler, and a box cap. The box body has a receiving cavity and an opening. The tube rack has a first receiving groove and a second receiving groove. The tube rack is located within the receiving cavity. The first receiving groove and the second receiving groove are spaced apart. The first flexible filler is located within the first receiving groove and has multiple first receiving holes for placing a first reagent tube. The second flexible filler is located within the second receiving groove and has multiple second receiving holes for placing a second reagent tube. However, the "tube rack" structure in this device is relatively fixed. During testing, multiple sets of reagent bottles need to be pulled upwards one by one, resulting in low operational convenience and affecting the efficiency of the testing operation, thus presenting drawbacks. Summary of the Invention

[0003] This invention addresses the aforementioned shortcomings of existing technologies by providing a reagent kit that separates and fixes multiple sets of reagent bottles, ensuring stable placement and preventing tipping, spillage, or damage from collisions. Simultaneously, it allows all reagent bottles to be raised to the operating height by pulling a lever, eliminating the need for individual extraction and shortening reagent handling time. This kit is particularly suitable for high-throughput joint detection scenarios, improving the efficiency of heart-shaped fatty acid-binding protein assays.

[0004] The objective of this utility model is achieved through the following technical solution:

[0005] A heart-shaped fatty acid binding protein assay kit includes a box body, a lid, a fixed base, a movable plate, a rotating sleeve, a pull plate, a mounting bracket, and a locking sleeve. The lid is hinged to the box body, and a locking tongue is connected to the lid. The box body is connected to a locking seat, and the locking tongue is adapted to the locking seat. The fixed base is connected inside the box body. The fixed base has a slide rail, which is adapted to the movable plate. The movable plate is connected to the slide rail and slides within the slide rail. The movable plate has multiple push rods, and the fixed base has multiple placement slots, which are adapted to the push rods. The push rods are connected to the placement slots, and a rubber top block is connected to the upper part of the push rod. The rubber top block is connected to a reagent bottle, and the reagent bottle is connected to the placement slot.

[0006] The pull plate of this utility model has connecting rods on both sides, and the fixed seat has connecting rod holes on both sides. The connecting rod holes are adapted to the connecting rods, and the connecting rods pass through the connecting rod holes. The lower end of the connecting rod is connected to a movable plate. The inner side of the connecting rod has a rack, which meshes with a gear. The rack is connected to the gear, and the gear has a rotating sleeve. The rotating sleeve is connected to the mounting frame through a shaft, and the lower part of the mounting frame is connected to the fixed seat.

[0007] The mounting bracket of this utility model is divided into a left mounting bracket and a right mounting bracket, and the shaft is divided into a left shaft and a right shaft. The right shaft passes through the right mounting bracket and the rotating sleeve in sequence, and the left shaft passes through the locking sleeve, the left mounting bracket and the rotating sleeve in sequence. The left shaft has multiple locking grooves, and the locking sleeve has locking blocks. The locking blocks are adapted to the locking grooves and are connected to the locking grooves.

[0008] The lower part of the lock sleeve of this utility model has a support rod, the left mounting bracket has a support sleeve, the support sleeve is connected to the support rod, the upper end of the support rod is connected to the spring, the lower end of the spring is connected to the support sleeve, the upper part of the lock sleeve has a pressure rod, and the upper part of the pressure rod has a pressure plate. Beneficial effects

[0009] This utility model's fixing base uses placement slots to separate and fix multiple sets of reagent bottles, ensuring stable placement and preventing them from shifting, tipping over, or causing reagent spillage and contamination. Through the coordinated operation of the movable plate and the pull plate, the operator only needs to pull the pull plate to slide the movable plate within the slide rail. A push rod then simultaneously ejects multiple sets of reagent bottles from different placement slots, enabling batch, visual retrieval and placement. This increases the convenience of reagent retrieval, shortens test preparation time, and improves the efficiency of heart-shaped fatty acid-binding protein assays. Furthermore, the rubber block added to the upper end of the push rod provides elasticity, preventing reagent bottle breakage during the pushing process.

[0010] The transmission structure between the gears and racks of this utility model, in conjunction with the locking structure of the locking sleeve and the left shaft, ensures that the position of the movable plate can be stably maintained after the pull plate is pulled, preventing the movable plate from accidentally sliding during the testing process due to accidental contact, and ensuring the overall structural stability of the reagent kit.

[0011] This invention ensures the stability of reagent bottles by separating and fixing multiple sets of reagent bottles, preventing them from tipping over, spilling, or breaking. At the same time, all reagent bottles can be raised to the operating height by pulling the pull plate, eliminating the need to extract them one by one, thus shortening the reagent handling time. It is especially suitable for high-throughput joint detection scenarios and improves the efficiency of heart-shaped fatty acid binding protein determination. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the structure of a heart-shaped fatty acid binding protein assay kit according to the present invention.

[0013] Figure 2 This is a schematic diagram of the fixed base structure described in this utility model.

[0014] Figure 3 This is a schematic diagram of the pull plate and movable plate structure described in this utility model.

[0015] Figure 4 This is a schematic diagram of the lock sleeve structure described in this utility model.

[0016] Figure 5 This is a schematic diagram of the connection structure between the lock sleeve and the left shaft rod described in this utility model.

[0017] Figure 6 This is a cross-sectional view of the structure of a heart-shaped fatty acid-binding protein assay kit according to the present invention.

[0018] Figure 7 This is a cross-sectional view of the connection structure between the movable plate and the fixed base described in this utility model.

[0019] Figure 8 This is a cross-sectional view of the gear and rack connection structure described in this utility model.

[0020] Figure 9 This is a cross-sectional view of the left shaft positioning structure described in this utility model. Detailed Implementation

[0021] The present invention will be further described in detail below with reference to the accompanying drawings and embodiments:

[0022] Example 1:

[0023] A heart-shaped fatty acid-binding protein assay kit includes a box body 01, a box cover 02, a fixed base 05, a movable plate 06, a rotating sleeve 13, a pull plate 15, a mounting bracket 18, and a locking sleeve 19. The box body 01 is hinged to the box cover 02, the box cover 02 is connected to a locking tongue 03, and the box body 01 is connected to a locking seat 04. The locking tongue 03 is adapted to the locking seat 04 and is connected to the locking seat 04. The fixed base 05 is connected inside the box body 01. The fixed base 05 has a slide rail 07, which is adapted to the movable plate 06. The movable plate 06 is connected to the slide rail 07 and slides within the slide rail 07. The movable plate 06 has multiple push rods 09. The fixed base 05 has multiple placement slots 08, which are adapted to the push rods 09. The push rods 09 are connected to the placement slots 08, and the upper part of the push rods 09 is connected to... A rubber top block 10 is connected to a reagent bottle, which is then connected to a placement slot 08. A fixing seat 05 uses the placement slot 08 to separate and fix multiple sets of reagent bottles, ensuring stable placement and preventing them from shifting or tipping over, which could cause reagent spillage or contamination. The movable plate 06 and the pull plate 15 work together, allowing the operator to simply pull the pull plate 15 to slide the movable plate 06 within the slide rail 07. The push rod 09 then simultaneously pushes out multiple sets of reagent bottles from different placement slots 08, enabling batch, visual retrieval and placement. This increases the convenience of reagent retrieval, shortens preparation time, and improves the efficiency of heart-shaped fatty acid-binding protein assays. Furthermore, the rubber top block 10 on the upper end of the push rod 09 has a certain degree of elasticity, preventing reagent bottle breakage during the pushing process.

[0024] Example 2:

[0025] The pull plate 15 of this utility model has connecting rods 16 on both sides, and the fixed seat 05 has connecting rod holes 17 on both sides. The connecting rod holes 17 are adapted to the connecting rods 16, and the connecting rods 16 pass through the connecting rod holes 17. The lower end of the connecting rods 16 is connected to the movable plate 06. The inner side of the connecting rods 16 has a rack 11, which meshes with a gear 12. The rack 11 is connected to the gear 12. The gear 12 has a rotating sleeve 13, which is connected to the mounting bracket 18 through a shaft 14. The lower part of the mounting bracket 18 is connected to the fixed seat 05.

[0026] Example 3:

[0027] The mounting bracket 18 of this utility model is divided into a left mounting bracket 181 and a right mounting bracket 182. The shaft 14 is divided into a left shaft 141 and a right shaft 142. The right shaft 142 passes through the right mounting bracket 182 and the rotating sleeve 13 in sequence. The left shaft 141 passes through the locking sleeve 19, the left mounting bracket 181, and the rotating sleeve 13 in sequence. The left shaft 141 has multiple locking grooves 25. The locking sleeve 19 has a locking block 24. The locking block 24 is adapted to the locking groove 25 and is connected to the locking groove 25. The transmission structure between the gear 12 and the rack 11 cooperates with the locking structure of the locking sleeve 19 and the left shaft 141, so that after the pull plate 15 is pulled, the position of the movable plate 06 can be stably maintained, avoiding accidental sliding of the movable plate 06 due to accidental contact during the detection process, and ensuring the overall structural stability of the reagent kit.

[0028] Example 4:

[0029] The lower part of the lock sleeve 19 of this utility model has a support rod 23, the left mounting bracket 181 has a support sleeve 22, the support sleeve 22 is connected to the support rod 23, the support rod 23 is connected to the upper end of the spring 29, the lower end of the spring 29 is connected to the support sleeve 22, the upper part of the lock sleeve 19 has a pressure rod 21, and the upper part of the pressure rod 21 has a pressure plate 20.

[0030] Example 5:

[0031] The left mounting bracket 181 of this utility model has limiting support plates 30 on both sides, and the limiting support plates 30 have sliding holes 27. The pressure rod 21 has fixing holes 28. The fixing holes 28 and sliding holes 27 are adapted to the sliding rod 26. The sliding rod 26 passes through the sliding holes 27 and fixing holes 28 in sequence. This device ensures the stability of the reagent bottles by separating and fixing multiple sets of reagent bottles, preventing them from tipping over, spilling, or being damaged by collision. At the same time, it can raise all the reagent bottles to the operating height by pulling the pull plate 15, eliminating the need to extract them one by one, shortening the reagent handling time. It is especially suitable for high-throughput joint detection scenarios and improves the efficiency of heart-shaped fatty acid binding protein determination.

[0032] Example 6:

[0033] Installation steps: First, assemble the mounting bracket 18 structure. Place the spring 29 inside the support sleeve 22, then place the locking sleeve 19 outside the left mounting bracket 181, with the fixing hole 28 corresponding to the sliding hole 27. Insert the support rod 23 into the support sleeve 22, pressing the lower end of the support rod 23 against the upper end of the spring 29, and pressing the lower end of the spring 29 against the support sleeve 22. Then, pass the sliding rod 26 through the sliding hole 27 and the fixing hole 28, fixing the sliding rod 26 to the pressure rod 21. Next, place the rotating sleeve 13 into the mounting bracket 18. Then, pass the right shaft 142 through the right mounting bracket 182 and the rotating sleeve 13, fixing the right shaft 142 to the rotating sleeve 13 with screws. Finally, pass the left shaft 141 through the locking sleeve 19, the left mounting bracket 181, and the rotating sleeve 13, fixing the left shaft 141 to the rotating sleeve 13 with screws. The locking block 24 is then embedded in the locking groove 25. After assembling the mounting bracket 18, assemble the fixed base 05. First, place the movable plate 06 into the slide rail 07 and insert the top rod 09 into the placement groove 08. Then, place the pull plate 15 on the upper part of the fixed base 05, and pass the connecting rods 16 on both sides through the connecting rod holes 17 and fix them to the movable plate 06. Then, install and fix the mounting bracket 18 on the upper part of the fixed base 05, and mesh the gear 12 with the rack 11. Then, place the fixed base 05 into the box body 01 and fix it to the box body. Finally, place the box cover 02 on the upper part of the box body 01 and connect it to the box body. The locking tongue 03 and the locking seat 04 are aligned and connected to each other, completing the installation.

[0034] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. A heart-shaped fatty acid-binding protein assay kit, characterized in that... The system includes a box body (01), a box cover (02), a pull plate (15), a mounting bracket (18), and a lock sleeve (19). The box body (01) is hinged to the box cover (02), the box cover (02) is connected to a lock tongue (03), and the box body (01) is connected to a lock seat (04). The lock tongue (03) is adapted to the lock seat (04), and the lock tongue (03) is connected to the lock seat (04). The box body (01) is internally connected to a fixing seat (05), and the fixing seat (05) has a slide rail (07). The slide rail (07) is connected to... The movable plate (06) is adapted to the slide rail (07), and the movable plate (06) slides in the slide rail (07). The movable plate (06) has multiple push rods (09), and the fixed seat (05) has multiple placement slots (08). The placement slots (08) are adapted to the push rods (09), and the push rods (09) are connected to the placement slots (08). The upper part of the push rods (09) is connected to a rubber top block (10), and the rubber top block (10) is connected to a reagent bottle. The reagent bottle is connected to the placement slot (08).

2. The heart-shaped fatty acid-binding protein assay kit according to claim 1, characterized in that... The pull plate (15) has connecting rods (16) on both sides, and the fixed seat (05) has connecting rod holes (17) on both sides. The connecting rod holes (17) are adapted to the connecting rods (16), and the connecting rods (16) pass through the connecting rod holes (17). The lower end of the connecting rods (16) is connected to the movable plate (06). The inner side of the connecting rods (16) has a rack (11), which meshes with the gear (12). The rack (11) is connected to the gear (12), and the gear (12) has a rotating sleeve (13). The rotating sleeve (13) is connected to the mounting frame (18) through the shaft (14). The lower part of the mounting frame (18) is connected to the fixed seat (05).

3. The heart-shaped fatty acid-binding protein assay kit according to claim 2, characterized in that... The mounting bracket (18) is divided into a left mounting bracket (181) and a right mounting bracket (182). The shaft (14) is divided into a left shaft (141) and a right shaft (142). The right shaft (142) passes through the right mounting bracket (182) and the rotating sleeve (13) in sequence. The left shaft (141) passes through the locking sleeve (19), the left mounting bracket (181), and the rotating sleeve (13) in sequence. The left shaft (141) has multiple locking grooves (25). The locking sleeve (19) has a locking block (24). The locking block (24) is adapted to the locking groove (25). The locking block (24) is connected to the locking groove (25).

4. The heart-shaped fatty acid-binding protein assay kit according to claim 3, characterized in that... The lower part of the lock sleeve (19) has a support rod (23), the left mounting bracket (181) has a support sleeve (22), the support sleeve (22) is connected to the support rod (23), the support rod (23) is connected to the upper end of the spring (29), the lower end of the spring (29) is connected to the support sleeve (22), the upper part of the lock sleeve (19) has a pressure rod (21), and the upper part of the pressure rod (21) has a pressure plate (20).

5. The heart-shaped fatty acid-binding protein assay kit according to claim 1, characterized in that... The left mounting bracket (181) has limiting support plates (30) on both sides. The limiting support plates (30) have sliding holes (27). The pressure rod (21) has fixing holes (28). The fixing holes (28) and sliding holes (27) are compatible with the sliding rod (26). The sliding rod (26) passes through the sliding holes (27) and fixing holes (28) in sequence.