High-stability biochemical incubator bracket
By designing a biochemical incubator rack with limiting and mounting components, the problem of existing racks being unable to stably support culture dishes and test tubes of different sizes has been solved, achieving high stability and convenient operation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU ANHUAN OCCUPATIONAL HEALTH TECH SERVICES CO LTD
- Filing Date
- 2025-06-26
- Publication Date
- 2026-06-26
AI Technical Summary
Existing biochemical incubator racks lack stable limiting mechanisms, making it impossible to effectively support culture dishes and test tubes of different sizes, resulting in insufficient stability of the culture dishes and test tubes.
A bracket comprising a limiting component and an installation component is designed. The limiting component includes a petri dish limiting groove, an elastic anti-slip pad, a threaded mounting hole, a limiting support ring, a connecting rod, a limiting plate, and an elastic rubber ring. These components provide stable support for petri dishes and test tubes of different sizes. The installation component enables convenient assembly and disassembly through support rods, mounting parts, snap-fit caps, and support plates.
It achieves high stability support for petri dishes and test tubes of different sizes, and facilitates the disassembly and operation of the device, thus improving the stability and convenience of using petri dishes and test tubes.
Smart Images

Figure CN224411722U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of biochemical culture technology, specifically a highly stable biochemical incubator support. Background Technology
[0002] A biochemical incubator is an intelligent experimental device with a dual-temperature control system for both cooling and heating. It is specifically designed to provide a constant temperature and humidity environment for microbial and cell culture and biochemical reactions, and is widely used in medical research, environmental monitoring, and agricultural breeding. The tray is an important component of the biochemical incubator; it is a specially designed support device for layering and placing experimental instruments such as petri dishes and test tubes. However, current biochemical incubator trays still have the following shortcomings:
[0003] For example, patent document CN222182236U discloses a biological culture rack. This biological culture rack is heated by an inner tube and the gas flowing inside the inner tube. This multi-layered heat transfer method improves heating efficiency and ensures that the liquid in the test tube is fully heated. The gas passing through the inner tube is ejected through the air holes on several air jets and enters the liquid in the test tube to form bubbles. These bubbles can cause the liquid to churn, achieving a stirring effect and helping to maintain a uniform temperature distribution of the liquid. However, it does not have a stable limiting mechanism for the test tube, so it cannot achieve high stability in supporting the test tube. Utility Model Content
[0004] The purpose of this invention is to provide a highly stable support for a biochemical incubator, in order to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a highly stable biochemical incubator support, comprising a support frame and a limiting component. The support frame is an integrated structure. The limiting component is disposed on the surface of the support frame and includes a culture dish limiting groove, an elastic anti-slip pad, a threaded mounting hole, a threaded mounting ring, a limiting support ring, a connecting rod, a limiting plate, a limiting hole, and an elastic rubber ring. The culture dish limiting groove is located on the left end of the upper surface of the support frame, and seven sets of culture dish limiting grooves are provided. An elastic anti-slip pad is connected to the inner side of the culture dish limiting groove. A threaded mounting hole is provided on the right end of the surface of the support frame, and the threaded mounting holes are equidistantly disposed on the surface of the support frame. A threaded mounting ring is threadedly connected to the inner side of the threaded mounting hole.
[0006] Furthermore, a limiting support ring is installed on the upper surface of the threaded mounting ring, and the limiting support ring and the threaded mounting ring are an integrated structure that is tightly connected.
[0007] Furthermore, a connecting rod is installed on the right end of the upper surface of the bracket frame, and a limit plate is provided at the bottom of the connecting rod.
[0008] Furthermore, a limiting hole is formed on the surface of the limiting plate, and an elastic rubber ring is provided inside the limiting hole.
[0009] Furthermore, the surface of the bracket frame is provided with an installation component for quick installation, and the installation component includes a support rod, a mounting piece, a snap-fit cover and a support plate, with the support rod located at the left end of the upper surface of the bracket frame.
[0010] Furthermore, an installation component is installed on the top of the support rod, and a snap-fit cover is engaged with the outside of the installation component. A support plate is provided on the upper surface of the snap-fit cover, and a culture dish limiting groove is opened on the surface of the support plate.
[0011] Furthermore, the mounting assembly also includes a mounting plate, a support frame, fixing bolts, and fixing blocks, and mounting plates are provided on both sides of the bracket frame.
[0012] Furthermore, a support frame is provided on the lower side of the mounting plate, and a fixing bolt is threadedly connected to the outer end surface of the support frame, and a fixing block is engaged with the inner end surface of the support frame and the surface of the mounting plate.
[0013] This invention provides a highly stable support rack for a biochemical incubator, which has the following advantages:
[0014] 1. This utility model incorporates a limiting component, which includes a petri dish limiting groove, an elastic anti-slip pad, a threaded mounting hole, a threaded mounting ring, a limiting support ring, a connecting rod, a limiting plate, a limiting hole, and an elastic rubber ring. In use, limiting grooves of different sizes can be used to prevent petri dishes of different sizes from being placed in the limiting groove. The elastic anti-slip pad maintains the stability of the limiting groove. The limiting support ring is installed in the threaded mounting ring via a threaded connection to the inner side of the threaded mounting ring. Limiting support rings of different diameters can be replaced as needed. Different diameter limiting support rings support and limit test tubes of different diameters. The test tube is inserted into the limiting support ring, with its lower end passing through the limiting hole. The elastic rubber ring compresses the test tube, and its rebound maintains contact with the test tube surface, further stabilizing the lower end of the test tube. Therefore, this device can support and limit petri dishes and test tubes of different sizes, maintaining high stability for both.
[0015] 2. This utility model features an installation assembly, including a support rod, mounting components, a snap-fit cover, and a support plate. The assembly also includes a mounting plate, a support frame, fixing bolts, and fixing blocks. In use, the support frame is fixed inside the biochemical incubator using the fixing bolts. The mounting plate is placed on the surface of the support frame, providing support to the support frame. The mounting plate is then fixed to the support frame using the snap-fit connection of the fixing blocks. This allows for easy disassembly of the support frame. The snap-fit cover connects to the mounting components, supporting the support plate on the support rod. This design allows for the addition of a culture dish positioning groove and the stacking of multiple support plates, enabling convenient assembly and disassembly, and making operation simple and quick. Attached Figure Description
[0016] Figure 1 This is a three-dimensional structural diagram of a highly stable biochemical incubator bracket according to the present invention;
[0017] Figure 2 This is a three-dimensional structural diagram of the limiting component of a highly stable biochemical incubator bracket according to the present invention.
[0018] Figure 3 This is a three-dimensional structural diagram of the mounting assembly of a highly stable biochemical incubator bracket according to the present invention.
[0019] Figure 4 This is a three-dimensional structural diagram of the bracket body of a high-stability biochemical incubator according to the present invention.
[0020] In the diagram: 1. Bracket frame; 2. Limiting assembly; 201. Petri dish limiting groove; 202. Elastic anti-slip pad; 203. Threaded mounting hole; 204. Threaded mounting ring; 205. Limiting support ring; 206. Connecting upright; 207. Limiting plate; 208. Limiting hole; 209. Elastic rubber ring; 3. Mounting assembly; 301. Support rod; 302. Mounting component; 303. Snap-fit cover; 304. Support plate; 305. Mounting plate; 306. Support frame; 307. Fixing bolt; 308. Fixing block. Detailed Implementation
[0021] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are for illustrative purposes only and should not be construed as limiting the scope of this utility model.
[0022] like Figures 1 to 4As shown, a highly stable biochemical incubator support includes a support frame 1 and a limiting component 2. The support frame 1 is an integrated structure. The limiting component 2 is disposed on the surface of the support frame 1 and includes a culture dish limiting groove 201, an elastic anti-slip pad 202, a threaded mounting hole 203, a threaded mounting ring 204, a limiting support ring 205, a connecting rod 206, a limiting plate 207, a limiting hole 208, and an elastic rubber ring 209. The culture dish limiting groove 201 is opened at the left end of the upper surface of the support frame 1, and seven sets of culture dish limiting grooves 201 are provided. The inner side of the culture dish limiting groove 201 is connected with an elastic anti-slip pad. The pad 202 and the bracket body 1 have threaded mounting holes 203 on the right end of the surface. The threaded mounting holes 203 are equidistantly arranged on the surface of the bracket body 1. A threaded mounting ring 204 is threadedly connected to the inner side of the threaded mounting hole 203. A limit support ring 205 is installed on the upper surface of the threaded mounting ring 204. The limit support ring 205 and the threaded mounting ring 204 are an integrated structure that is tightly connected. A connecting rod 206 is installed on the right end of the upper surface of the bracket body 1. A limit plate 207 is provided at the bottom of the connecting rod 206. A limit hole 208 is opened on the surface of the limit plate 207. An elastic rubber ring 209 is provided inside the limit hole 208.
[0023] The specific operation is as follows: During use, different sized culture dish limiting grooves 201 are set to prevent culture dishes of different sizes from being placed in the same position. The elastic anti-slip pad 202 can maintain the stability of limiting the culture dish. The limiting support ring 205 is connected to the threaded mounting ring 204 through the threaded connection. The limiting support ring 205 is installed in the threaded mounting ring 204. Different diameter limiting support rings 205 can be replaced according to actual needs. Different diameter limiting support rings 205 are used to support and limit test tubes of different diameters. The test tube is inserted into the limiting support ring 205 and the lower end of the test tube passes through the inner side of the limiting hole 208. Through the elastic action of the elastic rubber ring 209, the test tube is squeezed against the elastic rubber ring 209. The elastic rubber ring 209 rebounds and keeps in contact with the surface of the test tube, further stabilizing and limiting the lower end of the test tube.
[0024] Please refer to Figures 3 to 4The bracket frame 1 has an installation component 3 for quick installation on its surface. The installation component 3 includes a support rod 301, an installation part 302, a snap-fit cover 303, and a support plate 304. The support rod 301 is located on the left end of the upper surface of the bracket frame 1. The installation part 302 is installed on the top of the support rod 301. The snap-fit cover 303 is snap-fitted to the outside of the installation part 302. The support plate 304 is located on the upper surface of the snap-fit cover 303. The surface of the support plate 304 has a petri dish limiting groove 201. The installation component 3 also includes an installation plate 305, a support frame 306, fixing bolts 307, and fixing blocks 308. The bracket frame 1 has installation plates 305 on both sides. The support frame 306 is located on the lower side of the installation plate 305. The outer end surface of the support frame 306 is threaded with fixing bolts 307. The inner end surface of the support frame 306 is snap-fitted to the surface of the installation plate 305 with fixing blocks 308.
[0025] The specific operation is as follows: During use, the support frame 306 is fixed inside the biochemical incubator by fixing bolts 307. The bracket frame 1 is supported by the support frame 306 by placing the mounting plate 305 on the surface of the support frame 306. The mounting plate 305 is fixed to the support frame 306 by the snap-fit connection of the fixing block 308. The bracket frame 1 can be easily disassembled separately afterward. The support plate 304 is supported on the support rod 301 by the snap-fit connection of the snap-fit cover 303 and the mounting part 302. The culture dish limiting groove 201 can be added, and multiple sets of support plates 304 can be stacked.
[0026] In summary, as Figures 1 to 4As shown, this highly stable biochemical incubator bracket, in use, firstly, fixes the support frame 306 inside the biochemical incubator using fixing bolts 307. Then, by placing the mounting plate 305 on the surface of the support frame 306, the bracket body 1 is supported by the support frame 306. The mounting plate 305 is then fixed to the support frame 306 via the snap-fit connection of the fixing block 308, facilitating subsequent individual disassembly of the bracket body 1. The support plate 304 is supported on the support rod 301 via the snap-fit connection of the snap-fit cover 303 and the mounting piece 302. This allows for the addition of a culture dish limiting groove 201, and multiple sets of support plates 304 can be stacked. During the use of this device, setting culture dish limiting grooves 201 of different sizes can prevent... For petri dishes of different sizes, the elastic anti-slip pad 202 can maintain the stability of limiting the petri dish. The limiting support ring 205 is connected to the threaded mounting ring 204 through the threaded connection. The limiting support ring 205 is installed in the threaded mounting ring 204. The limiting support ring 205 of different diameters can be replaced according to actual needs. The limiting support ring 205 of different diameters can support and limit the test tubes of different diameters. The test tube is inserted into the limiting support ring 205 and the lower end of the test tube passes through the inner side of the limiting hole 208. Through the elastic action of the elastic rubber ring 209, the test tube is squeezed against the elastic rubber ring 209. The elastic rubber ring 209 rebounds and keeps in contact with the surface of the test tube, further stabilizing and limiting the lower end of the test tube.
[0027] The embodiments of this utility model are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the utility model to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described in order to better illustrate the principles and practical applications of this utility model, and to enable those skilled in the art to understand this utility model and design various embodiments with various modifications suitable for a particular purpose.
Claims
1. A highly stable biochemical incubator support frame, comprising a support frame body (1) and a limiting component (2), characterized in that: The bracket frame (1) is an integrated structure. The limiting component (2) is disposed on the surface of the bracket frame (1). The limiting component (2) includes a culture dish limiting groove (201), an elastic anti-slip pad (202), a threaded mounting hole (203), a threaded mounting ring (204), a limiting support ring (205), a connecting rod (206), a limiting plate (207), a limiting hole (208), and an elastic rubber ring (209). (201) is opened on the left end of the upper surface of the bracket body (1), and seven sets of culture dish limiting grooves (201) are provided. An elastic anti-slip pad (202) is connected to the inner side of the culture dish limiting groove (201). A threaded mounting hole (203) is opened on the right end of the surface of the bracket body (1), and the threaded mounting holes (203) are equidistantly arranged on the surface of the bracket body (1). A threaded mounting ring (204) is threadedly connected to the inner side of the threaded mounting hole (203).
2. The highly stable biochemical incubator rack according to claim 1, characterized in that, A limiting support ring (205) is installed on the upper surface of the threaded mounting ring (204), and the limiting support ring (205) and the threaded mounting ring (204) are an integrated structure that is tightly connected.
3. The highly stable biochemical incubator support according to claim 1, characterized in that, A connecting rod (206) is installed on the right end of the upper surface of the bracket frame (1), and a limit plate (207) is provided at the bottom of the connecting rod (206).
4. The highly stable biochemical incubator rack according to claim 1, characterized in that, The limiting plate (207) has a limiting hole (208) on its surface, and an elastic rubber ring (209) is provided inside the limiting hole (208).
5. The highly stable biochemical incubator rack according to claim 1, characterized in that, The bracket frame (1) is provided with an installation component (3) for quick installation. The installation component (3) includes a support rod (301), an installation piece (302), a snap-fit cover (303), and a support plate (304). The support rod (301) is located at the left end of the upper surface of the bracket frame (1).
6. The highly stable biochemical incubator rack according to claim 5, characterized in that, The support rod (301) is equipped with an installation part (302) at the top, and a snap-fit cover (303) is snapped onto the outside of the installation part (302). A support plate (304) is provided on the upper surface of the snap-fit cover (303), and a culture dish limiting groove (201) is opened on the surface of the support plate (304).
7. A highly stable biochemical incubator rack according to claim 5, characterized in that, The mounting assembly (3) also includes a mounting plate (305), a support frame (306), fixing bolts (307) and fixing blocks (308), and mounting plates (305) are provided on both sides of the bracket frame (1).
8. A highly stable biochemical incubator support according to claim 7, characterized in that, A support frame (306) is provided on the lower side of the mounting plate (305), and a fixing bolt (307) is threadedly connected to the outer end surface of the support frame (306). A fixing block (308) is engaged with the inner end surface of the support frame (306) and the surface of the mounting plate (305).