CN220900479U - Biological detection experiment table - Google Patents

Abstract

The utility model discloses a biological detection experiment table, which comprises a first rectangular plate body, wherein a pair of first T-shaped supporting columns are arranged on the lower wall surface of the first rectangular plate body, a pair of ventilation mechanisms are inserted into the upper wall surface of the first rectangular plate body, first sliding grooves are formed in the two adjacent side wall surfaces of the first rectangular plate body, auxiliary table body mechanisms are arranged in the pair of first sliding grooves, isosceles trapezoid grooves are formed in the upper wall surface of the first rectangular plate body, first round through holes are formed in the lower wall surface of the inner part of the isosceles trapezoid grooves, waste liquid collecting mechanisms are arranged in the first round through holes, a pair of first rectangular grooves are formed in one side, close to the pair of ventilation mechanisms, of article auxiliary placing mechanisms are arranged in the pair of first rectangular grooves, a second sliding groove is formed in the other side wall surface of the first rectangular plate body, and cable collecting mechanisms are arranged in the second sliding grooves.

Description

Biological detection experiment table

Technical Field

The utility model relates to the technical field of biological detection, in particular to a biological detection experiment table.

Background

Biological detection utilizes the reaction of organism individuals and colony forming groups to environmental pollution or change to clarify the environmental pollution condition, provides biological detection data for monitoring and evaluating the environmental quality from the biological perspective, and the biological detection comprises three parts of water, soil and atmospheric pollution, and periodically and systematically utilizes the reaction information of organisms to the environment to determine the environmental quality including water, gas and soil environment. Environmental pollution inevitably affects the change of the inherent structure and function of an ecological system, biological monitoring can reflect the ecological effect of the environmental pollution, biological active reaction information is provided for environmental control and management, various biological detection experiment tables exist in the prior art, such as a novel Chinese utility model with the patent number of CN202022561379.7 discloses a biological detection experiment table, the biological detection experiment table comprises a experiment table, a waste liquid pool is mounted on the experiment table, a rotating shaft is mounted in the experiment table, a knob is mounted at one end of the rotating shaft, a belt pulley is mounted at one end of the rotating shaft, a rotating column is connected at one end of the belt pulley, and two ends of the rotating column are connected on the inner wall of the experiment table.

This kind of laboratory bench rotates the knob, drive in proper order and rotate, carousel, belt pulley, tray, rolling disc rotate, and then drive pipe and waste material bucket rotation, it is fixed to pipe and waste liquid pond mouth of pipe department to drive the fly leaf through L type connecting rod promotion C type circle and retainer plate combined action simultaneously, avoid reacting in the waste liquid barrel between the waste liquid, prevented to produce harmful gas and cause the injury to the human body, but when carrying out different experiments, when meetting different workstation heights and areas, this kind of laboratory bench can only assemble through other tables and use, very inconvenience, thereby just need the use of this kind of biological detection laboratory bench.

Disclosure of utility model

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the biological detection experiment table comprises a first rectangular plate body, a pair of first T-shaped supporting columns are arranged on the lower wall surface of the first rectangular plate body, a pair of ventilation mechanisms are inserted on the upper wall surface of the first rectangular plate body, a first sliding groove is formed in the two adjacent side wall surfaces of the first rectangular plate body, an auxiliary table body mechanism is arranged in the pair of first sliding grooves, an isosceles trapezoid groove is formed in the upper wall surface of the first rectangular plate body, a first circular through hole is formed in the lower wall surface of the isosceles trapezoid groove, a waste liquid collecting mechanism is arranged in the first circular through hole, an auxiliary article placing mechanism is arranged on one side, close to the pair of ventilation mechanisms, of the upper wall surface of the first rectangular plate body, a second sliding groove is formed in the other side wall surface of the first rectangular plate body, a cable collecting mechanism is arranged in the second sliding groove, the auxiliary table body mechanism comprises a third rectangular plate body, a pair of first sliding blocks are arranged on the side wall surface of the third rectangular plate body, the first sliding blocks are movably arranged in a first sliding groove, a pair of second T-shaped supporting columns are arranged on the lower wall surface of the third rectangular plate body, a pair of second rectangular grooves are formed in the lower wall surface of the second T-shaped supporting columns, a pair of second universal wheels are arranged in the second rectangular grooves, a third box body is arranged on the side wall surface of the third rectangular plate body, a motor is arranged in the third box body, a first bearing is inserted on the side wall surface of the inner part of the third box body, a pair of fifth rectangular fixed blocks are arranged on the upper wall surface of the third rectangular plate body, which is close to the other end of the third box body, a second bearing is inserted on the side wall surface of the fifth rectangular fixed blocks, the motor driving end, the first bearing and the pair of second bearings are respectively internally inserted with a pair of bidirectional screw rods, the pair of bidirectional screw rods are positioned on the inner side wall surface of the third box body and sleeved with a belt body, the pair of bidirectional screw rods are respectively sleeved with a pair of fourth rectangular fixing blocks, the upper wall surface of the third rectangular plate body is provided with a pair of third sliding grooves, the two pairs of fourth rectangular fixing blocks are respectively arranged in the pair of third sliding grooves, the upper wall surfaces of the two pairs of fourth rectangular fixing blocks are respectively hinged with concave plate bodies, and the other ends of the concave plate bodies are respectively hinged with fourth rectangular plate bodies.

Preferably, the ventilation mechanism comprises an L-shaped box body, the L-shaped box body is inserted on the lower wall surface of the first rectangular plate body, one end of the L-shaped box body is located on the upper wall surface of the first rectangular plate body, a pair of first rectangular through holes are formed in two ends of the L-shaped box body, one of the first rectangular through holes is located at the upper end of the upper wall surface of the first rectangular plate body, an electric fan is mounted in the L-shaped box body, and a filter screen is mounted at one end, close to the other first rectangular through hole, of the L-shaped box body.

Preferably, the waste liquid collecting mechanism comprises a first isosceles trapezoid cylinder body, the first isosceles trapezoid cylinder body is arranged on the lower wall surface of the first circular through hole, a fourth box body is arranged on the lower wall surface of the first rectangular plate body, a T-shaped groove is formed in the side wall surface of the fourth box body, a pair of L-shaped fixing blocks are movably inserted into the T-shaped groove, a second box body is arranged on the lower wall surface of the L-shaped fixing blocks, two pairs of first universal wheels are arranged on the lower wall surface of the second box body, and the second isosceles trapezoid cylinder body is inserted into the upper wall surface of the second box body.

Preferably, the auxiliary article placing mechanism comprises a first rectangular fixing block, a pair of first rectangular fixing blocks are movably mounted in the first rectangular grooves, a pair of third rectangular grooves are formed in the upper wall surfaces of the first rectangular fixing blocks, second rectangular fixing blocks are hinged in the third rectangular grooves, a pair of third rectangular fixing blocks are movably inserted in the first rectangular grooves, and a fifth rectangular plate body is mounted on the upper wall surfaces of the third rectangular fixing blocks.

Preferably, the cable collection mechanism includes sixth rectangle fixed block, a plurality of sixth rectangle fixed block movable mounting is inside the second spout, a plurality of C shape rubber plate body is all installed to sixth rectangle fixed block lateral wall face, install first box on the lower wall face that first rectangle plate body lower wall face is close to the lower wall face of second spout, the circular through-hole of second has been seted up to first box lower wall face, third rectangle through-hole has been seted up to first box lateral wall face, the inside lateral wall face of third rectangle through-hole articulates there is the second rectangle plate body.

Advantageous effects

The utility model provides a biological detection experiment table, which can complete the placement of cables and experimental equipment through an article auxiliary placement mechanism and a cable collection mechanism in the use process, and can complete the elevation and the elevation of a table body through an auxiliary table body mechanism at the moment, thereby meeting the use of the table body with different heights, and can also complete the position movement of the table body through the assistance of a sliding block and a sliding chute, and can also complete the convenient treatment of waste liquid through a waste liquid collection mechanism at the moment, and can also complete the ventilation operation through a ventilation mechanism, thereby preventing harmful gas from surrounding the periphery of experimental staff during experiments, and further achieving the air circulation of working environment _.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a biological detection laboratory table according to the present utility model.

Fig. 2 is a schematic structural view of a fourth rectangular plate body of the biological detection experiment table according to the utility model.

Fig. 3 is a schematic structural view of a fifth rectangular plate body of the biological detection experiment table according to the utility model.

Fig. 4 is a schematic diagram of a second box structure of the biological detection experiment table according to the present utility model.

In the figure: 1. a first rectangular plate body; 2. a first case; 3. a second rectangular plate body; 4. a first T-shaped support post; 5. a second case; 6. a first universal wheel; 7. a second T-shaped support post; 8. a third rectangular plate body; 9. a third case; 10. a fourth rectangular plate body; 11. a first rectangular fixed block; 12. a second rectangular fixed block; 13. an L-shaped box body; 14. an electric fan; 15. a filter screen; 16. a fifth rectangular plate body; 17. a third rectangular fixed block; 18. a concave plate body; 19. a fourth rectangular fixed block; 20. a two-way screw rod; 21. a fifth rectangular fixed block; 22. a fourth case; 23. a first isosceles trapezoid cylinder; 24. a second waist trapezoid cylinder; 25. an L-shaped fixed block; 26. a sixth rectangular fixed block; 27. c-shaped rubber plate body.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the biological detection experiment table comprises a first rectangular plate body 1, a pair of first T-shaped supporting columns 4 are arranged on the lower wall surface of the first rectangular plate body 1, a pair of ventilation mechanisms are inserted into the upper wall surface of the first rectangular plate body 1, a first sliding groove and a pair of auxiliary table body mechanisms are respectively arranged on the adjacent two side wall surfaces of the first rectangular plate body 1, an isosceles trapezoid groove is arranged on the upper wall surface of the first rectangular plate body 1, a first circular through hole is arranged on the lower wall surface of the isosceles trapezoid groove, a waste liquid collecting mechanism is arranged in the first circular through hole, a pair of first rectangular grooves are arranged on one side, close to the pair of ventilation mechanisms, of the upper wall surface of the first rectangular plate body 1, an auxiliary article placing mechanism is arranged in the pair of first rectangular grooves, a second sliding groove is arranged on the other side wall surface of the first rectangular plate body 1, a cable collecting mechanism is arranged in the second sliding groove, the auxiliary table body mechanism comprises a third rectangular plate body 8, a pair of first sliding blocks are arranged on the side wall surface of the third rectangular plate body 8 and movably arranged in a first sliding groove, a pair of second T-shaped supporting columns 7 are arranged on the lower wall surface of the third rectangular plate body 8, a pair of second rectangular grooves are formed in the lower wall surface of the second T-shaped supporting columns 7, a pair of second universal wheels are arranged in the second rectangular grooves, a third box body 9 is arranged on the side wall surface of the third rectangular plate body 8, a motor is arranged in the third box body 9, a first bearing is inserted on the side wall surface of the inside of the third box body 9, a pair of fifth rectangular fixing blocks 21 are arranged on the upper wall surface of the third rectangular plate body 8, which is close to the other end of the third box body 9, a second bearing is inserted on the side wall surface of the fifth rectangular fixing blocks 21, the motor driving end, the first bearings and the two pairs of second bearings are respectively internally inserted with a pair of bidirectional screw rods 20, the bidirectional screw rods 20 are positioned on the inner side wall surfaces of the third box body 9 and sleeved with a belt body, the upper wall surfaces of the bidirectional screw rods 20 are respectively sleeved with a pair of fourth rectangular fixing blocks 19, the upper wall surfaces of the third rectangular plate bodies 8 are provided with a pair of third sliding grooves, the two pairs of fourth rectangular fixing blocks 19 are respectively arranged in the pair of third sliding grooves, the upper wall surfaces of the two pairs of fourth rectangular fixing blocks 19 are respectively hinged with concave plate bodies 18, and the other ends of the two pairs of concave plate bodies 18 are respectively hinged with fourth rectangular plate bodies 10.

When the biological detection experiment is carried out, when the instruments such as a test tube rack and the like are needed, the first rectangular fixing block 11 on the upper wall surface of the first rectangular plate body 1 can be taken out through the second rectangular fixing block 12, the pair of third rectangular fixing blocks 17 are inserted into the first rectangular groove, the test tube rack is placed on the fifth rectangular plate body 16 for use, the electric fan 14 in the L-shaped box body 13 can be started, the electric fan 14 can remove air through the through hole of the L-shaped box body 13, thereby blowing the upper wall surface of the first rectangular plate body 1, the air filtration can be completed through the filter screen 15 in the L-shaped box body 13, the cable can be fixed through the C-shaped rubber plate body 27 on the sixth rectangular fixing block 26 in the second chute of the side wall surface of the first rectangular plate body 1 when the electric equipment is used, at this time, the rest cables are placed in the first box body 2 so as to finish convenient storage, when the desk bodies with different heights are needed, a motor in the third box body 9 is started at this time, the rotation of a pair of bidirectional screw rods 20 is finished through the linkage of the belt bodies, at this time, two pairs of fourth rectangular fixing blocks 19 move on the pair of bidirectional screw rods 20 through the rotation of the pair of bidirectional screw rods 20, at this time, the sliding chute on the upper wall surface of the third rectangular plate body 8 assists the movement of the pair of fourth rectangular fixing blocks 19, so that the concave plate body 18 is driven to move through the movement of the fourth rectangular fixing blocks 19, the up-and-down movement of the fourth rectangular plate body 10 is finished, the fourth rectangular plate body 10 is lifted to the needed height, at this time, the movement of the third rectangular plate body 8 is finished through the universal wheels in the second T-shaped supporting column 7, at this moment, the first sliding groove on the side wall surface of the first rectangular plate body 1 can be used for moving the third rectangular plate body 8 on the side wall surfaces of the first rectangular plate body 1 through the sliding blocks, experimental waste liquid can be poured into the first rectangular plate body through the isosceles trapezoid grooves in the experimental process, the waste liquid can directly enter the second box body 5 through the first isosceles trapezoid cylinder body 23 and the second isosceles trapezoid cylinder body 24, when the second box body 5 needs to be cleaned, the second box body 5 can be moved through the first universal wheel 6, and the second box body 5 can be moved conveniently through the fourth box body 22 and the pair of L-shaped fixing blocks 25, so that the cleaning is completed.

The embodiment is further configured in that the ventilation mechanism comprises an L-shaped box 13, the L-shaped box 13 is inserted on the lower wall surface of the first rectangular plate 1, one end of the L-shaped box 13 is located on the upper wall surface of the first rectangular plate 1, a pair of first rectangular through holes are formed in two ends of the L-shaped box 13, one of the first rectangular through holes is located at the upper end of the upper wall surface of the first rectangular plate 1, an electric fan 14 is mounted in the L-shaped box 13, and a filter screen 15 is mounted at one end, close to the other first rectangular through hole, of the inner portion of the L-shaped box 13.

The electric fan 14 inside the L-shaped box 13 is started, and air can be discharged through the through holes of the L-shaped box 13 through the electric fan 14 at the moment, so that the upper wall surface of the first rectangular plate 1 is blown off, and the air filtering can be finished through the filter screen 15 inside the L-shaped box 13 at the moment.

The embodiment is further configured in that the waste liquid collecting mechanism comprises a first isosceles trapezoid cylinder 23, the first isosceles trapezoid cylinder 23 is mounted on the lower wall surface of a first circular through hole, a fourth box 22 is mounted on the lower wall surface of a first rectangular plate 1, a T-shaped groove is formed in the side wall surface of the fourth box 22, a pair of L-shaped fixing blocks 25 are movably inserted into the T-shaped groove, a pair of second box 5 is mounted on the lower wall surface of the L-shaped fixing blocks 25, two pairs of first universal wheels 6 are mounted on the lower wall surface of the second box 5, and a second isosceles trapezoid cylinder 24 is inserted into the upper wall surface of the second box 5.

In the experimental process, experimental waste liquid can be poured into the experimental waste liquid through the isosceles trapezoid grooves, at the moment, the waste liquid can directly enter the second box body 5 through the first isosceles trapezoid cylinder body 23 and the second isosceles trapezoid cylinder body 24, when the second box body 5 needs to be cleaned, the second box body 5 can be moved through the first universal wheels 6, and the second box body 5 can be conveniently moved through the fourth box body 22 and the pair of L-shaped fixing blocks 25, so that cleaning is completed.

The embodiment is further configured that the auxiliary article placement mechanism includes a first rectangular fixing block 11, a pair of first rectangular fixing blocks 11 are movably mounted in the first rectangular grooves, a pair of third rectangular grooves are formed in the upper wall surfaces of the first rectangular fixing blocks 11, second rectangular fixing blocks 12 are hinged in the third rectangular grooves, a pair of third rectangular fixing blocks 17 are movably inserted in the first rectangular grooves, and a fifth rectangular plate 16 is mounted on the upper wall surfaces of the third rectangular fixing blocks 17.

When the biological detection experiment is carried out, when instruments such as a test tube rack are needed, the first rectangular fixing block 11 on the upper wall surface of the first rectangular plate body 1 can be taken out through the second rectangular fixing block 12, the pair of third rectangular fixing blocks 17 are inserted into the first rectangular grooves, and the test tube rack is placed on the fifth rectangular plate body 16 for use.

The embodiment is further configured that, the cable collection mechanism includes a sixth rectangle fixed block 26, a plurality of sixth rectangle fixed block 26 movable mounting is inside the second spout, a plurality of C-shaped rubber plate body 27 is all installed to sixth rectangle fixed block 26 lateral wall face, install first box 2 on the lower wall face that first rectangle plate 1 lower wall face is close to the lower wall face of second spout, the circular through-hole of second has been seted up to the wall face under the first box 2, the third rectangle through-hole has been seted up to first box 2 lateral wall face, the inside lateral wall face of third rectangle through-hole articulates there is second rectangle plate 3.

When the electric equipment is used, the cables are fixed through the C-shaped rubber plate body 27 on the sixth rectangular fixing block 26 inside the second sliding groove on the side wall surface of the first rectangular plate body 1, and the rest cables are placed inside the first box body 2 at the moment, so that convenient storage is completed.

The detailed connection means are known in the art, and the following mainly describes the working principle and process, and the specific work is as follows.

Examples: when the biological detection experiment is carried out, when the instruments such as a test tube rack and the like are needed, the first rectangular fixing block 11 on the upper wall surface of the first rectangular plate body 1 can be taken out through the second rectangular fixing block 12, the pair of third rectangular fixing blocks 17 are inserted into the first rectangular groove, the test tube rack is placed on the fifth rectangular plate body 16 for use, the electric fan 14 in the L-shaped box body 13 can be started, the electric fan 14 can remove air through the through hole of the L-shaped box body 13, thereby blowing the upper wall surface of the first rectangular plate body 1, the air filtration can be completed through the filter screen 15 in the L-shaped box body 13, the cable can be fixed through the C-shaped rubber plate body 27 on the sixth rectangular fixing block 26 in the second chute of the side wall surface of the first rectangular plate body 1 when the electric equipment is used, at this time, the rest cables are placed in the first box body 2 so as to finish convenient storage, when the desk bodies with different heights are needed, a motor in the third box body 9 is started at this time, the rotation of a pair of bidirectional screw rods 20 is finished through the linkage of the belt bodies, at this time, two pairs of fourth rectangular fixing blocks 19 move on the pair of bidirectional screw rods 20 through the rotation of the pair of bidirectional screw rods 20, at this time, the sliding chute on the upper wall surface of the third rectangular plate body 8 assists the movement of the pair of fourth rectangular fixing blocks 19, so that the concave plate body 18 is driven to move through the movement of the fourth rectangular fixing blocks 19, the up-and-down movement of the fourth rectangular plate body 10 is finished, the fourth rectangular plate body 10 is lifted to the needed height, at this time, the movement of the third rectangular plate body 8 is finished through the universal wheels in the second T-shaped supporting column 7, at this moment, the first sliding groove on the side wall surface of the first rectangular plate body 1 can be used for moving the third rectangular plate body 8 on the side wall surfaces of the first rectangular plate body 1 through the sliding blocks, experimental waste liquid can be poured into the first rectangular plate body through the isosceles trapezoid grooves in the experimental process, the waste liquid can directly enter the second box body 5 through the first isosceles trapezoid cylinder body 23 and the second isosceles trapezoid cylinder body 24, when the second box body 5 needs to be cleaned, the second box body 5 can be moved through the first universal wheel 6, and the second box body 5 can be moved conveniently through the fourth box body 22 and the pair of L-shaped fixing blocks 25, so that the cleaning is completed.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Claims (5)

1. The biological detection experiment table comprises a first rectangular plate body (1), and is characterized in that a pair of first T-shaped supporting columns (4) are arranged on the lower wall surface of the first rectangular plate body (1), a pair of ventilation mechanisms are inserted into the upper wall surface of the first rectangular plate body (1), first sliding grooves and a pair of first sliding groove internally mounted auxiliary table body mechanisms are respectively arranged on two adjacent side wall surfaces of the first rectangular plate body (1), an isosceles trapezoid groove is arranged on the upper wall surface of the first rectangular plate body (1), a first round through hole is arranged on the lower wall surface of the isosceles trapezoid groove, a waste liquid collecting mechanism is arranged on the lower wall surface of the first rectangular plate body (1), a pair of first rectangular grooves and a pair of first rectangular groove internally mounted article auxiliary placing mechanisms are arranged on one side wall surface of the first rectangular plate body (1), a second sliding groove internally mounted wire collecting mechanism is arranged on the other side wall surface of the first rectangular plate body (1), a first sliding block (8) is arranged on the upper wall surface of the first rectangular plate body, a pair of first rectangular plate body (8) and a pair of first sliding blocks (7) are arranged on the side wall surface of the first rectangular plate body (8), a pair of first sliding blocks (8) are arranged on the side wall surface of the first rectangular plate body (8), a pair of first sliding blocks (7) are arranged on the side of first rectangular plate body (8) and a pair of first sliding blocks are arranged on the side wall surface of the first sliding blocks, the motor is mounted in the third box body (9), a first bearing is inserted in the inner side wall surface of the third box body (9), a pair of fifth rectangular fixing blocks (21) are mounted on the other end upper wall surface of the third rectangular plate body (8), a pair of second bearings are inserted in the side wall surfaces of the fifth rectangular fixing blocks (21), a pair of bidirectional screw rods (20) are respectively inserted in the motor driving end, the first bearing and the pair of second bearings, a pair of bidirectional screw rods (20) are located in the inner side wall surface of the third box body (9), a pair of fourth rectangular fixing blocks (19) are sleeved on the upper wall surface of the bidirectional screw rods (20), a pair of third sliding grooves are formed in the upper wall surface of the third rectangular plate body (8), two pairs of fourth rectangular fixing blocks (19) are respectively mounted in the inner side wall surfaces of the pair of third sliding grooves, two pairs of fourth rectangular fixing blocks (19) are hinged with a pair of concave plates (18), and the other ends of the fourth rectangular plates (18) are hinged with one another end of the fourth rectangular plates (10).

2. The biological detection experiment table according to claim 1, wherein the ventilation mechanism comprises an L-shaped box body (13), the L-shaped box body (13) is inserted on the lower wall surface of the first rectangular plate body (1), one end of the L-shaped box body (13) is located on the upper wall surface of the first rectangular plate body (1), a pair of first rectangular through holes are formed in two ends of the L-shaped box body (13), one of the first rectangular through holes is located at the upper end of the upper wall surface of the first rectangular plate body (1), an electric fan (14) is mounted in the L-shaped box body (13), and a filter screen (15) is mounted at one end, close to the other first rectangular through hole, of the L-shaped box body (13).

3. The biological detection experiment table according to claim 1, wherein the waste liquid collecting mechanism comprises a first isosceles trapezoid cylinder (23), the first isosceles trapezoid cylinder (23) is installed on the lower wall surface of the first circular through hole, a fourth box (22) is installed on the lower wall surface of the first rectangular plate (1), a T-shaped groove is formed in the side wall surface of the fourth box (22), a pair of L-shaped fixing blocks (25) are movably inserted into the T-shaped groove, a second box (5) is installed on the lower wall surface of the pair of L-shaped fixing blocks (25), two pairs of first universal wheels (6) are installed on the lower wall surface of the second box (5), and a second isosceles trapezoid cylinder (24) is inserted into the upper wall surface of the second box (5).

4. The biological detection experiment table according to claim 1, wherein the article auxiliary placement mechanism comprises a first rectangular fixing block (11), a pair of first rectangular fixing blocks (11) are movably mounted in the first rectangular grooves, third rectangular grooves are formed in the upper wall surfaces of the first rectangular fixing blocks (11), second rectangular fixing blocks (12) are hinged in the third rectangular grooves, a pair of third rectangular fixing blocks (17) are movably inserted in the first rectangular grooves, and a fifth rectangular plate body (16) is mounted on the upper wall surfaces of the third rectangular fixing blocks (17).

5. The biological detection experiment table according to claim 1, wherein the cable collection mechanism comprises a sixth rectangular fixing block (26), a plurality of the sixth rectangular fixing blocks (26) are movably mounted inside the second sliding groove, a plurality of the side wall surfaces of the sixth rectangular fixing blocks (26) are provided with C-shaped rubber plate bodies (27), a first box body (2) is mounted on the lower wall surface, close to the second sliding groove, of the lower wall surface of the first rectangular plate body (1), a second circular through hole is formed in the lower wall surface of the first box body (2), a third rectangular through hole is formed in the side wall surface of the first box body (2), and a second rectangular plate body (3) is hinged to the inner side wall surface of the third rectangular through hole.