CN116395243A

CN116395243A - Chemotherapeutic drug gene detection kit with built-in multiple accommodating cavities

Info

Publication number: CN116395243A
Application number: CN202310461861.9A
Authority: CN
Inventors: 卢晓萍; 操利超; 马良; 陈泓; 谢金华
Original assignee: Shenzhen Nuclear Huaxi Medical Laboratory
Current assignee: Shenzhen Nuclear Huaxi Medical Laboratory
Priority date: 2023-04-23
Filing date: 2023-04-23
Publication date: 2023-07-07

Abstract

The invention belongs to the technical field of gene detection, in particular to a chemotherapeutic drug gene detection kit with a plurality of built-in accommodating cavities, which comprises a kit, a supporting rod and an accommodating plate; support rods are arranged at four corners of the interior of the kit; a pair of storage plates are connected among the plurality of groups of support rods in a sliding manner; the top surface of the storage plate at the top is penetrated with a plurality of groups of first sliding grooves; a plurality of groups of second sliding grooves are formed in the position, where the first sliding grooves are formed in the top surface of the storage plate at the bottom; a pair of rubber blocks are fixedly connected to the inner side walls of the first sliding grooves; through utilizing inside four corners bracing piece supporting effect of kit, can reduce in the transportation of kit that the corner appears colliding with and cause the reagent board to receive the extrusion, simultaneously, the inside rubber block's of spout centre gripping effect cooperation No. two spouts exist, can fix the reagent board, reduce the reagent board and appear removing in the transportation, improve the stability in the transportation.

Description

Chemotherapeutic drug gene detection kit with built-in multiple accommodating cavities

Technical Field

The invention belongs to the technical field of gene detection, and particularly relates to a chemotherapeutic drug gene detection kit with a plurality of built-in accommodating cavities.

Background

The drug effect has individuation differences, and the influencing factors comprise physiological factors, pathological factors, environmental factors and genetic factors, wherein the genetic factors mainly depend on individual gene polymorphism, including single nucleotide polymorphism and copy number polymorphism, and the polymorphism can influence pharmacokinetics and pharmacodynamics through aspects of drug metabolizing enzyme, drug transport protein, drug receptor, pathogenic gene and the like, so that individuation differences of drug curative effect and toxicity are caused.

At present, chemotherapy is a common means for tumor treatment, potential diseases of a human body can be detected through gene detection, and corresponding chemotherapeutics are used according to detection results to inhibit the diffusion of cancer cells so as to carry out targeted treatment on the cancer cells. In the transportation process of the existing chemotherapeutic drug kit after reagent filling, extrusion impact can occur between each kit due to shaking of vehicles, corners of the kit are damaged, and internal reagents are polluted, so that the chemotherapeutic drug gene detection kit with the built-in multiple accommodating cavities is provided for the problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the problem that in the transportation process of the existing chemotherapeutic drug kit after reagent filling, extrusion impact occurs between the kits due to shaking of vehicles, the corners of the kit are damaged, and the internal reagent is polluted is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a chemotherapeutic drug gene detection kit with a plurality of built-in accommodating cavities, which comprises a kit, a supporting rod and an accommodating plate; support rods are arranged at four corners of the interior of the kit; a pair of storage plates are connected among the plurality of groups of support rods in a sliding manner; the top surface of the storage plate at the top is penetrated with a plurality of groups of first sliding grooves; a plurality of groups of second sliding grooves are formed in the position, where the first sliding grooves are formed in the top surface of the storage plate at the bottom; a pair of rubber blocks are fixedly connected to the inner side walls of the first sliding grooves; during operation, this step utilizes inside four corners bracing piece supporting effect of kit, can reduce in the transportation of kit that the corner appears colliding with and causes the reagent board to receive the extrusion, simultaneously, the inside rubber block's of spout centre gripping effect cooperation No. two spouts exist, can fix the reagent board, reduces the reagent board and appears removing in the transportation, improves the stability in the transportation.

Preferably, a pair of rubber blocks are correspondingly provided with a third chute; the side wall of the third chute is rotationally connected with a first rotating shaft; a plurality of groups of rubber plates are fixedly connected to the corresponding side walls of the rubber blocks below the third sliding chute; during operation, the third sliding groove formed in the side wall of the rubber block is utilized, the rotatability of the first rotating shaft is matched, the moving track of the reagent plate can be guided, the reagent plate can smoothly enter the third sliding groove, meanwhile, the plurality of groups of rubber plates are fixed on the side wall of the reagent plate, the limiting effect on the reagent plate can be improved, and the moving condition of the reagent plate is reduced.

Preferably, the side walls of the pair of support rods are hinged with a first connecting plate; the pair of support rods are connected through a plurality of groups of first connecting plates; the first connecting plates are arranged in a multi-section mode, and the front part of each section of the first connecting plates is connected through a second rotating shaft; the corresponding side walls of the first connecting plate are hinged with a second connecting plate; the end parts of the second connecting plates are connected through a second rotating shaft; during operation, this step utilizes the connecting plate No. one and No. two connecting plates of installation between the bracing piece to the kit lateral wall can carry out the secondary in the transportation to reduce the fold that causes the kit under the outside collision influence, improve the stability of the inside reagent board of kit in the transportation, reduce the emergence of damaged condition, the rotatability of No. two pivots can keep the fixed effect to the kit lateral wall when facing not the kit of equidimension simultaneously, increases adaptability.

Preferably, a plurality of groups of limiting plates are fixedly connected to the side walls, close to the kit, of the first connecting plates; the side walls of each group of limiting plates are fixedly connected with anti-slip pads; during operation, the limiting plate and the anti-slip pad which are arranged on the side wall of the first connecting plate are utilized in the step, so that the friction effect on the kit can be improved after the kit is contacted, the sliding condition between the kit and the anti-slip pad is reduced, and the stability of the kit in the transportation process is improved.

Preferably, the side wall of the first connecting plate is fixedly connected with a cleaning plate between each pair of limiting plates; the end parts of the cleaning plates are in a forked shape, and the two forked ends are respectively attached to the surfaces of the anti-slip pads; the center of the forked end part of the cleaning plate is fixedly connected with an extrusion plate; during operation, the squeezing plate is contacted with the side wall of the kit, the cleaning plate can be driven to move, the cleaning degree of the surface of the anti-slip pad is increased, so that better friction force is obtained when the kit is contacted with the anti-slip pad, sliding between the kit and the anti-slip pad is reduced, and the supporting effect on the kit is improved.

Preferably, the bottom ends of the rubber plates are provided with a plurality of groups of fourth sliding grooves; a supporting plate is connected between the side wall of the bottom of the fourth chute and the side wall of the rubber block; during operation, the blocking effect of the supporting plate on the rubber plate is utilized to pull the rubber plate, so that the moving track of the rubber plate can be reduced, the movement of the reagent plate is limited, the movement of the reagent plate is reduced, and the stability is improved.

Preferably, the side walls of the plurality of groups of the fourth sliding grooves are fixedly connected with rubber thorns; the rubber thorn end part is bent towards a position far away from the supporting plate; during operation, the extra friction force provided by the rubber thorns is utilized in the step, so that the moving distance of the reagent plate during upward movement can be reduced, and the stability of the reagent plate in the first chute is improved.

Preferably, the end part of the extrusion plate far away from the limiting plate is fixedly connected with a fixing plate; during operation, the self friction force of the fixing plate is utilized in the step, and a larger contact area can be provided when the extrusion plate is contacted with the reagent box, so that the extrusion plate is driven to move.

Preferably, the magnet is arranged in the plurality of groups of support rods and at four corners of the kit, and the two magnets attract each other; when the kit is in operation, the magnetic attraction effect of the support rod and the kit can limit the position of the support rod when the support rod and the kit are in contact, the fixing effect of the support rod and the kit is improved, and the offset is reduced.

The bottoms of the second groups of sliding grooves are provided with sponges; during operation, the sponge of No. two spout bottoms installation is utilized to this step, can increase the fixed effect to the test tube, simultaneously to the buffering of vibrations, reduces the contact of test tube and No. two inside lateral walls of spout, improves fixed effect.

The beneficial effects of the invention are as follows:

1. the invention provides a chemotherapeutic drug gene detection kit with a plurality of accommodating cavities, which can reduce the extrusion of a reagent plate caused by collision of corners in the transportation process of the kit by utilizing the supporting effect of four corner supporting rods in the kit, and can fix the reagent plate by matching the clamping effect of a rubber block in a first chute with the existence of a second chute, thereby reducing the movement of the reagent plate in the transportation process and improving the stability in the transportation process.

2. The invention provides a chemotherapeutic drug gene detection kit with a plurality of built-in accommodating cavities, which can guide a moving track of a reagent plate by utilizing the rotatability of a first rotating shaft through a third sliding groove formed in the side wall of a rubber block, and meanwhile, a plurality of groups of rubber plates fix the side wall of the reagent plate, so that the limiting effect on the reagent plate can be improved, and the moving condition of the reagent plate is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

fig. 1 is a perspective view of a first embodiment;

fig. 2 is a perspective view of a receiving plate according to the first embodiment;

FIG. 3 is a perspective view of a rubber block according to the first embodiment;

fig. 4 is a perspective view of a first connecting plate of the first embodiment;

FIG. 5 is an enlarged view at A of FIG. 4;

FIG. 6 is a cross-sectional view of a rubber block of the first embodiment;

fig. 7 is a perspective view of a second embodiment;

legend description:

1. a kit; 11. a support rod; 12. a storage plate; 13. a first chute; 14. a second chute; 15. a rubber block; 2. a rubber plate; 21. a first rotating shaft; 22. a third chute; 3. a first connecting plate; 31. a second rotating shaft; 32. a second connecting plate; 4. a limiting plate; 41. an anti-slip pad; 5. a cleaning plate; 51. an extrusion plate; 6. a fourth chute; 61. a support plate; 7. rubber thorns; 8. a fixing plate; 9. an anti-skid block.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-6, a chemotherapeutic drug gene detection kit with a built-in multi-accommodating cavity comprises a kit 1, a supporting rod 11 and an accommodating plate 12; the four corners of the interior of the kit 1 are respectively provided with a support rod 11; a pair of storage plates 12 are connected between the plurality of groups of support rods 11 in a sliding manner; the top surface of the storage plate 12 at the top is penetrated with a plurality of groups of first sliding grooves 13; a plurality of groups of second sliding grooves 14 are formed in the position, where the first sliding groove 13 is formed in the top surface of the storage plate 12 at the bottom; a pair of rubber blocks 15 are fixedly connected to the inner side walls of the first sliding grooves 13; during operation, after the staff uses the reagent board to gather the sample, can put into the spout 13 inside, at this moment, the rubber piece 15 of spout 13 internally mounted can extrude the reagent board lateral wall, fix the reagent board at the cooperation spout 14 No. two, in the transportation that follows, take in board 12 all around bracing piece 11 can laminate on reagent box 1 four corners, support reagent box 1 four corners, this step utilizes reagent box 1 inside four corners bracing piece 11 to support the effect, can reduce in the transportation of reagent box 1, the corner appears colliding with and causes the reagent board to receive the extrusion, simultaneously, the centre gripping effect of spout 13 inside rubber piece 15 cooperates the existence of spout 14 No. two, can fix the reagent board, reduce the reagent board and appear removing in the transportation, stability in the improvement transportation.

A third chute 22 is correspondingly formed in the pair of rubber blocks 15; the side wall of the third chute 22 is rotatably connected with a first rotating shaft 21; a plurality of groups of rubber plates 2 are fixedly connected to the corresponding side walls of the rubber blocks 15 below the third chute 22; during operation, after the staff gathers the sample, can insert the reagent board between a pair of rubber piece 15, at this moment, no. three spout 22 that set up on the rubber piece 15 lateral wall utilizes self inclination can guide the reagent board for the reagent board gets into smoothly, no. one spout 22 inclination can be cooperated to the rotatability of pivot 21 simultaneously, after getting into between a pair of rubber piece 15 smoothly, the rubber board 2 can contact fixed to the reagent board, this step utilizes No. three spout 22 that set up on the rubber piece 15 lateral wall, the rotatability of pivot 21 is cooperated, can guide the reagent board moving track, make it get into smoothly, the multiunit rubber board 2 is to the fixed of reagent board lateral wall simultaneously, can increase the restriction effect to the reagent board, reduce the condition that the reagent board appears moving.

The side walls of the pair of support rods 11 are hinged with a first connecting plate 3; the pair of support rods 11 are connected through a plurality of groups of first connecting plates 3; the first connecting plates 3 are arranged in a multi-section mode, and each section of the first connecting plates 3 are connected through a second rotating shaft 31; a second connecting plate 32 is hinged to the corresponding side wall of the first connecting plate 3; the end parts of the second connecting plates 32 are connected through a second rotating shaft 31; during operation, after staff places bracing piece 11 in the inside four corners of kit 1, every is to extending under the rotatable condition of No. one connecting plate 3 of installation between the bracing piece 11 and No. two pivot 31 contacts with the kit 1 lateral wall, carry out the secondary fixed to the kit 1 lateral wall, no. two connecting plates 32 between No. one connecting plates 3 can fill the space between No. one connecting plate 3 simultaneously, this step utilizes No. one connecting plate 3 and No. two connecting plates 32 of installation between every to bracing piece 11, can carry out the secondary reinforcement to the kit 1 lateral wall, thereby reduce the fold that causes the kit 1 under the influence of outside collision, improve the stability of the inside reagent board of kit 1 in the transportation, reduce the emergence of damage condition, the rotatability of No. two pivot 31 can keep the fixed effect to the kit 1 lateral wall when facing not kit 1 of equidimension simultaneously, increase the adaptability.

A plurality of groups of limiting plates 4 are fixedly connected to the side walls, close to the kit 1, of the first connecting plates 3; the side wall of each group of limiting plates 4 is fixedly connected with an anti-slip pad 41; during operation, when the side wall of the first connecting plate 3 is contacted with the side wall of the kit 1, the limit plate 4 arranged on the side wall of the first connecting plate 3 is matched with the anti-slip pad 41 to be contacted with the side wall of the kit 1, at the moment, the anti-slip pad 41 contacts with the kit 1 by utilizing self friction, and the step can improve the friction effect on the kit 1 after contacting with the kit 1 by utilizing the limit plate 4 arranged on the side wall of the first connecting plate 3 and the anti-slip pad 41, so that the sliding condition between the kit 1 and the anti-slip pad 41 is reduced, and the stability of the kit 1 in the transportation process is improved.

The side walls of the first connecting plate 3 are fixedly connected with cleaning plates 5 between each pair of limiting plates 4; the end part of the cleaning plate 5 is in a forked shape, and the two forked ends are respectively attached to the surface of the anti-slip pad 41; the center of the forked end part of the cleaning plate 5 is fixedly connected with an extrusion plate 51; during operation, when the anti-slip pad 41 contacts with the side wall inside the kit 1, the extrusion plate 51 can drive to move under the extrusion action of the side wall of the kit 1, at this time, along with the movement of the cleaning plate 5, the forked side wall at the end part of the cleaning plate 5 can contact with the surface of the anti-slip pad 41 to scrape dust on the surface of the anti-slip pad 41, the step utilizes the contact of the extrusion plate 51 with the side wall of the kit 1 to drive the cleaning plate 5 to move, so that the cleanliness of the surface of the anti-slip pad 41 is increased, and further, better friction force is obtained when the kit 1 contacts with the anti-slip pad 41, sliding between the kit 1 and the anti-slip pad 41 is reduced, and the supporting effect on the kit 1 is improved.

A plurality of groups of fourth sliding grooves 6 are formed in the bottom ends of the plurality of groups of rubber plates 2; a supporting plate 61 is connected between the side wall of the bottom of the fourth chute 6 and the side wall of the rubber block 15; during operation, when the kit 1 is transported, a worker inserts the reagent plate between the pair of rubber plates 2, at this time, the supporting plate 61 which is arranged on the side wall of the rubber plate 2 and contacts with the side wall of the rubber block 15 limits the deformation of the rubber plate 2 by using the supporting plate 61, the reagent plate is blocked by using the rubber plate 2 when the reagent plate moves upwards, and meanwhile, the fourth chute 6 which is arranged on the ground of the rubber plate 2 can contact with the side wall of the reagent plate, and the blocking effect of the supporting plate 61 on the rubber plate 2 is utilized to pull the effect, so that the moving track of the rubber plate 2 can be reduced, the movement of the reagent plate is limited, the movement of the reagent plate is reduced, and the stability is improved.

The side walls of the plurality of groups of fourth sliding grooves 6 are fixedly connected with rubber thorns 7; the end of the rubber thorn 7 is bent to a position far away from the supporting plate 61; during operation, in the transportation process of the kit 1, when the kit faces vibration, the reagent plate is affected by vibration and can move upwards, at the moment, the side wall of the rubber thorn 7 can contact and rub with the side wall of the reagent plate to block the upward movement of the reagent plate, and the step utilizes the additional friction force provided by the rubber thorn 7, so that the movement distance of the reagent plate in the upward movement process can be reduced, and the stability of the reagent plate in the first chute 13 is improved.

The end part of the extrusion plate 51, which is far away from the limiting plate 4, is fixedly connected with a fixing plate 8; during operation, when the side wall of the extrusion plate 51 is contacted with the side wall of the kit 1, the contact area of the end part of the extrusion plate 51 can be increased by the aid of the fixing plate 8, so that the extrusion plate 51 is driven to move smoothly, the cleaning plate 5 is extruded, and the step can provide a larger contact area when the extrusion plate 51 is contacted with the kit 1 by utilizing the self friction force of the fixing plate 8, so that the extrusion plate 51 is driven to move.

Magnets are arranged in the supporting rods 11 and at four corners of the kit 1, and the two magnets attract each other; during operation, when the supporting rod 11 contacts with the kit 1, the internal magnet drives the supporting rod 11 to contact with the kit 1 through the magnetic attraction effect, the position is limited, the magnetic attraction effect of the supporting rod 11 and the kit 1 can limit the position of the supporting rod 11 when the supporting rod 11 contacts with the kit 1, the fixing effect of the supporting rod 11 and the kit is improved, and the offset is reduced.

The bottoms of the second groups of sliding grooves 14 are provided with sponges; during operation, in the filling process of the test tube, the sponge installed at the bottom of the second chute 14 can be contacted with the bottom of the test tube, the step utilizes the sponge installed at the bottom of the second chute 14, the fixing effect on the test tube can be increased, meanwhile, vibration is buffered, the contact between the test tube and the inner side wall of the second chute 14 is reduced, and the fixing effect is improved.

Example two

Referring to fig. 7, in a first comparative example, as another embodiment of the present invention, a plurality of sets of anti-skid blocks 9 are fixedly connected to the side walls of two sides of the kit 1; during operation, when the staff carries the kit 1 by hand, the anti-skid blocks 9 arranged on the side wall of the kit 1 can be contacted with the hands of the staff to generate additional friction force, and the step utilizes the additional arrangement of the anti-skid blocks 9 on the side wall of the kit 1 to provide additional friction force when the staff carries the kit 1, so that the situation of slipping and loosening is reduced.

Working principle: after a worker collects a sample by using a reagent plate, the sample can be placed in the first chute 13, at this time, the rubber block 15 installed in the first chute 13 can extrude the side wall of the reagent plate, the reagent plate is fixed by matching with the second chute 14, in the subsequent transportation process, the support rods 11 around the storage plate 12 can be attached to the four corners of the reagent box 1 to support the four corners of the reagent box 1, after the worker collects the sample, the reagent plate can be inserted between the pair of rubber blocks 15, at this time, the third chute 22 formed on the side wall of the rubber block 15 can guide the reagent plate by utilizing the self inclination angle, so that the reagent plate can smoothly enter, at the same time, the rotatability of the first rotating shaft 21 can be matched with the inclination angle of the third chute 22, after smoothly entering between the pair of rubber blocks 15, the rubber plate 2 can contact and fix the reagent plate, after the staff places the support rods 11 at four corners inside the reagent box 1, the first connecting plate 3 installed between each pair of support rods 11 extends under the rotatable condition of the second rotating shaft 31 and contacts with the side wall of the reagent box 1, the side wall of the reagent box 1 is secondarily fixed, meanwhile, the second connecting plate 32 between the first connecting plates 3 can fill the gap between the first connecting plates 3, when the side wall of the first connecting plate 3 contacts with the side wall of the reagent box 1, the limiting plate 4 installed on the side wall of the first connecting plate 3 is matched with the anti-slip pad 41 to contact with the side wall of the reagent box 1, at the moment, the anti-slip pad 41 contacts with the reagent box 1 by utilizing self friction, when the anti-slip pad 41 contacts with the side wall inside the reagent box 1, the extrusion plate 51 can drive the side wall of the reagent box 1 to move under the extrusion action of the side wall of the reagent box 1, at the moment, along with the movement of the cleaning plate 5, the forked side wall at the end part of the cleaning plate 5 can contact with the surface of the anti-slip pad 41, dust existing on the surface of the anti-slip pad 41 is scraped, when the reagent kit 1 is transported, a worker inserts the reagent plate between the pair of rubber plates 2, at this time, the supporting plate 61 installed on the side wall of the rubber plate 2 and contacting with the side wall of the rubber block 15 limits the deformation of the rubber plate 2 by using the supporting plate 61, when the reagent plate moves upwards, the reagent plate is blocked by using the rubber plate 2, meanwhile, the fourth sliding groove 6 formed in the ground of the rubber plate 2 can contact with the side wall of the reagent plate, in the transportation process of the reagent kit 1, the reagent plate can move upwards under the influence of vibration when the reagent plate faces vibration, at this time, the side wall of the rubber thorn 7 can contact with the side wall of the reagent plate to block the upward movement of the reagent plate, and when the side wall of the pressing plate 51 contacts with the side wall of the reagent kit 1, the contact area of the end part of the pressing plate 51 can be increased by the existence of the fixing plate 8, so that the pressing plate 51 can be driven to move smoothly, and the cleaning plate 5 can generate a pressing effect.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims

1. A chemotherapeutic drug gene detection kit with a plurality of accommodating cavities comprises a kit (1), a supporting rod (11) and a containing plate (12); support rods (11) are arranged at four corners of the interior of the kit (1); a pair of storage plates (12) are connected between the plurality of groups of support rods (11) in a sliding manner; the method is characterized in that: the top surface of the storage plate (12) at the top is penetrated with a plurality of groups of first sliding grooves (13); a plurality of groups of second sliding grooves (14) are formed in the position, where the first sliding groove (13) is formed in the top surface of the storage plate (12) at the bottom; the inner side walls of the first sliding grooves (13) are fixedly connected with a pair of rubber blocks (15).

2. A chemotherapeutic agent gene testing kit having a built-in multi-containment chamber according to claim 1, wherein: a pair of rubber blocks (15) are correspondingly provided with a third sliding chute (22); the side wall of the third chute (22) is rotationally connected with a first rotating shaft (21); a plurality of groups of rubber plates (2) are fixedly connected below the third sliding chute (22) on the corresponding side walls of the rubber blocks (15).

3. A chemotherapeutic agent gene testing kit having a built-in multi-containment chamber according to claim 2, wherein: the side walls of the pair of support rods (11) are hinged with a first connecting plate (3); the pair of support rods (11) are connected through a plurality of groups of first connecting plates (3); the first connecting plates (3) are arranged in a multi-section mode, and each section of the first connecting plates (3) is connected through a second rotating shaft (31) before; the corresponding side walls of the first connecting plates (3) are hinged with second connecting plates (32); the end parts of the second connecting plates (32) are connected through a second rotating shaft (31).

4. A chemotherapeutic agent gene testing kit having a built-in multi-containment chamber according to claim 3, wherein: a plurality of groups of limiting plates (4) are fixedly connected to the side walls, close to the kit (1), of the first connecting plates (3); and the side walls of each group of limiting plates (4) are fixedly connected with anti-slip pads (41).

5. The chemotherapeutic agent gene testing kit having a built-in multi-compartment chamber of claim 4 wherein: the side walls of the first connecting plate (3) are fixedly connected with cleaning plates (5) between each pair of limiting plates (4); the end parts of the cleaning plates (5) are in a forked shape, and the two forked ends are respectively attached to the surfaces of the anti-slip pads (41); the center of the forked end part of the cleaning plate (5) is fixedly connected with a squeezing plate (51).

6. The chemotherapeutic agent gene testing kit having a built-in multi-compartment chamber of claim 5 wherein: a plurality of groups of fourth sliding grooves (6) are formed in the bottom ends of the plurality of groups of rubber plates (2); a supporting plate (61) is connected between the side wall of the bottom of the fourth chute (6) and the side wall of the rubber block (15).

7. The chemotherapeutic agent gene testing kit having a built-in multi-compartment chamber of claim 6 wherein: the side walls of the plurality of groups of fourth sliding grooves (6) are fixedly connected with rubber thorns (7); the end of the rubber thorn (7) is bent to a position far away from the supporting plate (61).

8. A chemotherapeutic agent gene testing kit having a built-in multi-containment chamber according to claim 7, wherein: the end part of the extrusion plate (51) far away from the limiting plate (4) is fixedly connected with a fixing plate (8).

9. A chemotherapeutic agent gene testing kit having a built-in multi-containment chamber according to claim 8, wherein: magnets are arranged in the supporting rods (11) and at four corners of the kit (1), and the two magnets attract each other.

10. A chemotherapeutic agent gene testing kit having a built-in multi-containment chamber according to claim 9, wherein: the bottoms of the second sliding grooves (14) are provided with sponges.