CN211871929U

CN211871929U - Detection card box with isolation effect for nucleic acid detection experiment

Info

Publication number: CN211871929U
Application number: CN201921908794.6U
Authority: CN
Inventors: 吴坚; 钱程
Original assignee: Zhejiang University ZJU
Current assignee: Zhejiang University ZJU
Priority date: 2019-11-07
Filing date: 2019-11-07
Publication date: 2020-11-06
Anticipated expiration: 2029-11-07

Abstract

The utility model discloses a detection card box that is used for nucleic acid testing experiment to have an isolation effect. The upper end and the lower end of the shell are provided with an upper cover and a base, and a sealed space is formed inside the shell; the upper cover surface is provided with a through groove, and an elastic film, a filter element or a silica gel column is hermetically embedded in the through groove to isolate the inner space and the outer space; the base is provided with a hole and is provided with a reaction tube; the lower end of the movable rod body is arranged in a central through hole of the upper cover, and the upper end of the movable rod body penetrates through the upper cover to be connected with the mechanical arm; the movable rod body is provided with an inner pipe hole, and the upper end of the movable rod body is connected with the liquid transfer pump; the bottom end of the movable rod body is provided with a hole and is provided with a suction head; the cross-shaped bulge of the rod body of the movable rod body is embedded in the cross-shaped groove of the upper cover to form a cross-shaped sleeve lock structure; the lower end of the suction head extends into the reaction tube, and the upper end of the suction head is communicated with the tube hole in the movable rod body. The utility model discloses detection card box can realize molecular biology experiment operation such as nucleic acid detection, accomplishes in being in inclosed environment, effectively avoids the infection scheduling problem of pathogenic microorganism or biomolecule etc. in the leakage and experimenter of testing process, uses extensively.

Description

Detection card box with isolation effect for nucleic acid detection experiment

Technical Field

The utility model relates to a detect card box, concretely relates to a detect card box and supporting device that have an isolation effect for nucleic acid testing experiment is applicable to biochemical detection and analysis, belongs to analytical chemistry, medical science detection area.

Background

Biochemical detection requires many steps and is generally performed by professionals. Taking the example of molecular detection based on PCR nucleic acid amplification, the whole process includes the steps of nucleic acid extraction, amplification, detection, etc. In these processes, many solutions and reagents are involved, many pipetting steps are involved, and the pipetting steps are complicated and can only be performed by specially trained personnel. Meanwhile, if the operations are performed in an open environment, the leakage of nucleic acid and aerosol pollution are avoided, and the accuracy of the experimental result is greatly interfered.

Currently, some devices are available on the market to integrate sample preparation into experimental testing. Such as the GeneXpert series by the company Cepheid. However, these devices and kits are complex in structure, expensive in price and low in universality. Especially in underdeveloped areas and basic units, the reliability of the detection result is ensured and the equipment cost is borne. Thus, there is a lack in the art of a multi-purpose test cartridge or device having some isolation effect.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the background technology, the utility model discloses a multipurpose detection card box with isolation effect has been developed for biochemical detection, especially molecular detection, have very great significance and effect.

The utility model adopts the technical proposal that:

the utility model comprises an upper cover, a movable rod body, a connecting pipeline, a suction head, a shell, a base and a reaction tube; the shell is of a cylinder structure, and an upper cover and a base are respectively and hermetically arranged in the upper end and the lower end of the cylinder of the shell, so that an inner sealed space of the detection card box is formed in the shell; the surface of the upper cover is provided with a through groove, an elastic film, a filter element or a silica gel column is hermetically embedded in the through groove, and the inner space and the outer space of the detection card box are isolated through the elastic film, the filter element or the silica gel column; a plurality of through holes are formed in the circumference of the base and are used as base reaction tube embedding holes, and reaction tubes are placed in the base reaction tube embedding holes and are sealed; the center of the upper cover is provided with a central through hole, the lower end of the movable rod body is arranged in the central through hole, the upper end of the movable rod body passes through the central through hole of the upper cover and then extends out, and the part of the upper end of the movable rod body extending out of the upper cover is connected with an external mechanical arm or other rotating devices; an inner tube hole which is communicated up and down is formed in the center of the moving rod body, the upper end of the inner tube hole of the moving rod body is used as a tube outlet, and the tube outlet is connected and matched with an output pipeline of an external liquid displacement pump; an annular groove is formed in the middle of the movable rod body in the central through hole of the upper cover, a sealing ring is arranged between the annular groove and the inner wall of the central through hole of the upper cover, and the movable rod body is sleeved in the central through hole of the upper cover through the sealing ring to form sealing connection; the bottom end of the movable rod body in the inner sealed space is fixedly provided with a cam-shaped block, the convex end of the cam-shaped block is provided with a suction head embedding hole, and a suction head is arranged at the suction head embedding hole; the outer peripheral surface of the moving rod body in the inner sealed space and above the cam-shaped block is provided with a rod body cross bulge, the rod body cross bulge is formed by arranging four lugs at intervals along the same circumference of the outer peripheral surface of the moving rod body, a cylindrical lug is fixedly arranged at the center of the bottom surface of the upper cover, a cross-shaped groove is formed in the bottom surface of the cylindrical lug, and the rod body cross bulge is embedded in the cross-shaped groove to form a cross-shaped sleeve locking structure; the lower end of the suction head extends into the reaction tube, and the upper end of the suction head is communicated with the lower end of the tube hole in the movable rod body through a connecting pipeline.

The utility model discloses a small-size device is used for nucleic acid extraction, amplification and detection for the convenient completion in less confined card box environment of process that nucleic acid extraction, amplification and detected, and can not pollute.

The middle part of the upper end of the movable rod body extending out of the upper cover is provided with a locking lantern ring, and the locking lantern ring is used for locking the movable rod body so as to fix the movable rod body at a specific height.

The locking collar comprises a U-shaped piece and locking through holes formed in two ends of the U-shaped piece, the locking through holes are used for inserting bolts, and the bolts penetrate through the locking through holes in the two ends of the U-shaped piece and then are locked by connecting nuts, so that the locking collar is hooped on the movable rod body.

The inner parts of the upper end and the lower end of the shell cylinder are provided with internal threads, the outer peripheral surface of the upper cover is provided with upper cover external threads, and the upper cover external threads are in threaded connection with the internal threads at the upper end of the shell cylinder in a matching manner, so that the upper end of the shell cylinder and the upper cover are hermetically installed; the outer peripheral face of the base is provided with base external threads, and the base external threads are in threaded connection with the internal threads at the lower end of the shell barrel in a matching mode, so that the lower end of the shell barrel and the base are installed in a sealing mode.

The center of the top end face of the upper cover is provided with an upper cover rotating handle, and the upper cover rotating handle is used for being manually held by a person to rotate to drive the upper cover to be installed.

The base bottom end face center be equipped with the rotatory handle of base, the rotatory handle of base is used for the manual rotation of holding of people to drive the base installation.

The materials of each component of the utility model can both bear the reaction temperature of 95 ℃ without deformation or fusion.

The utility model has the advantages that:

the utility model discloses the complete step that detection card box can realize sample nucleic acid extraction, amplification and amplicon and detect, whole process goes on in relative confined card box simultaneously, that is to say at whole operation in-process, and the nucleic acid composition in the detection card box is sealed in the card box, can not spread to the surrounding environment to detect the card box and directly abandon the processing after detecting the end, thereby avoided the pollution that the nucleic acid in the detection sample probably caused the environment. The whole device has low cost and multiple functions, and is not only suitable for nucleic acid detection but also can be used for other conventional molecular biology detection.

Detection card box with keep apart effect can realize including but not limited to the nucleic acid extraction from target pathogen, amplify, detect etc. molecular biology experiment operation. The operations can be completed in a closed environment, and the method is suitable for automatic device control. The utility model discloses can effectively avoid pathogenic microorganism or biomolecule etc. in the leakage of testing process and experimenter's infection scheduling problem.

Furthermore, the detection card box with isolation effect described in the present invention not only aims at nucleic acid amplification detection, but also can be applied to other molecular biology detection experiments with similar operation requirements.

Drawings

FIG. 1: detecting the overall appearance of the card box;

FIG. 2: the structure diagram of the upper cover of the detection card box;

fig. 2 (a): a perspective view of the upper cover of the detection card box;

fig. 2 (b): a top view of the upper cover of the detection card box;

fig. 2 (c): a bottom view of the upper cover of the detection card box;

FIG. 3: detecting the structure diagram of the base of the card box;

fig. 3 (a): a top view of a base of the detection card box;

fig. 3 (b): a side view of the base of the detection card box;

FIG. 4: detecting a movable rod structure diagram of the card box;

fig. 4 (a): detecting the moving rod body perspective view of the card box;

fig. 4 (b): a top view of a movable rod body of the detection card box;

FIG. 5: in the examples, each reaction tube is arranged in a schematic perspective view.

In the figure: 1-upper cover, 2-snap through hole, 3-locking collar, 4-tube outlet, 5-upper cover external thread, 6-cross sleeve lock structure, 7-moving rod, 8-connecting tube, 9-suction head, 10-shell, 11-internal thread, 12-base, 13-reaction tube, 14-base reaction tube insert hole, 15-suction head insert hole, 16-base rotating handle, 17-base reaction tube insert hole, 18-base external thread, 19-rod cross protrusion, 20-through groove, 21-annular groove, 22-upper cover rotating handle.

Detailed Description

The invention will be further explained with reference to specific embodiments and the attached drawings. The following examples are provided only for illustrating the present invention and are not intended to limit the scope of the present invention.

As shown in FIG. 1, the concrete implementation comprises an upper cover 1, a movable rod body 7, a connecting pipeline 8, a suction head 9, a shell 10, a base 12 and a reaction tube 13; the shell 10 is of a cylindrical structure, and an upper cover 1 and a base 12 are respectively and hermetically mounted in the upper end and the lower end of the cylindrical structure of the shell 10, so that an inner sealed space of the detection card box is formed inside the shell 10.

As shown in fig. 2, a through groove 20 is formed on the surface of the upper cover 1, an elastic film, a filter element or a silica gel column is hermetically embedded in the through groove 20, the inner space and the outer space of the detection card box are isolated through the elastic film, the filter element or the silica gel column, and meanwhile, the gas inside and outside the detection card box is prevented from flowing so as to avoid the mutual exchange of the material components inside and outside the detection card box and prevent mutual pollution; an upper cover rotating handle 22 is further arranged at the center of the top end face of the upper cover 1, the central through hole penetrates through the upper cover rotating handle 22, and the upper cover rotating handle 22 is used for being manually held and rotated by a person to drive the upper cover 1 to be installed. A cylinder-platform type structure is provided as the upper cover rotating handle 22.

The elastic film has good flexibility and proper size, and can conveniently bulge or dent when the air pressure inside and outside the card box changes, thereby maintaining the air pressure balance inside and outside the card box. Such a gas pressure balance is of great importance for ensuring pipetting operations and the like in cartridges due to changes in gas volume. And also other operation steps which may bring about a change in the air pressure in the enclosed space. The elastic membrane has enough flexibility and size, so that the elastic membrane has good flexibility and quick response when the air pressure inside and outside the card box changes.

When the filter element or silica gel column is placed, the filter device can be used for communicating the air inside and outside the card box, so that the balance of the air pressure inside and outside the card box is ensured, and meanwhile, DNA molecules can be prevented from passing through the filter device, thereby avoiding mutual pollution inside and outside the card box. By using the filter device, the air pressure inside and outside the card box can be kept balanced under the condition of isolating the inside and the outside of the card box.

By providing an elastic membrane in the cartridge:

on one hand, the inside and the outside of the card box can be completely isolated, nucleic acid molecules in the card box are prevented from diffusing to enter the outside of the card box, pollution is avoided, and meanwhile, the balance of air pressure inside and outside the card box can be maintained. The two designs have very important significance for ensuring that operations such as pipetting and the like based on air pressure change and the like are realized under the condition that the inside of the cartridge is closed. If such a mechanism is not provided in the cartridge, the air pressure in the cartridge is increased when a treatment such as a nucleic acid sample pretreatment, which may require heating, is performed, and the pipetting accuracy is impaired. Meanwhile, when the moving rod body moves up and down, the air pressure inside the card box can be changed. Such a change in air pressure can, on the one hand, affect pipetting accuracy.

On the other hand, varying air pressure can also cause difficulty in moving the stick body. At present, some similar utility model devices do not fully consider the balance of the internal and external air pressures of the detection card box. Here, through the setting of elasticity filter membrane, can guarantee can not lead to the difficulty of moving the liquid because of cartridge internal gas pressure is too high in the testing process. This can even lead to rupture of the device when the air pressure in the cartridge is too high. This problem can be avoided completely through the design of the filter membrane of this patent or filter core, has not only guaranteed the balance of inside and outside atmospheric pressure, can also effectively seal the card box, has prevented diffusion and the leakage of biomolecule.

As shown in fig. 3 and 5, the base 12 is provided with a plurality of through holes along the circumference as base reaction tube insertion holes 14 and 17, and a specific implementation can be provided with a plurality of base reaction tube insertion holes 14 and 17 with different sizes and apertures, the plurality of base reaction tube insertion holes 14 and 17 are uniformly distributed along the circumference at intervals, and the reaction tubes 13 are placed at the base reaction tube insertion holes 14 and 17 and can be filled and sealed by gluing; the center of the bottom end surface of the base 12 is also provided with a base rotating handle 16, and the base rotating handle 16 is used for being manually held and rotated by a person to drive the base 12 to be installed. A pedestal-type structure is embodied as the base rotary handle 16.

In specific implementation, the base is provided with base reaction tube insertion holes 14 and 17 which are through holes with different sizes and are used for inserting and fixing reaction tubes with different models.

As shown in fig. 1, the housing 10 includes a circle of threads at the top and bottom thereof, which are tightly fitted with the upper cover and the base, the inner portions of the upper and lower ends of the cylinder of the housing 10 are provided with inner threads 11, the outer circumferential surface of the upper cover 1 is provided with upper cover outer threads 5, the upper cover outer threads 5 are in threaded connection with the inner threads 11 at the upper end of the cylinder of the housing 10, so that the upper end of the cylinder of the housing 10 and the upper cover 1 are hermetically; the outer peripheral surface of the base 12 is provided with a base external thread 18, and the base external thread 18 is in matched threaded connection with the internal thread 11 at the lower end of the cylinder body of the shell 10, so that the lower end of the cylinder body of the shell 10 and the base 12 are hermetically installed.

As shown in fig. 1 and 4, a central through hole is formed in the center of the upper cover 1, the lower end of the movable rod 7 is arranged in the central through hole 7, the upper end of the movable rod passes through the central through hole of the upper cover 1 and then extends out, and the part of the upper end of the movable rod 7 extending out of the upper cover 1 is connected with an external mechanical arm or other rotating device capable of performing horizontal rotation and up-and-down lifting motion, so that the movable rod 7 rotates and moves up and down; an internal pipe hole which is communicated up and down is formed in the center of the moving rod body 7, the upper end of the internal pipe hole of the moving rod body 7 serves as a pipe outlet 4, and the pipe outlet 4 is connected and matched with an output pipeline of an external liquid transfer pump, so that the moving rod body 7 is connected between the liquid transfer pump and the micro suction head; an annular groove 21 is formed in the middle of the movable rod body 7 in the central through hole of the upper cover 1, a sealing ring is arranged between the annular groove 21 and the inner wall of the central through hole of the upper cover 1, the movable rod body 7 is sleeved in the central through hole of the upper cover 1 through the sealing ring to form sealing connection, and DNA leakage cannot be caused. Meanwhile, the damping of the rubber ring can be utilized to fix the rod body at a specific position and prevent the rod body from moving up and down. Therefore, the device does not need a spring and other mechanisms to support the rod body, on one hand, the device is simplified, and meanwhile, the positioning is more accurate. The bottom end of the movable rod body 7 in the inner sealed space is fixedly provided with a cam-shaped block, the convex end of the cam-shaped block is provided with a suction head embedding hole 15, and a suction head 9 is arranged in the suction head embedding hole 15.

The outer peripheral surface of the moving rod body 7 in the inner sealed space and positioned above the cam-shaped block is provided with a rod body cross bulge 19, the rod body cross bulge 19 is formed by arranging four lugs uniformly distributed at intervals along the same circumference of the outer peripheral surface of the moving rod body 7 at intervals, a cylindrical lug is fixedly arranged at the center of the bottom surface of the upper cover 1, a cross-shaped groove is formed in the bottom surface of the cylindrical lug, and the rod body cross bulge 19 is embedded in the cross-shaped groove to form a cross-shaped sleeve locking structure 6, so that the moving rod body 7 and the upper cover 1 are circumferentially and relatively fixed, and; the upper cover 1 comprises a through hole which can be matched with the moving rod body 7 to realize the up-and-down movement of the moving rod body 7, and the bottom surface of the upper cover 1 comprises a cross-shaped groove structure which can be matched with a rod body cross-shaped bulge 19 structure of the moving rod body 7 to realize the position fixation of the rod body under the determined height.

The lower extreme of suction head 9 stretches into reaction tube 13, and suction head 9 upper end is through connecting tube 8 and the inside tube hole lower extreme intercommunication of the removal body of rod 7, and the lateral wall that the removal body of rod 7 is close to the bottom is worn out to go out by the inside tube hole lower extreme of the removal body of rod 7 in the concrete implementation, connects through connecting tube 8 and suction head 9 upper end again.

As shown in fig. 1, a locking collar 3 is provided at the middle of the upper end of the movable rod body 7 after extending out of the upper cover 1, and the locking collar 3 is used for locking the movable rod body 7 to fix it at a specific height.

The locking lantern ring 3 includes the U-shaped piece and sets up the hasp through-hole 2 at the U-shaped piece both ends, and hasp through-hole 2 is used for the inserting of bolt, and the bolt passes behind the hasp through-hole 2 at U-shaped piece both ends and connects nut locking to cramp the locking lantern ring 3 on the removal body of rod 7.

In the concrete implementation, the utility model discloses a hot block, magnetic ball control, fluorescence light source and detection device can be integrated to the base for the heating of reagent and fluorescence signal's detection.

First, a reaction reagent, a sample to be measured, and the like are added to the reaction tube 13, and the tube opening is closed with aluminum foil. The reaction tube 13 is inserted into the through-hole of the base 12 while closing the unused through-hole. The base 12 is then screwed into the bottom of the housing 10, completing the assembly of the base 12 portion. The suction head 9 is fixed at the fixed through hole of the movable rod body 7, a liquid pump pipeline of the liquid pump is inserted from the bottom inlet of the movable rod body 7 and led out from the top pipe orifice, the movable rod body 7 is penetrated out from the through hole of the upper cover and is fixed through a cross-shaped structure. The upper cover and the moving rod body 7 part are screwed into the upper part of the shell by using the handle of the upper cover to realize locking. To this end, the internal mounting of the cartridge has been completed.

The locking lantern ring 3 is sleeved outside the movable rod body 7, and a liquid transfer pump pipeline of the liquid transfer pump is connected with the liquid transfer pump. And a filter element or other materials are embedded in the small through groove of the upper cover, so that the air flow balance inside and outside the card box is ensured, meanwhile, the leakage of DNA molecules or other biomolecules is prevented, and the pollution is avoided.

In the experiment, a proper amount of reaction reagents such as sample solution, lysis solution, purification solution, magnetic beads, amplification reaction solution and the like are added into a reaction tube 13 embedded in a base 12 as required, and tin foil paper is used for covering the tube orifice to prevent leakage. After the assembly was completed as described above, the experimental operation was started. The rotation and the up-and-down movement of the movable rod body 7 are realized through an external mechanical arm device, so that the suction head 9 can move among different reaction tubes 13. The suction and addition of the reaction liquid between the different reaction tubes 13 by the suction head is realized by a liquid-moving pump. After the extracted final sample solution is added to the amplification reaction solution, the tip 13 is fixed at the upper portion and does not move. The integrated thermal block is used for heating the reaction solution to realize isothermal amplification reactions such as PCR or LAMP. And (4) carrying out fluorescence excitation on the reacted liquid by using an external fluorescence device to evaluate the result.

In practice, the steps of the above steps except the step of adding the sample, such as the steps of the other reagents, etc. can be completed in advance, and the subsequent pipetting, etc. can be automatically completed by the matched instrument. Therefore, in actual operation, the only operation step required by a common user is the addition of the sample, and the method is very convenient.

The above detailed description describes the specific embodiments of the present invention for nucleic acid detection, however, the detection card box with isolation effect described in the present invention is not limited to the specific details of the above embodiments, the present invention can be applied to the design of the present invention, which can be similar to the technical solution of the present invention, and these changes all belong to the protection scope of the present invention.

Claims

1. A detection card box with isolation effect for nucleic acid detection experiment, which is characterized in that: comprises an upper cover (1), a movable rod body (7), a connecting pipeline (8), a suction head (9), a shell (10), a base (12) and a reaction tube (13); the shell (10) is of a cylinder structure, and an upper cover (1) and a base (12) are respectively and hermetically arranged in the upper end and the lower end of the cylinder of the shell (10), so that an inner sealed space of the detection card box is formed in the shell (10); the surface of the upper cover (1) is provided with a through groove (20), an elastic film, a filter element or a silica gel column is hermetically embedded in the through groove (20), and the inner space and the outer space of the detection card box are isolated through the elastic film, the filter element or the silica gel column; a plurality of through holes are formed in the base (12) along the circumference to serve as base reaction tube embedding holes (14, 17), and reaction tubes (13) are placed in the base reaction tube embedding holes (14, 17) and sealed; a central through hole is formed in the center of the upper cover (1), the lower end of the movable rod body (7) is arranged in the central through hole, the upper end of the movable rod body passes through the central through hole of the upper cover (1) and then extends out, and the part of the upper end of the movable rod body (7) extending out of the upper cover (1) is connected with an external mechanical arm or other rotating devices; an inner tube hole which is through up and down is formed in the center of the moving rod body (7), the upper end of the inner tube hole of the moving rod body (7) is used as a tube outlet (4), and the tube outlet (4) is connected and matched with an output pipeline of an external liquid displacement pump; an annular groove (21) is formed in the middle of the movable rod body (7) in the central through hole of the upper cover (1), a sealing ring is arranged between the annular groove (21) and the inner wall of the central through hole of the upper cover (1), and the movable rod body (7) is sleeved in the central through hole of the upper cover (1) through the sealing ring to form sealing connection; a cam-shaped block is fixedly arranged at the bottom end of the movable rod body (7) in the inner sealed space, a suction head embedding hole (15) is formed in the convex end of the cam-shaped block, and a suction head (9) is arranged in the suction head embedding hole (15); the outer peripheral surface of the moving rod body (7) in the inner sealed space and above the cam-shaped block is provided with a rod body cross bulge (19), the rod body cross bulge (19) is formed by arranging four lugs uniformly distributed at intervals along the same circumference of the outer peripheral surface of the moving rod body (7), the center of the bottom surface of the upper cover (1) is fixedly provided with a cylindrical lug, the bottom surface of the cylindrical lug is provided with a cross-shaped groove, and the rod body cross bulge (19) is embedded in the cross-shaped groove to form a cross-shaped sleeve locking structure (6); the lower end of the suction head (9) extends into the reaction tube (13), and the upper end of the suction head (9) is communicated with the lower end of the tube hole in the movable rod body (7) through a connecting pipeline (8).

2. The detection cartridge with a partitioning effect for use in a nucleic acid detecting experiment according to claim 1, wherein: the middle part of the upper end of the movable rod body (7) extending out of the upper cover (1) is provided with a locking lantern ring (3), and the locking lantern ring (3) is used for locking the movable rod body (7) so as to fix the movable rod body at a specific height.

3. The detection cartridge with a partitioning effect for use in a nucleic acid detecting experiment according to claim 2, wherein: locking lantern ring (3) include the U-shaped piece and set up hasp through-hole (2) at the U-shaped piece both ends, hasp through-hole (2) are used for the inserting of bolt, the bolt passes behind hasp through-hole (2) at U-shaped piece both ends coupling nut locking to cramp locking lantern ring (3) on the removal body of rod (7).

4. The detection cartridge with a partitioning effect for use in a nucleic acid detecting experiment according to claim 1, wherein: internal threads (11) are arranged inside the upper end and the lower end of the cylinder body of the shell (10), external threads (5) of the upper cover are arranged on the peripheral surface of the upper cover (1), and the external threads (5) of the upper cover are in threaded connection with the internal threads (11) at the upper end of the cylinder body of the shell (10) in a matching manner, so that the upper end of the cylinder body of the shell (10) and the upper cover (1) are hermetically installed; the outer peripheral surface of the base (12) is provided with a base external thread (18), and the base external thread (18) is in matched threaded connection with an internal thread (11) at the lower end of the cylinder body of the shell (10), so that the lower end of the cylinder body of the shell (10) is hermetically installed on the base (12).

5. The detection cartridge with a partitioning effect for use in a nucleic acid detecting experiment according to claim 1, wherein: an upper cover rotating handle (22) is arranged at the center of the top end face of the upper cover (1), and the upper cover rotating handle (22) is used for being manually held by a person to rotate to drive the upper cover (1) to be installed.

6. The detection cartridge with a partitioning effect for use in a nucleic acid detecting experiment according to claim 1, wherein: the base is characterized in that a base rotating handle (16) is arranged at the center of the bottom end face of the base (12), and the base rotating handle (16) is used for being manually held by a person to rotate to drive the base (12) to be installed.