CN115093947B - Electrochemical gene chip test system for gene detection - Google Patents

Abstract

The invention relates to an electrochemical gene chip testing system for gene detection, which comprises a testing equipment body, wherein a protection mechanism is arranged outside the testing equipment body, the protection mechanism comprises a first protective cover and a supporting sliding groove, two supporting sliding grooves are symmetrically formed in the outer side wall of the first protective cover, and a supporting sliding rod is arranged in the supporting sliding groove in a sliding manner; the utility model discloses a heat dissipation device, including a protection casing, a heat dissipation through-hole has been seted up on the protection casing, be provided with shutoff mechanism in the protection casing, shutoff mechanism includes shutoff closing plate and supports the sliding tray, the shutoff closing plate slides and sets up in supporting the sliding tray, and supports the sliding tray and set up on the inside wall of a protection casing, it is linked together with the heat dissipation through-hole to support the sliding tray and set up, the lateral wall fixedly connected with fixed bolster of shutoff closing plate, and fixedly connected with buffering anti-sticking mechanism on the lateral wall of fixed bolster, the free end fixedly connected with of buffering anti-sticking mechanism is on an anticreep piece.

Description

Electrochemical gene chip test system for gene detection

Technical Field

The invention relates to the technical field of electrochemical gene chips for gene detection, in particular to an electrochemical gene chip test system for gene detection.

Background

In the process of detecting gene sequences, the detection by using electrochemical gene chip equipment is an important mode of current rapid detection operation, but in the process of detecting reagents, the electrochemical detection equipment used in the current process adopts traditional electrochemical gene chip detection equipment.

The traditional electrochemical gene chip detection equipment is not provided with protection equipment, so that the electrochemical gene chip detection equipment is damaged easily due to the impact of foreign objects in the process of transferring or storing the electrochemical gene chip detection equipment, or the electrochemical gene chip detection equipment is placed in the box body for protection, so that the electrochemical gene chip detection equipment needs to be taken out of the box body when in use, and the box body is stored in preparation for placing the subsequent electrochemical gene chip detection equipment when in treatment, but the box body occupies a transverse space area, and the box body is directly damaged, so that the box body is required to be searched again later, and unnecessary waste is caused. In order to solve the problems, the invention provides an electrochemical gene chip test system for gene detection.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects of the prior art and provides an electrochemical gene chip testing system for gene detection.

(2) Technical proposal

The technical scheme of the invention is as follows:

the electrochemical gene chip testing system for gene detection comprises a testing equipment body (1), and is characterized in that a protection mechanism (2) is arranged outside the testing equipment body (1), the protection mechanism (2) comprises a first protective cover (21) and a supporting sliding groove (22), two supporting sliding grooves (22) are symmetrically formed in the outer side wall of the first protective cover (21), and a supporting sliding rod (23) is slidably arranged in the supporting sliding groove (22); the upper end of the support sliding rod (23) is fixedly connected to the lower end face of the second protective cover (24), the lower end of the support sliding rod (23) is fixedly connected with a guide supporting component (25), the lower end of the guide supporting component (25) is fixedly connected to the bottom wall of the support sliding groove (22), and the test equipment body (1) is fixedly arranged on the inner bottom wall of the first protective cover (21); an abutting mechanism (4) is arranged in the protection mechanism (2), and the abutting mechanism (4) is used for abutting the test equipment body (1); the utility model discloses a heat dissipation device, including a protection casing, a heat dissipation through-hole has been seted up on the protection casing, be provided with shutoff mechanism in the protection casing, shutoff mechanism includes shutoff closing plate and supports the sliding tray, the shutoff closing plate slides and sets up in supporting the sliding tray, and supports the sliding tray and set up on the inside wall of a protection casing, it is linked together with the heat dissipation through-hole to support the sliding tray and set up, the lateral wall fixedly connected with fixed bolster of shutoff closing plate, and fixedly connected with buffering anti-sticking mechanism on the lateral wall of fixed bolster, the free end fixedly connected with of buffering anti-sticking mechanism is on an anticreep piece.

In the present case, buffering anti-sticking mechanism includes vertical support pole and U type backup pad, vertical support pole activity is pegged graft in the U type backup pad, and the outer winding of vertical support pole is connected with No. three supporting springs, no. three supporting springs's both ends respectively fixed connection on the lateral wall of vertical support pole and the lateral wall of U type backup pad, the lower extreme fixedly connected with of vertical support pole No. two anticreep pieces, the lateral wall fixedly connected with horizontal bracing piece of U type backup pad, and the free end fixed connection of horizontal bracing piece is on an anticreep piece.

In the scheme, the guide support assembly (25) comprises a guide support rod (251), a guide support cylinder (252) and a guide support spring (253), wherein the guide support rod (251) is movably inserted into the guide support cylinder (252); the guide support spring (253) is wound and connected outside the guide support rod (251), two ends of the guide support spring (253) are respectively and fixedly connected to the side wall of the guide support rod (251) and the outer side wall of the guide support cylinder (252), a heat dissipation through hole (5) is formed in the first protective cover (21), and a plugging mechanism (6) is arranged in the first protective cover (21).

In the scheme, the plugging mechanism (6) comprises a plugging sealing plate (61) and a supporting sliding groove (62), wherein the plugging sealing plate (61) is arranged in the supporting sliding groove (62) in a sliding manner, the supporting sliding groove (62) is formed in the inner side wall of the first protective cover (21), and the supporting sliding groove (62) is communicated with the heat dissipation through hole (5); the side wall of the plugging sealing plate (61) is fixedly connected with a fixed supporting block (63), the side wall of the fixed supporting block (63) is fixedly connected with a buffering anti-blocking mechanism (64), the free end of the buffering anti-blocking mechanism (64) is fixedly connected to a first anti-falling block (33), and the buffering anti-blocking mechanism (64) comprises a vertical supporting rod (641) and a U-shaped supporting plate (642); the vertical support rod (641) is movably inserted into the U-shaped support plate (642), a third support spring (643) is wound outside the vertical support rod (641), and two ends of the third support spring (643) are fixedly connected to the side wall of the vertical support rod (641) and the side wall of the U-shaped support plate (642) respectively; the lower extreme fixedly connected with of vertical bracing piece (641) No. two anticreep pieces (644), lateral wall fixedly connected with transverse support pole (645) of U type backup pad (642), and the free end fixed connection of transverse support pole (645) is on anticreep piece (33) No. one.

In the case, the abutting mechanism (4) comprises a driving straight rack (41) and a second supporting spring (42), wherein the second supporting spring (42) is fixedly connected to the upper end of the driving straight rack (41), and the free end of the second supporting spring (42) is fixedly connected to the lower end face of the supporting rod (43); the bearing rod (43) is fixedly arranged on the inner side wall of the second protective cover (24), the driving straight rack (41) is meshed with the driving gear (44), the driving gear (44) is fixedly sleeved outside the inner spiral pipe (45), the inner spiral pipe (45) is rotatably arranged on the inner side wall of the second protective cover (24), and the spiral rod (46) is inserted into the inner thread of the inner spiral pipe (45); one end fixedly connected with rubber conflict board (47) of hob (46), and the other end fixedly connected with spacing supporting component (48) of hob (46), the free end fixed connection of spacing supporting component (48) is on the inside wall of No. two protection casings (24).

In the scheme, a connecting mechanism (3) is arranged in the protection mechanism (2), and the connecting mechanism (3) is used for driving the abutting mechanism (4) to move.

In the present case, coupling mechanism (3) include connecting plate (31) and bearing board (32), connecting plate (31) activity is pegged graft on bearing board (32), and bearing board (32) fixed set up on the inside wall of a protection casing (21), the lower extreme fixedly connected with of connecting plate (31) is anti-drop piece (33) No. one, and connecting plate (31) outer winding is connected with a supporting spring (34) No. one.

In the scheme, two ends of the first supporting spring (34) are fixedly connected to the side wall of the connecting plate (31) and the upper end face of the supporting plate (32) respectively, and the upper end of the connecting plate (31) is fixedly connected to the lower end face of the driving straight rack (41).

(3) The beneficial effects are that:

according to the invention, the structure of the existing electrochemical gene chip testing device for gene detection is improved, and the improved electrochemical gene chip testing device for gene detection is additionally provided with the protective equipment, so that a box body is not required to be searched for protecting the electrochemical gene chip testing device for gene detection in the process of transferring or storing the electrochemical gene chip testing device for gene detection, the device can be protected, and meanwhile, the device can be ensured to reasonably utilize the space when in use, and the saving effect is achieved.

According to the invention, the protection mechanism is additionally arranged outside the test equipment body, the protection mechanism can realize the protection function on the test equipment body, and the protection mechanism adopts an assembled structure, so that the use process of the test equipment body is not influenced.

According to the invention, the interference mechanism is additionally arranged, and through the interference effect, the interference effect on the test equipment body can be achieved when the protection mechanism plays a role in protecting the test equipment body, so that the test equipment body can be effectively prevented from swinging in the protection mechanism to cause the impact effect in the process of transferring the test equipment body.

The invention is additionally provided with the connecting mechanism, and the connecting mechanism is arranged for driving the abutting mechanism, specifically, the abutting mechanism can be controlled through the connecting mechanism in the process of the relative movement of the first protective cover and the second protective cover.

According to the invention, the first protective cover is provided with the heat dissipation through hole, and the heat dissipation through hole is arranged, so that the heat generated by the test equipment body can be dissipated through the heat dissipation through hole under the working state, and the test equipment body can be effectively prevented from generating higher temperature during working.

The first protective cover is additionally provided with the plugging mechanism, and the plugging mechanism is arranged for realizing the function of plugging the heat dissipation through hole.

The buffer anti-blocking mechanism provided by the invention can not only play a role in renting the connecting sealing plate and the first anti-drop block, but also ensure the smooth running of the equipment in the movement process through the anti-blocking function.

The invention has reasonable structural design, and particularly, the connecting mechanism, the abutting mechanism and the plugging mechanism can be synchronously controlled in the process of dismounting and mounting the protection mechanism, so that the operation difficulty of the equipment can be reduced, and the use efficiency of the equipment can be improved.

Drawings

FIG. 1 is a schematic illustration of the present invention;

FIG. 2 is an enlarged schematic view of the structure A in FIG. 1;

FIG. 3 is a schematic view of a partial enlarged structure of FIG. 1;

FIG. 4 is an enlarged schematic view of a part of the left-view planar structure of FIG. 1;

FIG. 5 is an enlarged schematic view of the structure B in FIG. 4;

FIG. 6 is an enlarged schematic view of the structure C in FIG. 5;

FIG. 7 is a schematic view of the partial top perspective view of FIG. 1;

fig. 8 is a schematic view of a partially enlarged structure in fig. 7.

The reference numerals are as follows:

the test equipment body 1, the protection mechanism 2, the first protection cover 21, the supporting chute 22, the supporting slide bar 23, the second protection cover 24, the guiding supporting component 25, the guiding supporting rod 251, the guiding supporting cylinder 252, the guiding supporting spring 253, the connecting mechanism 3, the connecting plate 31, the bearing plate 32, the first anti-falling block 33, the first supporting spring 34, the abutting mechanism 4, the driving straight rack 41, the second supporting spring 42, the bearing rod 43, the driving gear 44, the inner spiral tube 45, the spiral rod 46, the rubber abutting plate 47, the limiting supporting component 48, the limiting supporting rod 481, the limiting supporting cylinder 482, the limiting supporting spring 483, the heat dissipation through hole 5, the plugging mechanism 6, the plugging sealing plate 61, the supporting sliding groove 62, the fixed supporting block 63, the buffering anti-blocking mechanism 64, the vertical supporting rod 641, the U-shaped supporting plate 642, the third supporting spring 643, the second anti-falling block 644 and the transverse supporting rod 645.

Detailed Description

The invention is further illustrated by the following examples in connection with figures 1-8:

the invention relates to an electrochemical gene chip testing system for gene detection, which comprises a testing equipment body 1, wherein a protection mechanism 2 is arranged outside the testing equipment body 1, and the structure of the existing electrochemical gene chip testing device for gene detection is improved.

In the process of transferring or storing the test equipment body 1, the additional box body is required to be additionally arranged, the problem of space occupation of storage exists in the box body, meanwhile, the problem of resource waste is caused when the box body is damaged, the protection mechanism 2 comprises a first protection cover 21 and a support sliding groove 22, two support sliding grooves 22 are symmetrically formed in the outer side wall of the first protection cover 21, a support sliding rod 23 is slidably arranged in the support sliding groove 22, the upper end of the support sliding rod 23 is fixedly connected to the lower end face of a second protection cover 24, the lower end of the support sliding rod 23 is fixedly connected with a guide supporting component 25, the lower end of the guide supporting component 25 is fixedly connected to the bottom wall of the support sliding groove 22, the test equipment body 1 is fixedly arranged on the inner bottom wall of the first protection cover 21, the protection mechanism 2 is additionally arranged outside the test equipment body 1, the protection mechanism 2 can realize a protection effect on the test equipment body 1, and the protection mechanism 2 adopts an assembled structure, so that the use process of the test equipment body 1 is not influenced, and a fixed lock is arranged on the first protection cover 21 and the second protection cover 24.

In this embodiment, the guide support assembly 25 includes a guide support rod 251, a guide support cylinder 252 and a guide support spring 253, the guide support rod 251 is movably inserted into the guide support cylinder 252, the guide support spring 253 is wound and connected outside the guide support rod 251, two ends of the guide support spring 253 are respectively and fixedly connected to a side wall of the guide support rod 251 and an outer side wall of the guide support cylinder 252, and the guide support assembly 25 can play a supporting role for movement of the second protection cover 24.

In this embodiment, be provided with conflict mechanism 4 in the protection machanism 2, conflict mechanism 4's setting, be used for realizing playing the conflict effect to test equipment body 1, conflict mechanism 4 includes drive rack 41 and No. two supporting spring 42, the upper end fixedly connected with No. two supporting spring 42 of drive rack 41, and No. two supporting spring 42's free end fixed connection is on the lower terminal surface of supporting rod 43, supporting rod 43 is fixed to be set up on No. two the inside walls of protection casing 24, drive rack 41 and drive gear 44 meshing sets up, and drive gear 44 fixed cover establishes outside interior spiral pipe 45, interior spiral pipe 45 rotates to set up on No. two the inside walls of protection casing 24, and interior spiral pipe 45 internal thread grafting has hob 46, the one end fixedly connected with rubber conflict board 47 of hob 46, and the other end fixedly connected with spacing supporting component 48 of hob 46, spacing supporting component 48's free end fixed connection is on No. two the inside walls of protection casing 24, conflict mechanism 4's setting has been set up in the invention, through the effect, can be to the protection machanism 2 plays the effect to test equipment body 1 when playing the effect of protection to test equipment body 1, can cause impact equipment 1 to test equipment in this way, can prevent that test equipment 1 from taking place in the effect in the test equipment 1, in the course, test equipment 1 is effectively prevented from taking place.

In this embodiment, the spacing supporting component 48 includes a spacing supporting rod 481, a spacing supporting cylinder 482 and a spacing supporting spring 483, the spacing supporting rod 481 is movably inserted in the spacing supporting cylinder 482, the spacing supporting spring 483 is winded and connected outside the spacing supporting rod 481, and two ends of the spacing supporting spring 483 are respectively fixedly connected on the side wall of the spacing supporting rod 481 and the outer side wall of the spacing supporting cylinder 482, the setting of the spacing supporting component 48 can play a role in guiding and supporting for the movement of the screw rod 46, and meanwhile, can provide power for the reset movement of the screw rod 46.

In order to ensure that the device has better linkage performance, in the embodiment, a connecting mechanism 3 is arranged in the protection mechanism 2, the connecting mechanism 3 is used for driving the collision mechanism 4 to move, the connecting mechanism 3 comprises a connecting plate 31 and a supporting plate 32, the connecting plate 31 is movably inserted on the supporting plate 32, the supporting plate 32 is fixedly arranged on the inner side wall of the first protection cover 21, the lower end of the connecting plate 31 is fixedly connected with a first anti-falling block 33, the connecting plate 31 is externally wound and connected with a first supporting spring 34, two ends of the first supporting spring 34 are respectively and fixedly connected on the side wall of the connecting plate 31 and the upper end face of the supporting plate 32, the upper end of the connecting plate 31 is fixedly connected on the lower end face of the driving straight rack 41, the connecting mechanism 3 is additionally arranged in the invention, and the connecting mechanism 3 is used for driving the collision mechanism 4, and particularly, in the process of the relative movement of the first protection cover 21 and the second protection cover 24, the control of the collision mechanism 4 can be realized through the connecting mechanism 3.

In this embodiment, the first protection cover 21 is provided with the heat dissipation through hole 5, and in the present invention, the first protection cover 21 is provided with the heat dissipation through hole 5, so that the heat generated by the test equipment body 1 in the working state can be dissipated through the heat dissipation through hole 5, thereby effectively preventing the test equipment body 1 from generating higher temperature during working.

In order to prevent foreign objects from impacting the test equipment body 1 through the heat dissipation through hole 5, a blocking mechanism 6 is arranged in the first protective cover 21, the blocking mechanism 6 comprises a blocking sealing plate 61 and a supporting sliding groove 62, the blocking sealing plate 61 is arranged in the supporting sliding groove 62 in a sliding mode, the supporting sliding groove 62 is formed in the inner side wall of the first protective cover 21, the supporting sliding groove 62 is communicated with the heat dissipation through hole 5, a fixed supporting block 63 is fixedly connected to the side wall of the blocking sealing plate 61, a buffering anti-blocking mechanism 64 is fixedly connected to the side wall of the fixed supporting block 63, the free end of the buffering anti-blocking mechanism 64 is fixedly connected to the first anti-falling block 33, the blocking mechanism 6 is additionally arranged on the first protective cover 21 and used for achieving the blocking effect on the heat dissipation through hole 5, and particularly, when the protection mechanism 2 protects the test equipment body 1, the blocking mechanism 6 is used for blocking the heat dissipation through hole 5, and the foreign objects are prevented from impacting the test equipment body 1 through the heat dissipation through hole 5.

In order to ensure that the equipment can be implemented smoothly, in this embodiment, the buffer anti-blocking mechanism 64 includes a vertical support rod 641 and a U-shaped support plate 642, the vertical support rod 641 is movably inserted in the U-shaped support plate 642, a third support spring 643 is wound outside the vertical support rod 641, two ends of the third support spring 643 are fixedly connected to the side wall of the vertical support rod 641 and the side wall of the U-shaped support plate 642 respectively, a second anti-blocking block 644 is fixedly connected to the lower end of the vertical support rod 641, a transverse support rod 645 is fixedly connected to the side wall of the U-shaped support plate 642, and the free end of the transverse support rod 645 is fixedly connected to the first anti-blocking block 33.

The working principle of the invention comprises the following steps:

when the testing equipment body 1 is transported or stored, the second protective cover 24 is pressed downwards, the second protective cover 24 moves downwards, the assembly with the first protective cover 21 is completed, and a sealed box body is assembled, so that the testing equipment body 1 can be protected, and the second protective cover 24 and the first protective cover 21 are locked together through fixed locking;

in the downward movement process of the second protective cover 24, under the action of the first supporting spring 34, the connecting plate 31 moves upwards relative to the second protective cover 24, the connecting plate 31 moves upwards and drives the straight rack 41 to move upwards, the straight rack 41 is driven to move upwards and drive the inner spiral pipe 45 to rotate through the driving gear 44, and the inner spiral pipe 45 and the spiral rod 46 are in threaded connection, and the limiting supporting component 48 is arranged, so that the movement of the spiral rod 46 can be limited, the spiral rod 46 can only move in the horizontal direction and cannot rotate, and therefore the rotation of the inner spiral pipe 45 can enable the spiral rod 46 to move inwards and outwards of the spiral pipe 45 and push the rubber abutting plate 47 to abut against the testing equipment body 1, and accordingly the testing equipment body 1 can be effectively prevented from shaking relative to the protection mechanism 2 in the movement process of the testing equipment body 1;

when the second supporting spring 42 reaches the maximum compression amount, the second protective cover 24 moves downwards, so that the connecting plate 31 moves downwards relative to the bearing plate 32, the connecting plate 31 moves downwards, the first anti-drop block 33 moves downwards, the anti-blocking mechanism 64 pushes the combination of the fixed supporting block 63 and the blocking sealing plate 61 to move downwards, the blocking of the heat dissipation through hole 5 can be completed along with the continuous downward movement of the blocking sealing plate 61, and the fact that when the protective mechanism 2 plays a protective role, an external object cannot impact the testing equipment body 1 through the heat dissipation through hole 5 is ensured, so that the testing equipment body 1 is protected;

the anti-blocking mechanism 64 is arranged to play a role in blocking, specifically, after the blocking sealing plate 61 completes blocking the heat dissipation through hole 5, the second protective cover 24 moves downwards continuously to complete blocking the first protective cover 21 with the first protective cover 21, so that the blocking sealing plate 61 can effectively complete blocking the heat dissipation through hole 5.

Claims (2)

1. The electrochemical gene chip testing system for gene detection comprises a testing equipment body (1), and is characterized in that a protection mechanism (2) is arranged outside the testing equipment body (1), the protection mechanism (2) comprises a first protective cover (21) and a supporting sliding groove (22), two supporting sliding grooves (22) are symmetrically formed in the outer side wall of the first protective cover (21), and a supporting sliding rod (23) is slidably arranged in the supporting sliding groove (22); the upper end of the support sliding rod (23) is fixedly connected to the lower end face of the second protective cover (24), the lower end of the support sliding rod (23) is fixedly connected with a guide supporting component (25), the lower end of the guide supporting component (25) is fixedly connected to the bottom wall of the support sliding groove (22), and the test equipment body (1) is fixedly arranged on the inner bottom wall of the first protective cover (21); an abutting mechanism (4) is arranged in the protection mechanism (2), and the abutting mechanism (4) is used for abutting the test equipment body (1); a heat dissipation through hole is formed in the first protective cover;

the guide support assembly (25) comprises a guide support rod (251), a guide support cylinder (252) and a guide support spring (253), and the guide support rod (251) is movably inserted into the guide support cylinder (252); the guide support spring (253) is wound and connected outside the guide support rod (251), two ends of the guide support spring (253) are respectively and fixedly connected to the side wall of the guide support rod (251) and the outer side wall of the guide support cylinder (252), the abutting mechanism (4) comprises a driving straight rack (41) and a second support spring (42), the upper end of the driving straight rack (41) is fixedly connected with the second support spring (42), and the free end of the second support spring (42) is fixedly connected to the lower end face of the bearing rod (43); the bearing rod (43) is fixedly arranged on the inner side wall of the second protective cover (24), the driving straight rack (41) is meshed with the driving gear (44), the driving gear (44) is fixedly sleeved outside the inner spiral pipe (45), the inner spiral pipe (45) is rotatably arranged on the inner side wall of the second protective cover (24), and the spiral rod (46) is inserted into the inner thread of the inner spiral pipe (45); one end of the screw rod (46) is fixedly connected with a rubber abutting plate (47), the other end of the screw rod (46) is fixedly connected with a limiting support assembly (48), and the free end of the limiting support assembly (48) is fixedly connected to the inner side wall of the second protective cover (24); the limiting support assembly (48) comprises a limiting support rod (481), a limiting support cylinder (482) and a limiting support spring (483), wherein the limiting support rod (481) is movably inserted into the limiting support cylinder (482), the limiting support spring (483) is connected outside the limiting support rod (481) in a winding manner, and two ends of the limiting support spring (483) are respectively fixedly connected on the side wall of the limiting support rod (481) and the outer side wall of the limiting support cylinder (482); a connecting mechanism (3) is arranged in the protection mechanism (2), and the connecting mechanism (3) is used for driving the abutting mechanism (4) to move; the connecting mechanism (3) comprises a connecting plate (31) and a supporting plate (32), wherein the connecting plate (31) is movably inserted on the supporting plate (32), the supporting plate (32) is fixedly arranged on the inner side wall of a first protective cover (21), the lower end of the connecting plate (31) is fixedly connected with a first anti-falling block (33), the connecting plate (31) is externally wound and connected with a first supporting spring (34), two ends of the first supporting spring (34) are respectively fixedly connected on the side wall of the connecting plate (31) and the upper end face of the supporting plate (32), and the upper end of the connecting plate (31) is fixedly connected on the lower end face of a driving straight rack (41); a plugging mechanism (6) is arranged in the first protective cover (21), the plugging mechanism (6) comprises a plugging sealing plate (61) and a supporting sliding groove (62), the plugging sealing plate (61) is arranged in the supporting sliding groove (62) in a sliding manner, the supporting sliding groove (62) is formed in the inner side wall of the first protective cover (21), and the supporting sliding groove (62) is communicated with the heat dissipation through hole (5); the side wall of the plugging sealing plate (61) is fixedly connected with a fixed supporting block (63), the side wall of the fixed supporting block (63) is fixedly connected with a buffering anti-blocking mechanism (64), the free end of the buffering anti-blocking mechanism (64) is fixedly connected to a first anti-falling block (33), and the buffering anti-blocking mechanism (64) comprises a vertical supporting rod (641) and a U-shaped supporting plate (642); the vertical support rod (641) is movably inserted into the U-shaped support plate (642), a third support spring (643) is wound outside the vertical support rod (641), and two ends of the third support spring (643) are fixedly connected to the side wall of the vertical support rod (641) and the side wall of the U-shaped support plate (642) respectively; the lower extreme fixedly connected with No. two anticreep pieces (644) of vertical bracing piece (641), lateral wall fixedly connected with transverse support pole (645) of U type backup pad (642).

2. The electrochemical gene chip test system for gene detection according to claim 1, wherein: the free end of the transverse supporting rod (645) is fixedly connected to the first anti-falling block (33).