CN220111082U

CN220111082U - Biological detection kit device

Info

Publication number: CN220111082U
Application number: CN202321172776.2U
Authority: CN
Inventors: 郑志强; 闫锦锦; 匡志宏
Original assignee: Wuhu Maozhi Biotechnology Co ltd; Hangzhou Maozhi Biotechnology Co ltd
Current assignee: Wuhu Maozhi Biotechnology Co ltd; Hangzhou Maozhi Biotechnology Co ltd
Priority date: 2023-05-16
Filing date: 2023-05-16
Publication date: 2023-12-01
Anticipated expiration: 2033-05-16

Abstract

The utility model relates to the technical field of biological detection, in particular to a biological detection kit device, which comprises a kit body, a plurality of reagent tubes and reagent tubes arranged on the kit body, wherein a side opening cavity is formed in the middle of the kit body, a waste collection frame is inserted in the side opening cavity, two rows of placing grooves are formed in the kit body, one reagent tube is inserted in each placing groove, the lower end face of each reagent tube is connected with a stand column in a contact manner, the stand column is driven by a driving device and pushes the reagent tube to move up and down in a straight line, one side, close to the side opening cavity, of each reagent tube is further provided with a push rod, the top of each push rod extends upwards and is fixedly connected with a sealing cover, the lower end of each push rod is connected to the driving device through a linkage assembly, and the sealing cover is driven to move up and down in a straight line and simultaneously perform 0-180 DEG rotation. The utility model has the beneficial effects of multifunction, stability, detachability and the like, can improve the practicability and the practical range of the biological detection kit, and has higher market value.

Description

Biological detection kit device

Technical Field

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

Background

In the biomedical field today, a detection kit is a common diagnostic tool. They are commonly used to detect molecules such as proteins, antibodies, DNA, etc. in organisms to diagnose diseases or to determine the physiological state of a patient. However, conventional test kits require complex sample handling and expensive instrumentation, which makes them expensive to use, limiting their use in healthcare systems.

In order to improve accuracy and convenience of biological detection, some automatic biological detection kit devices exist, and the devices usually adopt a mechanical arm or a hydraulic system to automatically complete operations such as reagent addition, detection and the like. However, these devices are often bulky, expensive, and complex to operate, and are difficult to use in a wide variety of everyday biological assays.

Therefore, there is a need for a biological assay kit device that is compact, low cost, simple to operate, and mechanically robust to meet the needs of routine biological assays.

Disclosure of Invention

The present utility model is directed to a biological assay kit device, which solves the above-mentioned problems of the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a biological detection kit device, includes the box body, a plurality of reagent pipes and the reagent pipe of setting on the box body, the side open chamber has been seted up at the middle part of box body, the side is opened the intracavity and is pegged graft there is the waste collection frame, still has been seted up on the box body about the side open chamber symmetry two rows of standing grooves that set up, every row of standing groove distributes and has 6-8, has all inserted a reagent pipe in every standing groove, the lower terminal surface contact of reagent pipe is connected with the stand, the stand is driven and promotes the reagent pipe by drive arrangement and carries out the straight line and reciprocate, and the one side that every group reagent pipe is close to the side open chamber still is provided with the push rod, the top of push rod upwards stretches out and fixedly connected with sealed lid, and the lower extreme of push rod passes through linkage assembly and connects in drive arrangement to still carries out 0-180 rotary motion when driving sealed lid and carrying out the straight line reciprocates.

Preferably, the box body is located the below of every standing groove and has all offered a movable chamber that holds drive arrangement, drive arrangement includes pushing away frame, main ejector pad, poking bar, stop collar and drive screw, the spacing slidable mounting of pushing away frame is at movable intracavity and fixed connection stand, pushes away the frame upper level and runs through and has seted up the rectangle through groove, and a set of drive groove has all been run through to the both sides of rectangle through groove, and main ejector pad stretches into the rectangle through inslot and two poking bars of fixed connection, poking bar grafting in the drive groove, and the drive groove is formed by a set of straight line groove and a set of chute amalgamation.

Preferably, the stop collar is fixed to be set up in the outer wall of box body, and drive screw one end fixedly connected with runner, drive screw other end run through the stop collar and stretch into the rectangle and lead to the inslot and be connected with main ejector pad spacing rotation, the lower extreme fixedly connected with adapter of main ejector pad, the adapter is connected in the linkage subassembly.

Preferably, the linkage assembly comprises a cylinder cam, a cylindrical pin, a driven seat, a reset spring, a translation plate and an extrusion strip, wherein the driven seat and the translation plate are all arranged in a rectangular through groove in a limiting sliding mode, one end of the translation plate is fixedly connected with the extrusion strip, the other end of the translation plate is fixedly provided with a vertical trapezoid guide strip, and a chute matched with the vertical trapezoid guide strip is formed in the conversion block.

Preferably, the bottom fixedly connected with reset spring of driven seat, the y-shaped chamber has been seted up to driven seat one side that is close to the translation board, and the extrusion strip is inserted and is established in y-shaped intracavity.

Preferably, the top fixedly connected with cylinder cam of driven seat, cylindric lock one end is fixed to be set up on the lateral wall in rectangle logical groove, and the cylindric lock other end inserts and establishes in the curved slot of cylinder cam, the top fixed connection push rod of cylinder cam.

Compared with the prior art, the utility model has the beneficial effects that:

1. multifunction: the device can simultaneously carry out up-and-down movement of the reagent tube and up-and-down movement and rotation movement of the sealing cover, and realizes mechanical linkage of double movement, so that the device has higher versatility and flexibility in the aspect of biological detection reagent boxes.

2. Stability: the driving device and the linkage assembly are fixedly arranged inside the box body, the reagent tube is inserted into the placement groove, and the arrangement can enable the movement process of the reagent tube to be more stable and reliable, so that shaking and instability of the reagent tube during movement are avoided.

3. Removability: the mounting groove formed in the box body can be used for inserting and detaching the reagent tube, so that the reagent tube can be conveniently replaced and maintained, and meanwhile, the waste collection frame can be used for conveniently collecting and cleaning waste after the reagent tube is used.

Drawings

FIG. 1 is a schematic diagram of the present utility model.

Fig. 2 is a schematic cut-away view of the present utility model.

Fig. 3 is an exploded view of the pusher carriage of the present utility model.

Fig. 4 is a schematic cut-away view of the pusher carriage of the present utility model.

Fig. 5 is an exploded view of the driving device according to the present utility model.

In the figure: the box body 1, the side open cavity 101, the placing groove 102, the handle 2, the waste collection frame 3, the reagent tube 4, the sealing cover 401, the upright post 5, the pushing frame 6, the driving groove 601, the push rod 7, the cylinder cam 8, the cylindrical pin 9, the driven seat 10, the y-shaped cavity 11, the reset spring 12, the translation plate 13, the extrusion bar 1301, the switching block 14, the main pushing block 15, the toggle rod 16, the limiting sleeve 17 and the driving screw 18.

Detailed Description

So that the manner in which the features and advantages of the utility model, as well as the manner in which the features and advantages of the utility model are attained and can be understood in detail, a more particular description of the utility model, briefly summarized below, may be had by reference to the appended drawings and detailed description of the embodiments thereof which are illustrated in the appended drawings.

Referring to fig. 1 to 5, the present utility model provides a technical solution: the utility model provides a biological detection kit device, including box body 1, a plurality of reagent pipe 4 and set up the reagent pipe 4 on box body 1, side open chamber 101 has been seted up at the middle part of box body 1, peg graft in the side open chamber 101 have waste collection frame 3, still set up two rows of standing grooves 102 that set up about side open chamber 101 symmetry on the box body 1, every row of standing groove 102 distributes 6-10, all insert in every standing groove 102 and be equipped with a reagent pipe 4, the lower terminal surface contact of reagent pipe 4 is connected with stand 5, stand 5 is driven by drive arrangement and promotes reagent pipe 4 and carry out the straight line and reciprocate, and one side that every group reagent pipe 4 is close to side open chamber 101 still is provided with push rod 7, the top of push rod 7 upwards stretches out and fixedly connected with sealed lid 401, the lower extreme of push rod 7 is connected with drive arrangement through the link assembly, and still carry out 0-180 rotatory motion when driving sealed lid 401 to reciprocate.

In the utility model, the plurality of independent placing grooves 102 are arranged to store the plurality of reagent tubes 4 separately, each reagent tube 4 can be taken and placed independently, and the linkage assembly and the driving device are arranged to be matched for use, so that an adaptive effect is formed, the synchronous opening and closing of the sealing cover 401 can be realized while the reagent tubes 4 are taken and placed rapidly, the reagent application time and the reagent storage time are greatly reduced, and the biological detection efficiency is effectively improved.

The box body 1 is located the below of every standing groove 102 and has all offered a movable chamber that holds drive arrangement, drive arrangement includes pushing away frame 6, main ejector pad 15, poking rod 16, stop collar 17 and drive screw 18, the spacing slidable mounting of pushing away frame 6 is in movable intracavity and fixed connection stand 5, the rectangle logical groove has been seted up to the level on pushing away frame 6, a set of drive tank 601 has all been run through to the both sides in rectangle logical groove, main ejector pad 15 stretches into the rectangle logical inslot and two poking rods 16 of fixed connection, poking rod 16 peg graft in drive tank 601, drive tank 601 is by a set of straight line groove and a set of chute amalgamation.

The stop collar 17 is fixedly arranged on the outer wall surface of the box body 1, one end of the driving screw 18 is fixedly connected with a rotating wheel, the other end of the driving screw 18 penetrates through the stop collar 17 and stretches into the rectangular through groove to be in limiting rotation connection with the main push block 15, the lower end of the main push block 15 is fixedly connected with the switching block 14, and the switching block 14 is connected with the linkage assembly.

Further, the internal thread groove matched with the driving screw 18 is formed in the limit sleeve 17, and the driving frame 6, the driving groove 601, the main pushing block 15, the poking rod 16, the limit sleeve 17 and the driving screw 18 are matched for use, so that the rotation motion of the driving screw 18 can be converted into the linear up-and-down motion of the upright post 5, and the linkage is strong.

Specifically, the driving screw 18 is driven by the handheld rotating wheel to rotate clockwise, under the action of the rotation of the internal thread and the external thread, the driving screw 18 pushes the main pushing block 15 to move towards the inner side of the rectangular through groove, at the moment, the poking rod 16 is inserted into the linear groove part of the driving groove 601, the pushing frame 6 is kept motionless, the extrusion strip 1301 extrudes on the inclined surface part of the y-shaped cavity 11, so that the driven seat 10 is forced to drive the cylinder cam 8 to move downwards, and the cylinder cam 8 drives the pushing rod 7 to move downwards and simultaneously rotate anticlockwise by 180 degrees under the action of the cylindrical pin 9, and the sealing cover 401 can be tightly covered on the top of the reagent tube 4;

with further screwing of the driving screw 18, the extrusion bar 1301 stretches into the plane part of the y-shaped cavity 11, the driven seat 10 is kept motionless relative to the pushing frame 6, and the poking rod 16 acts on the chute part of the driving groove 601, so that the pushing frame 6 is forced to drive the internal components and the upright post 5 to move downwards together, and at the moment, the reagent tube 4 covered with the sealing cover 401 is retracted into the box body 1 for sealing storage.

The linkage assembly comprises a cylinder cam 8, a cylindrical pin 9, a driven seat 10, a reset spring 12, a translation plate 13 and an extrusion strip 1301, wherein the driven seat 10 and the translation plate 13 are all arranged in a rectangular through groove in a limiting sliding mode, one end of the translation plate 13 is fixedly connected with the extrusion strip 1301, the other end of the translation plate 13 is fixedly provided with a vertical trapezoidal guide strip, and a chute matched with the vertical trapezoidal guide strip is formed in a switching block 14.

The bottom fixedly connected with reset spring 12 of driven seat 10, driven seat 10 is close to translation board 13 one side and has seted up y shape chamber 11, and extrusion strip 1301 inserts and establishes in y shape chamber 11.

Further, the y-shaped cavity 11 is provided therethrough.

The top fixedly connected with cylinder cam 8 of driven seat 10, cylindric lock 9 one end is fixed to be set up on the lateral wall in rectangle logical groove, and cylindric lock 9 other end inserts and establishes in the curved line inslot of cylinder cam 8, and the top fixed connection push rod 7 of cylinder cam 8.

Through setting up cylinder cam 8, cylindric lock 9, driven seat 10, reset spring 12, translation board 13 and extrusion strip 1301 cooperation and use, can be with the straight line thrust conversion of main ejector pad 15 for the rotatory dual motion of removal of push rod 7, mechanical linkage is strong.

In actual use, the driving screw 18 is driven by the handheld rotating wheel to rotate clockwise, the driving screw 18 pushes the main push block 15 to move towards the inner side of the rectangular through groove under the action of the rotation of the internal thread and the external thread, at the moment, the poking rod 16 is inserted into the linear groove part of the driving groove 601, the pushing frame 6 is kept motionless, the extrusion bar 1301 extrudes on the inclined surface part of the y-shaped cavity 11, so that the driven seat 10 is forced to drive the cylinder cam 8 to move downwards, and the cylinder cam 8 drives the push rod 7 to move downwards and simultaneously rotate anticlockwise by 180 degrees under the action of the cylindrical pin 9, and the sealing cover 401 can be tightly covered on the top of the reagent tube 4;

Similarly, when the driving screw 18 rotates anticlockwise, under the action of the screwing action of the internal thread and the external thread, the driving screw 18 pulls the main pushing block 15 to move outwards, at this time, the poking rod 16 is inserted into the chute part of the driving groove 601, and the pushing frame 6 moves upwards, so that the reagent tube 4 and the sealing cover 401 extend upwards together; with the further unscrewing of the driving screw 18, the toggle rod 16 acts on the linear groove part of the driving groove 601, the pushing frame 6 is kept motionless, the extrusion bar 1301 is pulled out from the y-shaped cavity 11, at this time, under the elastic force of the reset spring 12, the driven seat 10 drives the cylinder cam 8 to move upwards, the cylinder cam 8 drives the push rod 7 to move upwards under the action of the cylindrical pin 9 and simultaneously rotates 180 degrees clockwise, the sealing cover 401 is opened, and the reagent tube 4 is conveniently taken out.

The device disclosed by the utility model has the beneficial effects of multifunction, stability, detachability and the like, can improve the practicability and the practical range of the biological detection kit, and has higher market value.

The foregoing description of the preferred embodiment of the utility model is provided for the purpose of illustration only, and is not intended to limit the utility model to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents, alternatives, and alternatives falling within the spirit and scope of the utility model.

Claims

1. The utility model provides a biological detection kit device, includes box body (1), a plurality of reagent pipe (4) and sets up reagent pipe (4) on box body (1), its characterized in that: the middle part of box body (1) has been seted up side open chamber (101), side open chamber (101) has been inserted waste collection frame (3), still seted up on box body (1) about two rows of standing grooves (102) that side open chamber (101) symmetry set up, every row of standing groove (102) distributes and has 6-10, has all been inserted in every standing groove (102) and has been equipped with one reagent pipe (4), the lower terminal surface contact of reagent pipe (4) is connected with stand (5), stand (5) are driven by drive arrangement and promote reagent pipe (4) and carry out the straight line and reciprocate, and one side that every group of reagent pipe (4) is close to side open chamber (101) still is provided with push rod (7), the top of push rod (7) upwards stretches out and fixedly connected with sealed lid (401), and the lower extreme of push rod (7) is connected with drive arrangement through the link assembly to still carries out 0-180 rotary motion when driving sealed lid (401) and carrying out the straight line and reciprocate.

2. A biological test kit according to claim 1, wherein: the box body (1) is located the below of every standing groove (102) and has all offered a movable chamber that holds drive arrangement, drive arrangement includes pushing away frame (6), main ejector pad (15), poking rod (16), stop collar (17) and drive screw (18), spacing slidable mounting of pushing away frame (6) is in movable intracavity and fixed connection stand (5), and the rectangle logical groove has been seted up in the level of pushing away frame (6), and a set of drive slot (601) has all been run through to the both sides of rectangle logical groove, and main ejector pad (15) stretch into rectangle logical inslot and two poking rods (16) of fixed connection, poking rod (16) peg graft in drive slot (601), and drive slot (601) are formed by a set of straight line groove and a set of chute amalgamation.

3. A biological test kit device according to claim 2, wherein: the limiting sleeve (17) is fixedly arranged on the outer wall surface of the box body (1), one end of the driving screw (18) is fixedly connected with the rotating wheel, the other end of the driving screw (18) penetrates through the limiting sleeve (17) and stretches into the rectangular through groove to be in limiting rotation connection with the main pushing block (15), the lower end of the main pushing block (15) is fixedly connected with the switching block (14), and the switching block (14) is connected to the linkage assembly.

4. A biological test kit according to claim 3, wherein: the linkage assembly comprises a cylinder cam (8), a cylindrical pin (9), a driven seat (10), a reset spring (12), a translation plate (13) and an extrusion strip (1301), wherein the driven seat (10) and the translation plate (13) are all arranged in a rectangular through groove in a limiting sliding mode, one end of the translation plate (13) is fixedly connected with the extrusion strip (1301), the other end of the translation plate (13) is fixedly provided with a vertical trapezoid guide strip, and a chute matched with the vertical trapezoid guide strip is formed in an adapter block (14).

5. The biological assay kit device of claim 4, wherein: the bottom of driven seat (10) fixedly connected with reset spring (12), Y shape chamber (11) have been seted up to one side that driven seat (10) are close to translation board (13), and extrusion strip (1301) are inserted and are established in Y shape chamber (11).

6. A biological test kit according to claim 5, wherein: the top fixedly connected with cylinder cam (8) of driven seat (10), cylindric lock (9) one end is fixed to be set up on the lateral wall of rectangle logical groove, and cylindric lock (9) other end inserts and establishes in the curved line inslot of cylinder cam (8), and the top fixed connection push rod (7) of cylinder cam (8).