CN113734578A - Multifunctional intelligent kit for antiviral nucleic acid detection - Google Patents

Abstract

The invention provides a multifunctional intelligent kit for detecting antiviral nucleic acid, which relates to the technical field of medical health and comprises a kit containing box, wherein the kit containing box is provided with a rectangular box structure, the top end of the kit containing box is provided with a replacement bin, and the left side of the replacement bin is provided with a plurality of containing bins at equal intervals; according to the invention, the reagent box is transported by the supporting plate in the replacement bin and is supported to be positioned at the topmost end of the replacement bin all the time, so that when medical staff detect nucleic acids of a large number of patients, the reagent bottles in the reagent box can be conveniently and quickly taken, and the operation convenience for the medical staff to take the reagent bottles is improved.

Description

Multifunctional intelligent kit for antiviral nucleic acid detection

Technical Field

The invention relates to the technical field of medical treatment and health, in particular to a multifunctional intelligent kit for detecting antiviral nucleic acid.

Background

The box is used for containing chemical reagents for detecting chemical components, drug residues, virus types and the like. Is generally used by hospitals and pharmaceutical enterprises.

At present, nucleic acid detection is an important detection means for checking whether a human body is infected with a virus, and is an important basis for human beings to fight against the virus, and a substance for nucleic acid detection is nucleic acid of the virus. The nucleic acid detection is to find out whether the respiratory tract specimen, blood or feces of the patient have the nucleic acid of the virus invaded from the outside to determine whether the patient is infected by the new coronavirus. Thus, once a nucleic acid is detected as "positive", the presence of the virus in the patient is demonstrated.

At present, for nucleic acid detection reagents used in hospitals, reagent bottles are mostly adopted to contain chemical reagent liquid, and when the nucleic acid detection reagents are used, the reagent bottles for collecting samples are placed in a reagent box according to a certain rule so as to be convenient for transfer or storage, for example, patent number CN202021702557.7 discloses a medical analyzer, a reagent box thereof and a reagent box storage tray, wherein the reagent box comprises a reagent box frame, the bottom of the reagent box frame is provided with a reagent box guide groove, the reagent box guide groove can be in sliding fit with a guide strip of the first reagent box storage tray, and the reagent box guide groove is vertically clamped with the guide strip. The utility model provides a kit utilizes the kit guide slot with the sliding fit of conducting bar can realize the slip assembly of reagent box frame, the assembly is more stable, convenient.

The reagent kit and the reagent kit storage tray disclosed by the patent still have some defects in the actual use process, and the specific defects are as follows:

firstly, when the existing kit is not used for a long time, a lot of dust can be accumulated in the kit, and the cleaning at the later stage is very troublesome.

Secondly, current, when the kit is applied to and uses in batches, often need prepare a plurality of kits, treat that medical staff uses the kit after full, need the manual change next kit, just so make medical staff's manual work load big, frequently manual change kit for detection efficiency is low during the nucleic acid testing of batches in batches.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a multifunctional intelligent kit for detecting antiviral nucleic acid, which solves the technical problems that a plurality of dust can be accumulated in the kit when the kit is not used for a long time, the later-period cleaning is very troublesome, and a plurality of kits are prepared when the kit is used in a large batch, and the next kit needs to be manually replaced after medical staff fully use the kit, so that the manual labor workload of medical staff is large, the kit is frequently manually replaced, and the detection efficiency is low during the large-batch nucleic acid detection.

The technical problem to be solved by the invention is realized by adopting the following technical scheme: a multifunctional intelligent kit for detecting antiviral nucleic acid comprises a kit containing box, wherein the kit containing box is provided with a rectangular box structure, the top end of the kit containing box is provided with a replacement bin, the left side of the replacement bin is provided with a plurality of containing bins at equal intervals, each containing bin is connected with a kit in a sliding manner, and a plurality of reagent bottles for detecting the antiviral nucleic acid are stored in the kit;

the replacement bin at the top end of the reagent kit containing box is provided with a support plate which can be lifted in a reciprocating manner, the support plate can be lifted to the right side of each storage bin in the replacement bin, and the support plate can support the reagent kit in each storage bin and lift the reagent kit to the top end of the replacement bin;

a baffle sliding groove is formed in the left side of the top end of the replacement bin, and a dustproof baffle is connected in the baffle sliding groove in a sliding mode.

Compared with the prior art, the invention at least comprises the following beneficial effects:

according to the kit, the top end of the kit containing box is provided with the replacement bin, the replacement bin is used for lifting the supporting plate in the replacement bin to transfer the kit in one storage bin, and when medical staff work, the kit is transferred through the supporting plate in the replacement bin and is supported to be in the topmost end of the replacement bin all the time, so that the reagent bottles in the reagent boxes can be conveniently and quickly taken by the medical staff when the medical staff detects nucleic acids of a large number of patients, the operation convenience of the medical staff for taking the reagent bottles is improved.

The invention realizes the functions of automatic transportation, storage, automatic arrangement and placement and the like among a plurality of reagent boxes by arranging the replacement bin, so that medical staff can sit in a fixed place, when a reagent bottle in one reagent box is filled, another reagent box can be automatically replaced to accommodate more reagent bottles, the complex operation of manually transferring and replacing the reagent boxes by the existing medical staff is avoided, the operation efficiency in the nucleic acid detection process is improved, and the use demands of the staff are reduced.

The left side of the replacement bin is provided with the plurality of empty containing bins, each containing bin contains one reagent kit, so that cross transmission of reagents can be avoided, counting is facilitated, the plurality of reagent kits can be contained by arranging the plurality of containing bins in one reagent kit containing box, and the reagent kits can be transported and connected through the reciprocating lifting and transporting of the supporting plate.

The driving screw rod drives the supporting plate to lift, stability in the transfer and conveying process of the reagent kit is realized, the replacement bin is arranged on the right side of the containing bins, whether the reagent kit is stored in each containing bin on the left side can be conveniently detected by utilizing the elastic force of the connecting elastic block, when the reagent kit is not stored in the containing bins, the connecting elastic block on the left side of the reagent kit enables the connecting elastic block to extend into the corresponding containing bin through the elastic force of the second spring, the connecting elastic block is attached to the connecting elastic block through the second sliding block which slides in the containing bins in a reciprocating manner, the connection between the reagent kit and the second sliding block is realized through the second electromagnet, the connection is convenient and sensitive, and the reagent kit can be quickly supported to enter the containing bins,

according to the invention, the slide block horizontally slides in the storage bin, and the slide block is matched with the first roller on the top surface of the supporting plate to rotate in a rolling manner, so that the transfer of the reagent box is more stable due to the resistance of the water reducing reagent box in the transfer process, and when the reagent box moves to the top end of the supporting plate, the first electromagnet on the top end of the supporting plate adsorbs the second iron sheet, so that the reagent box is fixed on the top end of the supporting plate, and the reagent box is more stable when the supporting plate lifts.

Sixth, the connecting elastic block of the invention can be extended and retracted on the left side of the reagent box in a reciprocating way through the inclined plane at the left end and matching with the elasticity of the second spring, and when the reagent box is completely moved out of the storage bin and lifted up and down through the supporting plate by connecting the inclined plane of the elastic block, the connecting elastic block is guided by the inclined plane to lead the connecting elastic block to reciprocate when the reagent box is lifted, when the reagent box is lifted to the corresponding vacant containing bin, the connecting elastic block extends into the containing bin, and adsorbs a third iron sheet through a second electromagnet on the second sliding block, and the friction force on the third iron sheet is utilized, thereby the second slide block is supported and extended into the connecting elastic block in the containing bin to lead the reagent box to slide in the containing bin, thereby put into the containing storage facility with the kit in, accomplish the automatic processing of putting in of kit, it is more steady when can making the kit slide through the second cylinder that the containing storage facility bottom set up and the first cylinder on layer board top.

As a preferred technical scheme of the invention, a transmission screw rod standing upright at the bottom of the storage bin is arranged in the middle of the storage bin, the bottom end of the transmission screw rod is rotatably connected in the storage bin, and a third servo motor is arranged at one end of the transmission screw rod for driving the transmission screw rod to rotate;

the middle part of the storage bin is provided with a blocking slide plate standing on the bottom surface of the storage bin, the middle part of the blocking slide plate is provided with an escape opening, the top surface of the supporting plate is arranged to be a plane, the right side of the supporting plate is provided with an ear plate, the middle part of the ear plate is provided with a through threaded hole, and the threaded hole of the ear plate is connected to the transmission screw rod in a threaded connection mode; the middle part of the top end of the supporting plate is provided with a first electromagnet.

As a preferred technical scheme of the invention, fifth slide ways are symmetrically arranged on the left side and the right side of the inner wall of each storage bin, a second slide block is connected in the fifth slide way on each side in a sliding manner, a second slide way is arranged in the fifth slide way, a second threaded screw rod (305) is rotatably connected in the middle of the second slide way, and a second servo motor is arranged at one end of the second threaded screw rod;

the second electromagnet is provided with a through threaded hole, and the threaded hole of the second electromagnet is connected to the second threaded screw rod through threads.

On the basis of the technical scheme, the invention can be further improved as follows:

as a preferable technical solution of the present invention, a plurality of position sensors are provided at equal intervals on the right side of the inner wall of the replacement bin, and each of the position sensors is at the same height as the corresponding storage bin on the inner wall of the replacement bin.

As a preferred technical scheme of the present invention, second chutes are symmetrically formed on the front side and the rear side of the reagent kit located in each storage bin, a connecting elastic block is slidably connected in the second chute on each side, and a second spring is fixedly mounted at the top end of each connecting elastic block slidably connected in the second chute.

As a preferred technical scheme of the invention, the left end of the connecting elastic block at each side of the front and the back of the kit is provided with a V-shaped inclined plane.

As a preferable technical scheme of the invention, a third iron sheet is arranged in the middle of the connecting elastic block on each side of the front and the back of the kit, the surface of the third iron sheet is provided with a raised anti-slip feature, the side wall of the second sliding block facing the storage bin direction is provided with a second electromagnet, and the top end of the second electromagnet facing the third iron sheet direction is provided with an anti-slip pattern for preventing the third iron sheet from sliding.

As a preferable technical scheme of the invention, a second iron sheet used for being adsorbed by the first electromagnet is arranged at the bottom end of each reagent kit.

As a preferred technical scheme of the invention, a plurality of rotatable first rollers are symmetrically arranged at the top end of the supporting plate and positioned at the left side and the right side of the first electromagnet.

As a preferable technical solution of the present invention, a plurality of second rollers are disposed on the bottom surface of each storage bin at equal intervals.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic perspective view of a reagent cartridge of the present invention at the top end of a reagent cartridge accommodating case;

FIG. 2 is a schematic cross-sectional view of a second push box and a first push box according to the present invention;

FIG. 3 is a schematic view of the structure of the replacement chamber inside the accommodating case of the reagent kit according to the present invention;

FIG. 4 is a schematic structural view of the lifting of the kit of the present invention in the replacement chamber;

FIG. 5 is a schematic view of the position structure of the driving screw in the replacement bin according to the present invention;

FIG. 6 is a schematic view of a storage section of the reagent kit of the present invention moving in the storage compartment;

FIG. 7 is a schematic sectional front view of a reagent cartridge-containing case of the present invention;

FIG. 8 is a schematic front sectional view of the kit of the present invention;

FIG. 9 is an enlarged view of a portion of FIG. 2 taken at B in the present specification;

FIG. 10 is a schematic structural view of a fourth meshing gear of the present invention disposed at both ends of a longitudinal baffle;

FIG. 11 is a schematic structural view of a third meshing gear of the present invention disposed at both ends of a longitudinal baffle;

in the figure: 1. a reagent cartridge accommodating case; 2. a replacement bin; 201. a position sensor; 3. a storage bin; 301. a second drum; 302. a second servo motor; 303. a second slideway; 304. a second slider; 305. a second threaded screw; 306. a second electromagnet; 307. a fifth slideway; 4. a kit; 401. a third slideway; 402. a third slide bar; 403. a fourth slideway; 404. a fourth slide bar; 405. a transverse baffle plate; 406. a longitudinal baffle; 407. a second iron piece; 408. a second spring; 409. a second chute; 410. connecting the spring blocks; 411. a third iron sheet; 412. a fourth rack; 413. a fourth meshing gear; 414. a push block; 415. a third rack; 416. a third meshing gear; 417. a third drive chamber; 418. a second escape port; 419. a fourth drive chamber; 5. a drive screw; 6. a slide stopping plate; 7. a second push tank; 701. a second electric push rod; 702. a second push rod; 703. a second pushing frame; 8. a first push tank; 801. a first electric push rod; 802. a first push rod; 803. a first pushing frame; 9. a let position port; 1001. a support plate; 1002. a first electromagnet; 1003. a first drum; 1004. an ear plate; 12. a dust-proof baffle plate; 13. baffle spout.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further described below by combining with the specific drawings, and it is to be noted that the embodiments and the features in the embodiments can be combined with each other in the application without conflict.

Please refer to fig. 1-11, which are schematic diagrams illustrating the overall structure of a multifunctional intelligent reagent kit for detecting antiviral nucleic acid;

a multifunctional intelligent kit for detecting antiviral nucleic acid comprises a kit containing box 1, wherein the kit containing box 1 is provided with a rectangular box structure, the top end of the kit containing box 1 is provided with a replacement bin 2, the left side of the replacement bin 2 is provided with a plurality of containing bins 3 at equal intervals, each containing bin 3 is connected with a kit 4 in a sliding manner, and a plurality of reagent bottles for detecting the antiviral nucleic acid are stored in the kit 4;

the replacement bin 2 at the top end of the reagent kit containing box 1 is provided with a supporting plate 1001 which can be lifted and descended in a reciprocating manner, the supporting plate 1001 can be lifted to the right side of each containing bin 3 in the replacement bin 2, and the supporting plate 1001 can support the reagent kit 4 in each containing bin 3 and lift the reagent kit 4 to the top end of the replacement bin 2;

replacement 2 top ends of storehouse left side has been seted up baffle spout 13, and there is dustproof baffle 12 baffle 13 in baffle spout 13 sliding connection, and dustproof baffle 12 can manual reciprocal pulling in baffle spout 13, realizes preventing dust to replacement 2 top surfaces in storehouse to the realization is when the kit does not use, and is dustproof to the inside of changing storehouse 2.

The middle part of the storage bin 3 is provided with a transmission screw 5 which is vertical to the bottom of the storage bin 3, the bottom end of the transmission screw 5 is rotatably connected in the storage bin 3, and one end of the transmission screw 5 is provided with a third servo motor for driving rotation; the third servo motor drives the transmission screw rod 5 to rotate, so that the support plate is lifted up and down in a reciprocating mode.

Storage facility 3 middle part is provided with the fender slide 6 of standing vertically in storage facility 3 bottom surface, and is more steady when making the support rise 1001 go up and down through keeping off slide 6. The middle part of the sliding baffle plate 6 is provided with a position-giving opening 9, and the position-giving opening 9 and the ear plate 1004 can reciprocate to lift and slide, so that the lifting stability of the sliding baffle plate 6 can be realized.

The top surface of the supporting plate 1001 is set to be a plane, the right side of the supporting plate 1001 is provided with an ear plate 1004, the middle part of the ear plate 1004 is provided with a through threaded hole, and the threaded hole of the ear plate 1004 is connected to the transmission screw 5 in a threaded connection mode; the middle of the top end of the supporting plate 1001 is provided with a first electromagnet 1002.

Fifth slide ways 307 are symmetrically arranged on the left side and the right side of the inner wall of each storage bin 3, a second slide block 304 is connected in the fifth slide way 305 on each side in a sliding manner, a second slide way 303 is arranged in the fifth slide way 307, a second threaded screw rod 305 is rotatably connected in the middle of the second slide way 303, and a second servo motor 302 is arranged at one end of the second threaded screw rod 305;

the second electromagnet 306 is provided with a through threaded hole, and the threaded hole of the second electromagnet 306 is connected to the second threaded screw 305 through a thread. The second servo motor 302 drives the threaded transmission screw 5 to rotate, and drives the second electromagnet 306 to slide back and forth.

A plurality of position sensors 201 are arranged on the right side of the inner wall of the replacement bin 2 at equal intervals, and each position sensor 201 is as high as the corresponding storage bin 3 on the inner wall of the replacement bin 2.

Wherein, confirm the lift height of layer board 1001 through position sensor 201 to accurately rise the reagent box to corresponding storage compartment in.

Wherein, the position sensor 201 adopts an SS496B solid TO-92 flat standard type analog Hall position sensor produced by Yijiajie electronic technology Limited, Shenzhen,

second chutes 409 are symmetrically formed in the front side and the rear side of the reagent kit 4 located in each storage bin 3, each second chute 409 on each side is connected with a connecting elastic block 410 in a sliding mode, and a second spring 408 is fixedly mounted at the top end of each connecting elastic block 410 in each second chute 409 in a sliding mode. The left end of the connecting elastic block 410 at each side of the front and the back of the reagent box 4 is provided with a V-shaped inclined plane.

The middle of the connecting elastic block 410 on each side of the front side and the rear side of the reagent box 4 is provided with a third iron sheet 411, the surface of the third iron sheet 411 is provided with a raised anti-skid characteristic, the side wall of the second sliding block 304 facing the direction of the storage bin 3 is provided with a second electromagnet 306, the top end of the second electromagnet 306 facing the direction of the third iron sheet 411 is provided with anti-skid grains for preventing the third iron sheet 411 from sliding, and the transverse tension of the second electromagnet 306 and the third iron sheet 411 after adsorption is increased through the anti-skid grains.

The bottom end of each reagent box 4 is provided with a second iron sheet 407 for the first electromagnet 1002 to adsorb, and the top end of the supporting plate 1001 and the left and right sides of the first electromagnet 1002 are symmetrically provided with a plurality of rotatable first rollers 1003. A plurality of second rollers 301 are arranged on the bottom surface of each storage bin 3 at equal intervals.

Wherein, the top end of the containing box 1 of the kit 4 is provided with the replacing bin 2, the replacing bin 2 is used for lifting the supporting plate in the replacing bin 2 so as to transfer the kit 4 in one of the containing bins 3, and medical staff can work, the reagent kit 4 is transported by the supporting plate in the replacement bin 2 and is supported to be used, and the reagent kit 4 is always positioned at the topmost end of the replacement bin 2, so that when medical staff detect nucleic acid of a large number of patients, the reagent bottles in the reagent kit 4 can be conveniently and quickly taken, the operation convenience of the medical staff for taking the reagent bottles is improved, after the reagent bottles are full of the reagent kit 4, the reagent box 4 filled with reagent bottles is transferred to the height corresponding to the receiving bin 3 by the lifting transfer of the supporting plate, and the second slide block 304 in the containing bin 3 is used for driving the containing box support to move into the containing bin 3 for collection, so that the reagent box 4 is automatically contained.

According to the invention, the replacement bin 2 is arranged to realize the functions of automatic transfer, storage, automatic arrangement, placement and the like of a plurality of reagent boxes 4, so that medical staff can sit in a fixed place, when a reagent bottle in one reagent box 4 is filled, another reagent box 4 can be automatically replaced to accommodate more reagent bottles, the complex operation of manually transferring and replacing the reagent boxes 4 by the existing medical staff is avoided, the operation efficiency in the nucleic acid detection process is improved, and the use demands of the staff are reduced.

According to the invention, the plurality of empty containing bins are arranged on the left side of the replacement bin 2, and each containing bin is internally provided with one reagent kit 4, so that the cross propagation of reagents can be avoided, the counting is convenient, the plurality of reagent kits 4 can be contained by arranging the plurality of containing bins in the containing box 1 of one reagent kit 4, and the reagent kits 4 can be transported and connected through the reciprocating lifting and transporting of the supporting plate.

Wherein, the driving screw 5 of the invention drives the supporting plate to lift, the stability of the transfer and conveying process of the reagent kit 4 is realized, the replacement bin 2 is arranged at the right side of the receiving bin, so that the elasticity of the connecting elastic block 410 can be conveniently utilized to detect whether the reagent kit 4 is stored in each receiving bin at the left side, when the reagent kit 4 is not stored in the receiving bin, the connecting elastic block 410 at the left side of the reagent kit 4 enables the connecting elastic block 410 to extend into the corresponding receiving bin through the elasticity of the second spring, then the second sliding block 304 which slides in the receiving bin in a reciprocating way is attached to the connecting elastic block 410, the connection between the reagent kit 4 and the second sliding block 304 is realized through the second electromagnet 306, the connection is convenient and sensitive, and the reagent kit 4 is quickly supported to enter the receiving bin,

according to the invention, the slide block horizontally slides in the storage bin, the first roller 1003 on the top surface of the supporting plate is matched for rolling rotation, the resistance of the water reducing reagent box 4 in the transfer process is reduced, so that the reagent box 4 is more stably transferred, and the first electromagnet 1002 is arranged on the top surface of the supporting plate, so that when the reagent box 4 moves to the top end of the supporting plate, the first electromagnet 1002 on the top end of the supporting plate adsorbs the second iron sheet 407, so that the reagent box 4 is fixed on the top end of the supporting plate, and the supporting plate is favorable for more stably lifting the reagent box 4.

Wherein, the connecting elastic block 410 of the invention can make the connecting elastic block 410 extend and contract reciprocally on the left side of the reagent kit 4 by matching the inclined plane of the left end with the elastic force of the second spring, and make the reagent kit 4 completely move out of the storage bin by the inclined plane of the connecting elastic block 410, and when the reagent kit 4 is lifted and descended by the supporting plate, the connecting elastic block 410 makes the reagent kit 4 extend and contract reciprocally by the guidance of the inclined plane, when the reagent kit 4 is lifted and descended to the corresponding vacant storage bin, the connecting elastic block 410 extends into the storage bin, and adsorbs the third iron piece 411 by the second electromagnet 306 on the second sliding block 304, and the friction force on the third iron piece 411 is utilized to make the second sliding block 304 movably extend into the connecting elastic block 410 in the storage bin, so that the reagent kit 4 slides into the storage bin, thereby putting the reagent kit 4 into the storage bin, and completing the automatic putting treatment of the reagent kit 4, the second roller 301 arranged at the bottom of the storage bin and the first roller 1003 arranged at the top end of the supporting plate can make the reagent kit 4 slide more stably.

Example 2

Please refer to fig. 1-8, which are schematic diagrams illustrating the overall structure of another multifunctional intelligent reagent kit for detecting antiviral nucleic acid; this embodiment is the same as embodiment 1, and specifically differs therefrom in that:

a multifunctional intelligent kit for detecting antiviral nucleic acid comprises a kit containing box 1, wherein the kit containing box 1 is provided with a rectangular box structure, the top end of the kit containing box 1 is provided with a replacement bin 2, the left side of the replacement bin 2 is provided with a plurality of containing bins 3 at equal intervals, each containing bin 3 is connected with a kit 4 in a sliding manner, and a plurality of reagent bottles for detecting the antiviral nucleic acid are stored in the kit 4;

the replacement bin 2 at the top end of the reagent kit containing box 1 is provided with a supporting plate 1001 which can be lifted and descended in a reciprocating manner, the supporting plate 1001 can be lifted to the right side of each containing bin 3 in the replacement bin 2, and the supporting plate 1001 can support the reagent kit 4 in each containing bin 3 and lift the reagent kit 4 to the top end of the replacement bin 2;

the kit holds 1 outer wall front side of case and is provided with first promotion case 8, first promotion case 8 includes first electric putter 801, first push rod 802, first propulsion frame 803, first slide opening 804, the kit holds 1 outer wall front side of case and is close to and holds 1 top of case and seted up first slide opening 804 in the kit, sliding connection has first propulsion frame 803 in first slide opening 804, first electric putter 801 is fixed in the kit and holds 1 front side of case, first electric putter 801 stretches out forward and has first push rod 802, first electric putter 801 top and first propulsion frame 803 top fixed connection. The first electric push rod 801 and the first pushing frame 803 are both disposed inside the first pushing box 8, and are wrapped and fixed by the first pushing box 8, and the first electric push rod 801 and the first pushing frame 803 inside are protected by the first pushing box 8.

The kit holds case 1 outer wall right side and is provided with second promotion case 7, second promotion case 7 includes second electric putter 701, second push rod 702, second pushes away capable frame 703, second slide opening 704, the kit holds case 1 outer wall right side and is close to and holds case 1 top and seted up second slide opening 704 in the kit, sliding connection has second to push away capable frame 703 in second slide opening 704, second electric putter 701 is fixed in the kit and holds case 1 right side, second electric putter 701 stretches out forward has second push rod 702, second electric putter 701 top and second push away capable frame 703 top fixed connection. The second electric push rod 701 and the second pushing rack 703 are both disposed inside the second pushing box 7 and are wrapped and fixed by the second pushing box 7.

When the reagent kit 4 moves to the top end of the replacement bin 2 on the supporting plate 1001, at this time, the second pushing frame 703 is pressed and attached to the top end of the fourth slide bar 404, the second pushing frame 703 pushes the fourth slide bar 404 to reciprocate, and the fourth rack 412 is driven to reciprocate in the fourth transmission cavity 419, so that the fourth meshing gears 413 at the two ends of the longitudinal baffle 406 are driven to rotate in a reciprocating manner, and the longitudinal baffle 406 is driven to swing in a reciprocating manner.

At this time, the first pushing frame 803 is pressed and attached to the top end of the third sliding rod 402, the third sliding rod 402 is pushed to reciprocate by the first pushing frame 803, the third rack 415 is driven to reciprocate in the third transmission cavity 417, and the third meshing gears 416 at the two ends of the transverse baffle 405 are driven to rotate in a reciprocating manner, so that the transverse baffle 405 is driven to swing in a reciprocating manner.

The reagent box 4 is arranged as a square box, the top end of the reagent box 4 is provided with a plurality of rows of transverse baffles 405 standing on the top surface of the reagent box 4 and a plurality of rows of longitudinal baffles 406 standing on the top surface of the reagent box 4, two adjacent rows of longitudinal baffles 406 are parallel and equidistant, each row of transverse baffles 405 is vertically crossed with each row of longitudinal baffles 406, two adjacent longitudinal baffles 406 are vertically crossed with two adjacent transverse baffles 405,

the right side of each reagent box 4 is fixedly provided with an induction device for induction of the position sensor 201, wherein the induction device is an iron sheet made of an iron material so as to improve the accuracy of the position sensor 201.

A plurality of second yielding ports 418 are formed in the middle of the longitudinal baffle 406 at equal intervals, a plurality of second yielding ports 418 are also formed in the middle of the transverse baffle 405 at equal intervals, two adjacent longitudinal baffles 406 and two adjacent transverse baffles 405 perform yielding through the corresponding second yielding ports 418 when swinging relatively, wherein the bottom ends of the longitudinal baffles 406 and the transverse baffles 405 are in a cross-shaped stacking form, so that the longitudinal baffles 406 and the transverse baffles 405 can swing, the corresponding second yielding ports 418 are respectively arranged between the longitudinal baffles 406 and the transverse baffles 405, when the longitudinal baffles 406 swing through the second yielding ports 418, the second yielding ports are clamped into the transverse baffles 405, the swinging of the longitudinal baffles 406 is realized, when the transverse baffles 405 swing through the second yielding ports 418, the second yielding ports are clamped into the longitudinal baffles 406, and the swinging of the transverse baffles 405 is realized.

The horizontal baffle 405 and the vertical baffle 406 of the present invention can only swing one of them, and the horizontal baffle 405 and the vertical baffle 406 cannot swing at the same time.

A third slide way 401 is arranged on the front side of the top end of the reagent box 4, a third slide bar 402 is connected in the third slide way 401 in a sliding manner, third transmission cavities 417 are symmetrically arranged in the front side and the rear side of the reagent box 4, two ends of each row of transverse baffles 405 are connected and extend into the third transmission cavities 417 in a rotating manner, and third meshing gears 416 are arranged at two ends of the transverse baffles 405 extending into the third transmission cavities 417 on the two sides;

the bottom end of the third slide bar 402 extends into the third transmission cavity 417, the bottom end of the third slide bar 402 extending into the third transmission cavity 417 is provided with a third rack 415, and the bottom end of the third rack 415 is engaged with each third engaging gear 416 extending into the third transmission cavity 417;

a fourth slide way 403 is arranged on the right side of the top end of the reagent box 4, a fourth slide bar 404 is connected in the fourth slide way 403 in a sliding manner, fourth transmission cavities 418 are symmetrically arranged in the left side and the right side of the reagent box 4, two ends of the longitudinal baffle 406 in each row extend into the fourth transmission cavities 418 through rotating connection, and fourth meshing gears 413 are arranged at two ends of the longitudinal baffle 406 extending into the fourth transmission cavities 418;

the bottom end of the fourth sliding rod 404 extends into the fourth transmission cavity 418, a fourth rack 412 is arranged at the bottom end of the fourth sliding rod 404 extending into the fourth transmission cavity 418, and the bottom end of the fourth rack 412 is meshed with each fourth meshing gear 413 extending into the fourth transmission cavity 418;

the top end of the fourth sliding bar 404 and the top end of the third sliding bar 402 are respectively and fixedly provided with a pushing block 414, and the top surface of the pushing block 414 is provided with anti-skid threads for increasing friction force.

The reagent box is characterized in that the longitudinal baffle and the transverse baffle are vertically and crossly spliced into a small square groove, so that a medical worker can conveniently place reagent bottles, the operation simplicity is improved, the longitudinal baffle and the transverse baffle are pushed by the second pushing frame or the first pushing frame at the top of the replacement bin, the reagent bottles placed in the reagent box incline to one side of the taking direction of the medical worker, the medical worker can conveniently take the reagent bottles, the operation simplicity of taking is improved, and the taking convenience is improved.

The longitudinal baffles and the transverse baffles at the top end of the reagent box are arranged in a staggered mode, and each row of transverse baffles and each row of longitudinal baffles can swing, so that the pouring direction of reagent bottles in the small square groove can be adjusted conveniently, and medical staff in different directions can take the reagent bottles in the reagent box quickly.

The longitudinal baffle of the reagent box disclosed by the invention swings, the fourth slide bar is pushed by the second pushing frame to slide to and fro to control the swinging direction of the longitudinal baffle, and the transverse baffle of the reagent box is pushed by the first pushing frame to slide to and fro to control the swinging direction of the transverse baffle, so that the swinging height of the longitudinal baffle or the longitudinal baffle is automatically controlled, and the operation simplicity of taking reagent bottles in the reagent box by medical staff is improved.

The reagent box 4 is vertically spliced into a small square groove through the longitudinal baffle 406 and the transverse baffle 405 in a staggered manner, so that a medical worker can conveniently place reagent bottles, the operation simplicity is improved, the longitudinal baffle 406 and the transverse baffle 405 are pushed by the second pushing frame 801703 or the first pushing frame at the top of the replacement bin 2, the reagent bottles placed in the reagent box 4 incline to one side of the taking direction of the medical worker, the medical worker can conveniently take the reagent bottles, the operation simplicity of taking is improved, and the taking convenience is improved.

The vertical baffles 406 and the horizontal baffles 405 at the top end of the reagent kit 4 are arranged in a staggered manner, and each row of horizontal baffles 405 and each row of vertical baffles 406 can swing, so that the pouring direction of reagent bottles in the small square groove can be conveniently adjusted, and medical staff in different directions can conveniently and quickly take the reagent bottles in the reagent kit 4.

The longitudinal baffle 406 of the reagent kit 4 swings, the second pushing frame 801703 pushes the fourth slide bar 404 to slide to and fro to control the swinging direction of the fourth slide bar, and the transverse baffle 405 of the reagent kit 4 pushes the third slide bar 402 to slide to and fro to control the swinging direction of the transverse baffle, so that the swinging height of the longitudinal baffle 406 or the longitudinal baffle 406 is automatically controlled, and the operation simplicity of taking reagent bottles in the reagent kit 4 by medical staff is improved.

The working principle of the embodiment 1 and the embodiment 2 of the invention is as follows:

firstly, the storage bin 3 right side at the topmost is gone into to layer board 1001 in replacement storehouse 2, then, drives screw drive screw 5 through second servo motor 302 and rotates, drives second slider 304 and slides right, and at this moment, kit immigration layer board 1001 top, then, medical staff can put the reagent bottle or take the reagent bottle in to the reagent box according to the reagent box.

Secondly, when the reagent kit 4 is supported by the supporting plate 1001 and moves to the top end of the replacement bin 2, at this time, the second pushing frame 703 is pressed and attached to the top end of the fourth slide bar 404, the second pushing frame 703 pushes the fourth slide bar 404 to move back and forth, and the fourth rack 412 is driven to move back and forth in the fourth transmission cavity 419, so that the fourth meshing gears 413 at the two ends of the longitudinal baffle 406 are driven to rotate back and forth, and the longitudinal baffle 406 is driven to swing back and forth.

At this time, the first pushing frame 803 is pressed and attached to the top end of the third sliding rod 402, the third sliding rod 402 is pushed to reciprocate by the first pushing frame 803, the third rack 415 is driven to reciprocate in the third transmission cavity 417, and the third meshing gears 416 at the two ends of the transverse baffle 405 are driven to rotate in a reciprocating manner, so that the transverse baffle 405 is driven to swing in a reciprocating manner.

Then, after the reagent cartridge in the replacement bin 2 is used up, the reagent cartridge is lowered to the right side of the corresponding storage bin 3 through the supporting plate 1001, at this time, the position sensor 201 detects the reagent cartridge 4, and transmits a signal to the second electromagnet 306, the second electromagnet 306 works and generates magnetic force to adsorb the third iron piece 411 extending into the surface of the connecting elastic block 410 in the storage bin 3, and when the second slider 304 slides leftwards through the anti-slip pattern on the surface of the third iron piece 411, the connecting elastic block 410 is tightly connected with the second electromagnet 306, and when the second slider 304 slides leftwards to the maximum position, at this time, the second servo motor 302 in the corresponding storage bin 3 stops working.

At this time, the pallet 1001 continues to be lifted to the right side of the next storage bin 3, and at this time, the reagent cartridge 4 in the storage bin 3 is pushed to slide rightwards by sliding the second slider 304 in the corresponding storage bin 3, and the reagent cartridge 4 slides rightwards to the top end of the pallet 1001. At this moment, first electro-magnet 1002 work adsorbs second iron sheet 407 that corresponds kit 4 bottom, makes kit 4 fix on the layer board 1001 top, and is more steady when making layer board 1001 go up and down, and finally, goes up and down new kit 4 to the topmost position in replacement storehouse 4 to medical staff normally takes.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The multifunctional intelligent kit for detecting the antiviral nucleic acid is characterized by comprising a kit containing box, wherein the kit containing box is provided with a rectangular box structure, the top end of the kit containing box is provided with a replacement bin, the left side of the replacement bin is provided with a plurality of containing bins at equal intervals, each containing bin is connected with a kit in a sliding manner, and a plurality of reagent bottles for detecting the antiviral nucleic acid are stored in the kit;

the replacement bin at the top end of the reagent kit containing box is provided with a support plate which can be lifted in a reciprocating manner, the support plate can be lifted to the right side of each storage bin in the replacement bin, and the support plate can support the reagent kit in each storage bin and lift the reagent kit to the top end of the replacement bin;

a baffle sliding groove is formed in the left side of the top end of the replacement bin, and a dustproof baffle is connected in the baffle sliding groove in a sliding mode.

2. The multifunctional intelligent kit for detecting antiviral nucleic acid as claimed in claim 1, wherein: the middle part of the storage bin is provided with a transmission screw rod which is vertical to the bottom of the storage bin, the bottom end of the transmission screw rod is rotatably connected in the storage bin, and one end of the transmission screw rod is provided with a third servo motor for driving rotation;

the middle part of the storage bin is provided with a blocking slide plate standing on the bottom surface of the storage bin, the middle part of the blocking slide plate is provided with an escape opening, the top surface of the supporting plate is arranged to be a plane, the right side of the supporting plate is provided with an ear plate, the middle part of the ear plate is provided with a through threaded hole, and the threaded hole of the ear plate is connected to the transmission screw rod in a threaded connection mode; the middle part of the top end of the supporting plate is provided with a first electromagnet.

3. The multifunctional intelligent kit for detecting antiviral nucleic acid as claimed in claim 1, wherein: fifth slide ways are symmetrically formed in the left side and the right side of the inner wall of each containing bin, a second slide block is connected to the fifth slide way on each side in a sliding mode, a second slide way is formed in the fifth slide way, a second threaded screw rod (305) is rotatably connected to the middle position of the second slide way, and a second servo motor is arranged at one end of the second threaded screw rod;

the second electromagnet is provided with a through threaded hole, and the threaded hole of the second electromagnet is connected to the second threaded screw rod through threads.

4. The multifunctional intelligent kit for detecting antiviral nucleic acid as claimed in claim 1, wherein: a plurality of position sensors are arranged on the right side of the inner wall of the replacement bin at equal intervals, and each position sensor is equal to the height of the corresponding storage bin on the inner wall of the replacement bin.

5. The multifunctional intelligent kit for antiviral nucleic acid detection according to any one of claims 3 or 4, wherein: the reagent box is characterized in that second sliding grooves are symmetrically formed in the front side and the rear side of each containing bin, each side of each reagent box is connected with a connecting elastic block in a sliding mode, and a second spring is fixedly mounted at the top end of each connecting elastic block in each second sliding groove in a sliding mode.

6. The multifunctional intelligent kit for detecting antiviral nucleic acid as claimed in claim 5, wherein: the left end of the connecting elastic block on each side of the front side and the back side of the kit is provided with a V-shaped inclined plane.

7. The multifunctional intelligent kit for detecting antiviral nucleic acid as claimed in claim 6, wherein: the kit is characterized in that a third iron sheet is arranged in the middle of each connecting elastic block on each of the front side and the rear side of the kit, raised anti-skidding characteristics are arranged on the surface of the third iron sheet, a second electromagnet is arranged on the side wall of the second sliding block facing the direction of the storage bin, and anti-skidding lines for preventing the third iron sheet from sliding are arranged at the top end of the second electromagnet facing the direction of the third iron sheet.

8. The multifunctional intelligent kit for detecting antiviral nucleic acid as claimed in claim 2, wherein: and a second iron sheet used for adsorption of the first electromagnet is arranged at the bottom end of each reagent kit.

9. The multifunctional intelligent kit for detecting antiviral nucleic acid as claimed in claim 2, wherein: the top end of the supporting plate is symmetrically provided with a plurality of rotatable first rollers at the left side and the right side of the first electromagnet.

10. The multifunctional intelligent kit for detecting antiviral nucleic acid as claimed in claim 2, wherein: each containing bin bottom surface is provided with a plurality of second cylinder at equidistant.

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