CN116198927A

CN116198927A - Storage sorting equipment for nucleic acid detection

Info

Publication number: CN116198927A
Application number: CN202211665700.3A
Authority: CN
Inventors: 穆海东
Original assignee: Shanghai Yulong Shenguang Medical Laboratory Co ltd
Current assignee: Shanghai Yulong Shenguang Medical Laboratory Co ltd
Priority date: 2022-12-23
Filing date: 2022-12-23
Publication date: 2023-06-02
Anticipated expiration: 2042-12-23
Also published as: CN116198927B

Abstract

The invention discloses storage and separation equipment for nucleic acid detection, and particularly relates to the field of nucleic acid detection. According to the invention, the triangular movable block is arranged, after the surface of the sampling workbench is sampled by a worker, the sampling pipe is put in from the protective cover, and each sampling pipe can deflect again when sliding down, so that the sampling pipe is inserted into the corresponding hole of the sampling pipe storage box, the structure is simple, the cost is low, and the condition that the sampling pipe needs to be inserted into the sampling pipe storage box every time the worker finishes sampling is avoided, thereby improving the convenience.

Description

Storage sorting equipment for nucleic acid detection

Technical Field

The invention relates to the technical field of nucleic acid detection, in particular to storage and sorting equipment for nucleic acid detection.

Background

The substance for nucleic acid detection is a viral nucleic acid. The nucleic acid detection is to find whether the human respiratory tract specimen, blood or feces have foreign invasion virus nucleic acid to determine whether the human respiratory tract specimen is infected by the new coronavirus, so that once the detection is positive, the presence of the virus in a patient can be proved, for the nucleic acid detection of the new coronavirus, firstly, sample collection is carried out according to the part of the instruction of the kit, which is required by the sample, the conventional sample types comprise throat swab, nose swab, sputum, bronchial lavage liquid, alveolar lavage liquid and the like, after the patient sample is obtained, the detection is carried out as soon as possible, if the sample to be transported cannot be detected immediately, the sample is packaged at low temperature according to the requirement of the instruction, and the sample is sent to a special detection mechanism for detection. After the detection mechanism receives the sample, the sample is subjected to nucleic acid extraction, and a nucleic acid extraction kit specified in the specification of an approved product is used as the nucleic acid extraction reagent.

In the nucleic acid detection process, after a detection personnel puts a sample into a nucleic acid detection sampling tube, the nucleic acid detection sampling tube is also required to be inserted into a sampling tube storage box, and in the peak time of nucleic acid detection, the operation is not convenient enough, the sampling speed is reduced, and the queuing waiting time of masses is too long, so that how to design a storage and separation device for nucleic acid detection is the current problem to be solved.

Disclosure of Invention

In order to overcome the defects in the prior art, the embodiment of the invention provides a storage and sorting device for nucleic acid detection, which is provided with a triangular movable block, a worker puts sampling tubes from a protective cover after finishing sampling on the surface of a sampling workbench, and each sampling tube deflects the triangular movable block again when sliding down, so that the sampling tubes are inserted into holes corresponding to a sampling tube storage box, and the problems in the prior art are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a nucleic acid detects with storage sorting facilities, includes the sampling workstation, one side fixed mounting of sampling workstation has prefabricated type slide rail, the top fixed mounting of prefabricated type slide rail has the protection casing, the inside of prefabricated type slide rail has been seted up the sampling pipe and has flowed the spout, the inboard of sampling pipe flowing the spout is equipped with the widening zone, the inboard fixed mounting of sampling pipe flowing the spout has the locating lever, the outside rotation of locating lever is connected with the triangle movable block, the bottom of triangle movable block is equipped with the evagination type afterbody, the quantity of evagination type afterbody sets up to a plurality of evagination type afterbody is mirror symmetry form setting about the vertical central line of triangle movable block, one side fixed mounting of prefabricated type slide rail has the reposition of redundant personnel spacer, the bottom intercommunication of prefabricated type slide rail is equipped with the reposition of redundant personnel slide rail, a plurality of reposition of redundant personnel slide rail is the mirror symmetry form setting about the vertical central line of reposition of redundant personnel spacer, a plurality of the equal fixed mounting of reposition of redundant personnel slide rail has the shaping location drum.

Through adopting above-mentioned technical scheme, put into the sampling pipe from the protection casing, the sampling pipe contacts with the top of triangle movable block earlier for the sampling pipe can only follow one side landing of triangle movable block, the sampling pipe is just about to break away from with the triangle movable block, the top and the afterbody contact of evagination formula of sampling pipe, make the triangle movable block reverse deflection once more, make next sampling pipe follow the opposite side landing of triangle movable block, every sampling pipe can make triangle movable block deflect once more when the landing, thereby reach the effect of sorting, the sampling pipe is when entering into shaping location drum in, the state of inclining originally will become vertical state and insert in the hole that the sampling pipe storage box corresponds.

In a preferred embodiment, one side of the split-type sliding rail is rotatably connected with a movable limiting block, the outer side of the movable limiting block is adhered with a rubber anti-skid column, and two sides of the movable limiting block are arc-shaped.

Through adopting above-mentioned technical scheme, utilize the setting of shunting slide rail, separate the sampling pipe for every sampling pipe slides into in the shunting slide rail that corresponds, thereby rubber anti-skidding post and sampling pipe contact support tight spacing to the sampling pipe when movable stopper rotates, and the both sides of movable stopper are the arc setting, make movable stopper when rotating, curved one end has reduced the interval with the sampling pipe, thereby can support tight sampling pipe.

In a preferred embodiment, a first connecting rod is rotatably connected to the inside of the split-type sliding rail, and a limiting support rod is inserted to one side of the first connecting rod.

Through adopting above-mentioned technical scheme, the sampling pipe is when contacting with spacing butt, and gravity of sampling pipe leads to spacing butt deflection.

In a preferred embodiment, the bottom of the movable limiting block is fixedly provided with a second connecting rod, the bottom of the second connecting rod is fixedly provided with a rotating chassis, and the outer side of the rotating chassis is provided with a prefabricated clamping groove.

Through adopting above-mentioned technical scheme, the movable stopper receives can rotate after the gravity influence of sampling pipe, has connected the rotation chassis through the second connecting rod to drive the rotation chassis and rotate, after prefabricated draw-in groove and corresponding locking lever joint, the movable stopper no longer rotates, thereby spacing to the sampling pipe, makes the sampling pipe unable slip.

In a preferred embodiment, the inner side of the prefabricated clamping groove is clamped with a corresponding locking rod, one end of the corresponding locking rod is hinged with a limiting round rod, the bottom of the limiting round rod is fixedly provided with an L-shaped bearing plate, and the L-shaped bearing plate is fixedly arranged at the bottom of the split-type sliding rail.

Through adopting above-mentioned technical scheme, corresponding locking lever and prefabricated type draw-in groove joint to prevent that the activity stopper from rotating, when corresponding locking lever and prefabricated type draw-in groove break away from the back, the gravity of sampling pipe makes the activity stopper rotate.

In a preferred embodiment, a positioning frame is fixedly installed at the top of the corresponding lock rod, a compression composite spring is sleeved on the outer side of the positioning frame, one end of the compression composite spring is fixedly connected with a transverse cantilever, and the transverse cantilever is fixedly installed on one side of the L-shaped bearing plate.

Through adopting above-mentioned technical scheme, utilize the setting of compression compound spring, after spacing butt and sampling pipe break away from the contact, utilize the elasticity pulling spacing butt of compression compound spring to reset.

In a preferred embodiment, a first fixing frame is fixedly installed on one side of the corresponding locking rod, a reinforced connecting rope is sleeved on the outer side of the first fixing frame, a second fixing frame is sleeved on one end of the reinforced connecting rope, a movable connecting rod is fixedly installed on one side of the second fixing frame, and the movable connecting rod is fixedly installed at the bottom of the first connecting rod.

Through adopting above-mentioned technical scheme, utilize the setting of first mount and second mount for the reinforced connection rope will be connected each other.

In a preferred embodiment, a bearing side plate is fixedly arranged at the bottom of the sampling workbench, a bearing bottom plate is fixedly arranged at the bottom of the bearing side plate, and a sampling tube storage box is arranged at the top of the bearing bottom plate.

Through adopting above-mentioned technical scheme, utilize the bearing bottom plate to place the sampling pipe storage box to collect the sampling pipe.

In a preferred embodiment, the sliding rack is slidably connected to the inside of the load-bearing bottom plate, and the sliding rack is arranged in a fit with the sampling tube storage box.

By adopting the technical scheme, the sampling tube storage box is pushed to slide when the sliding type toothed bar slides.

In a preferred embodiment, a positioning side plate is fixedly arranged on one side of the bearing bottom plate, a movable rotor is rotationally connected in the positioning side plate, a Z-shaped handle is fixedly arranged on one side of the movable rotor, an eccentric wheel is fixedly arranged on one side of the movable rotor, which is far away from the Z-shaped handle, a transverse connecting rod is inserted on one side of the eccentric wheel, and a movable pawl is hinged to one end of the transverse connecting rod.

Through adopting above-mentioned technical scheme, when horizontal connecting rod rotates down to be close to slidingtype ratch, movable pawl deflection is horizontal form promotion slip forward of slidingtype ratch, and when horizontal connecting rod rotated rising kept away from slidingtype ratch, it is the slope form at slidingtype ratch surface backward displacement to drive movable pawl, and when horizontal connecting rod rotated once more, movable pawl promoted slidingtype ratch forward again.

The invention has the technical effects and advantages that:

1. according to the invention, the triangular movable block is arranged, after the surface of the sampling workbench is sampled by a worker, the sampling pipe is put in from the protective cover, and each sampling pipe deflects again when sliding down, so that the sampling pipe is inserted into the corresponding hole of the sampling pipe storage box, the structure is simple, the cost is low, the condition that the sampling pipe needs to be inserted into the sampling pipe storage box every time the worker finishes sampling is avoided, the operation steps are reduced, and the convenience is improved;

2. according to the invention, the movable limiting block is arranged, the first sampling pipe is contacted with the limiting supporting rod when sliding down, the gravity of the first sampling pipe causes the limiting supporting rod to deflect, the limiting supporting rod pulls the reinforced connecting rope when deflected, so that the corresponding locking rod deflects and is separated from the prefabricated clamping groove, the prefabricated clamping groove is not limited any more, at the moment, the movable limiting block after the limiting is lost is subjected to the gravity of the second sampling pipe to start rotating, the movable limiting block rotates and does not abut against the second sampling pipe, so that the second sampling pipe slides downwards, when the deflection amplitude of the limiting supporting rod is overlarge, the first sampling pipe slides smoothly and loses contact with the limiting supporting rod, at the moment, the limiting supporting rod is pulled to reset by utilizing the elasticity of the compression compound spring, and meanwhile, the corresponding locking rod is pulled to be clamped with the prefabricated clamping groove again, so that the rotating chassis cannot rotate, and the movable limiting block abuts against the third sampling pipe, so that the sliding speed of the sampling pipe is reduced, and the sampling pipe is prevented from being damaged.

Drawings

Fig. 1 is a top view of the structure of the present invention.

Fig. 2 is an enlarged view of the structure of the portion a of fig. 1 according to the present invention.

Fig. 3 is an enlarged view of the B part structure of fig. 1 according to the present invention.

Fig. 4 is a schematic view of the axial structure of the present invention.

Fig. 5 is an enlarged view of the C-section structure of fig. 4 according to the present invention.

Fig. 6 is an enlarged view of the D portion structure of fig. 4 according to the present invention.

Fig. 7 is a schematic diagram of the overall structure of the present invention.

Fig. 8 is an enlarged view of the E-section structure of fig. 7 according to the present invention.

The reference numerals are: 1. a sampling workbench; 2. a prefabricated slide rail; 3. a protective cover; 4. a sampling tube flow chute; 5. a widening zone; 6. a positioning rod; 7. a triangle movable block; 8. a male tail; 9. a shunt isolation block; 10. a split-flow type slide rail; 11. a movable limiting block; 12. a rubber anti-skid column; 13. a limiting support rod; 14. a first link; 15. a second link; 16. rotating the chassis; 17. a prefabricated clamping groove; 18. a corresponding lock rod; 19. a limit round rod; 20. an L-shaped bearing plate; 21. a positioning frame; 22. compressing the composite spring; 23. a transverse cantilever; 24. a first fixing frame; 25. a reinforced connecting rope; 26. the second fixing frame; 27. a movable connecting rod; 28. shaping a positioning cylinder; 29. a bearing side plate; 30. a bearing bottom plate; 31. a sampling tube storage box; 32. a sliding toothed bar; 33. positioning a side plate; 34. a movable rotor; 35. z-shaped handle; 36. an eccentric wheel; 37. a transverse connecting rod; 38. a movable pawl.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: referring to fig. 1 to 8 of the specification, a storage and sorting apparatus for nucleic acid detection according to an embodiment of the present invention, as shown in fig. 1, includes a sampling table 1, a prefabricated slide rail 2 is fixedly installed at one side of the sampling table 1, the prefabricated slide rail 2 is inclined, the sampling pipe can slide from the prefabricated slide rail 2 by using gravity of the sampling pipe, a shield 3 is fixedly installed at the top of the prefabricated slide rail 2, when the sampling pipe is put in from the shield 3 by the arrangement of the shield 3, the sampling pipe is limited by the shield 3, and is prevented from falling, as shown in fig. 2, a sampling pipe flow chute 4 is opened inside the prefabricated slide rail 2, the width and depth of the sampling pipe flow chute 4 are adapted to the sampling pipe, a widening area 5 is provided at the inner side of the sampling pipe flow chute 4, when the sampling pipe is inclined by the arrangement of the widening area 5, the widening area 5 gives the sampling tube enough space, the inner side of the sampling tube flowing chute 4 is fixedly provided with a positioning rod 6 for fixing and limiting, the outer side of the positioning rod 6 is rotationally connected with a triangular movable block 7, the bottom of the triangular movable block 7 is provided with a plurality of convex tail parts 8, the convex tail parts 8 are arranged in a mirror symmetry mode relative to the vertical center line of the triangular movable block 7, the convex tail parts 8 are arranged in a mirror symmetry mode, the purpose of mirror image arrangement is that after each time the sampling tube contacts with the convex tail parts 8, the triangular movable block 7 can reversely deflect, when the sampling tube slides from the sampling tube flowing chute 4, the sampling tube contacts with the top end of the triangular movable block 7 firstly, the triangular movable block 7 deflects towards the inner wall of the sampling tube flowing chute 4 by utilizing the gravity of the sampling tube, the triangular movable block 7 deflects to keep an inclined state, the channel on the other side is plugged, so that the sampling tube can only slide from one side of the triangular movable block 7, when the sampling tube is about to be separated from the triangular movable block 7, the top end of the sampling tube is in contact with the convex tail part 8, the triangular movable block 7 is reversely deflected again, the next sampling tube slides from the other side of the triangular movable block 7, each sampling tube can deflect the triangular movable block 7 again when sliding down, the sorting effect is achieved, as shown in fig. 1, a shunt isolation block 9 is fixedly installed on one side of the prefabricated sliding rail 2, shunt sliding rails 10 are communicated with the bottom of the prefabricated sliding rail 2, the number of the shunt sliding rails 10 is multiple, the shunt sliding rails 10 are arranged in a mirror symmetry mode with respect to the vertical center line of the shunt isolation block 9, the sampling tubes are separated through the arrangement of the shunt isolation block 9, each sampling tube slides into the corresponding shunt sliding rail 10, a plastic positioning cylinder 28 is fixedly installed at the bottom of the shunt sliding rails 10, and the sampling tube is changed into a corresponding inclined storage box 31 when entering the plastic positioning cylinder 28.

It should be noted that, when the device is actually used, after the surface of the sampling workbench 1 is sampled, a worker puts the sampling tube into the protective cover 3, so that the sampling tube slides down from the sampling tube flowing chute 4, and contacts with the top end of the triangular movable block 7, the triangular movable block 7 deflects towards the inner wall of the sampling tube flowing chute 4 by using the gravity of the sampling tube, the triangular movable block 7 deflects to keep an inclined state, so that the channel on the other side is blocked, the sampling tube can only slide down from one side of the triangular movable block 7, when the sampling tube is about to be separated from the triangular movable block 7, the top end of the sampling tube contacts with the convex tail 8, the triangular movable block 7 is caused to reversely deflect again, so that the next sampling tube slides down from the other side of the triangular movable block 7, and when each sampling tube slides down again, so that the triangular movable block 7 deflects, and the inclined state is changed into a vertical state to be inserted into a hole corresponding to the sampling tube storage box 31 when the sampling tube enters the plastic positioning cylinder 28.

Example 2: as shown in fig. 3, a movable stopper 11 is rotatably connected to one side of the split-type slide rail 10, a rubber anti-slip column 12 is adhered to the outer side of the movable stopper 11, by means of the arrangement of the rubber anti-slip column 12, when the sampling tube is in contact with the rubber anti-slip column 12, the rubber anti-slip column 12 increases friction, so that the sliding speed of the sampling tube is reduced, and by utilizing the toughness of the rubber anti-slip column 12, when the movable stopper 11 rotates, the rubber anti-slip column 12 is in contact with the sampling tube, the rubber anti-slip column 12 slightly deforms, so as to tightly prop against the sampling tube, and the contact area of the movable stopper 11 with the sampling tube is too large to cause clamping and can not rotate, two sides of the movable stopper 11 are arc-shaped, when the movable stopper 11 rotates, one end of the arc-shaped end reduces the distance from the sampling tube, so that the sampling tube can be abutted, the inner part of the split-type slide rail 10 is rotatably connected with a first connecting rod 14, one side of the first connecting rod 14 is inserted with a limit supporting rod 13, as shown in fig. 5, the bottom of the movable limiting block 11 is fixedly provided with a second connecting rod 15, the bottom of the second connecting rod 15 is fixedly provided with a rotating chassis 16, the outer side of the rotating chassis 16 is provided with a prefabricated clamping groove 17, the inner side of the prefabricated clamping groove 17 is clamped with a corresponding locking rod 18, the corresponding locking rod 18 is clamped with the prefabricated clamping groove 17, so that the movable limiting block 11 is prevented from rotating, after the corresponding locking rod 18 is separated from the prefabricated clamping groove 17, the gravity of a sampling tube enables the movable limiting block 11 to rotate, one end of the corresponding locking rod 18 is hinged with a limit round rod 19 for limiting, the bottom of the limit round rod 19 is fixedly provided with an L-shaped bearing plate 20 for supporting, the L-shaped bearing plate 20 is fixedly arranged at the bottom of the split-flow sliding rail 10, the top of the corresponding locking rod 18 is fixedly provided with a positioning frame 21, the outside of locating frame 21 has cup jointed compression compound spring 22, through compression compound spring 22's setting, after spacing butt pole 13 breaks away from the contact with the sampling pipe, utilize compression compound spring's elasticity pulling spacing butt pole 13 to reset, simultaneously, also the pulling corresponds locking lever 18 again with prefabricated draw-in groove 17 joint for rotating chassis 16 unable rotation, compression compound spring's one end fixedly connected with horizontal cantilever 23, horizontal cantilever 23 fixed mounting is in one side of L type bearing plate 20, one side fixed mounting of corresponding locking lever 18 has first mount 24, reinforcing type connecting rope 25 has been cup jointed in the outside of first mount 24, reinforcing type connecting rope 25's one end has cup jointed second mount 26, one side fixed mounting of second mount 26 has movable connecting rod 27, movable connecting rod 27 fixed mounting is in the bottom of first connecting rod 14.

It should be noted that, when the device is actually used, the first sampling tube contacts with the limiting support rod 13 when sliding down, the gravity of the first sampling tube causes the limiting support rod 13 to deflect, the limiting support rod 13 drives the movable connecting rod 27 to deflect when deflecting, and simultaneously pulls the reinforced connecting rope 25, so that the corresponding lock rod 18 deflects and breaks away from the prefabricated clamping groove 17, the prefabricated clamping groove 17 is not limited any more, at this time, the movable limiting block 11 after losing the limit is subjected to the gravity of the second sampling tube to start rotating, the movable limiting block 11 rotates and does not abut against the second sampling tube, so that the second sampling tube slides downwards, when the deflection amplitude of the limiting support rod 13 is overlarge, the first sampling tube slides smoothly and loses contact with the limiting support rod 13, at this time, the gap between the first sampling tube and the second sampling tube is empty, the elastic force of the compressed compound spring 22 is utilized to pull the limiting support rod 13 to reset, and at the same time, the corresponding lock rod 18 is pulled to be clamped with the prefabricated clamping groove 17 again, so that the rotating chassis 16 rotates, the movable limiting block 11 abuts against the second sampling tube, the second sampling tube slides downwards, and then the second sampling tube repeatedly contacts with the limiting support rod 13, and the step is repeated.

Example 3: as shown in fig. 7, the bottom of the sampling workbench 1 is fixedly provided with a bearing side plate 29 for supporting, the bottom of the bearing side plate 29 is fixedly provided with a bearing bottom plate 30, the top of the bearing bottom plate 30 is provided with a sampling tube storage box 31, when a sampling tube falls from a shaping positioning cylinder 28, the sampling tube storage box 31 falls into a hole, the inside of the bearing bottom plate 30 is slidably connected with a sliding type toothed bar 32, the sliding type toothed bar 32 and the sampling tube storage box 31 are arranged in a fitting manner, when the sliding type toothed bar 32 slides, the sliding type toothed bar 31 is pushed to slide, one side of the bearing bottom plate 30 is fixedly provided with a positioning side plate 33, the inside of the positioning side plate 33 is rotatably connected with a movable rotor 34, one side of the movable rotor 34 is fixedly provided with a Z-shaped handle 35, one side of the movable rotor 34 is fixedly provided with an eccentric wheel 36, one side of the eccentric wheel 36 is inserted with a transverse connecting rod 37, one end of the transverse connecting rod 37 is hinged with a movable pawl 38, when the transverse connecting rod 37 rotates downwards to be close to the sliding type toothed bar 32, the movable pawl 38 deflects to push the sliding type toothed bar 32 horizontally, when the transverse connecting rod 37 rotates upwards, the sliding type toothed bar 37 slides forwards, and drives the sliding type toothed bar 32 to slide downwards when the movable pawl 38 slides upwards again, and the movable pawl 38 slides forwards.

It should be noted that, when the device is actually used, every two sampling tubes are loaded into the sampling tube storage box 31, the Z-shaped handle 35 is held to rotate, so that the movable rotor 34 rotates, and the eccentric wheel 36 is driven to rotate, when the transverse connecting rod 37 rotates to be close to the sliding type toothed bar 32 downwards, the movable pawl 38 deflects to push the sliding type toothed bar 32 to slide forwards in a horizontal mode, when the transverse connecting rod 37 rotates to rise away from the sliding type toothed bar 32, the movable pawl 38 is driven to move backwards in an inclined mode on the surface of the sliding type toothed bar 32, and when the transverse connecting rod 37 rotates again, the movable pawl 38 pushes the sliding type toothed bar 32 to slide forwards again.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims

1. The storage sorting equipment for nucleic acid detection comprises a sampling workbench (1), and is characterized in that: one side fixed mounting of sampling workstation (1) has prefabricated type slide rail (2), the top fixed mounting of prefabricated type slide rail (2) has protection casing (3), sampling pipe flow spout (4) have been seted up to the inside of prefabricated type slide rail (2), the inboard of sampling pipe flow spout (4) is equipped with widening zone (5), the inboard fixed mounting of sampling pipe flow spout (4) has locating lever (6), the outside of locating lever (6) is rotated and is connected with triangle movable block (7), the bottom of triangle movable block (7) is equipped with evagination type afterbody (8), the quantity of evagination type afterbody (8) sets up to a plurality of, a plurality of evagination type afterbody (8) are mirror symmetry form setting about the vertical central line of triangle movable block (7), one side fixed mounting of prefabricated type slide rail (2) has reposition of redundant personnel spacer (9), the bottom intercommunication of prefabricated type slide rail (2) is equipped with reposition of redundant personnel formula slide rail (10), the quantity of reposition of redundant personnel formula slide rail (10) sets up to a plurality of shunting slide rail (10) is the fixed mounting of a plurality of mirror symmetry form about vertical central line (9) and is the equal to take shape.

2. The storage and sorting apparatus for nucleic acid detection according to claim 1, wherein: one side of the split-flow type sliding rail (10) is rotationally connected with a movable limiting block (11), a rubber anti-slip column (12) is bonded on the outer side of the movable limiting block (11), and two sides of the movable limiting block (11) are arranged in an arc shape.

3. The storage and sorting apparatus for nucleic acid detection according to claim 2, wherein: the inside rotation of reposition of redundant personnel slide rail (10) is connected with first connecting rod (14), one side of first connecting rod (14) is pegged graft and is had spacing butt (13).

4. The storage and sorting apparatus for nucleic acid detection according to claim 2, wherein: the bottom of the movable limiting block (11) is fixedly provided with a second connecting rod (15), the bottom of the second connecting rod (15) is fixedly provided with a rotary chassis (16), and the outer side of the rotary chassis (16) is provided with a prefabricated clamping groove (17).

5. The storage and sorting apparatus for nucleic acid detection according to claim 4, wherein: the inside joint of prefabricated draw-in groove (17) has corresponding locking lever (18), the one end of corresponding locking lever (18) articulates there is spacing round bar (19), the bottom fixed mounting of spacing round bar (19) has L type bearing plate (20), L type bearing plate (20) fixed mounting is in the bottom of reposition of redundant personnel slide rail (10).

6. The storage and sorting apparatus for nucleic acid detection according to claim 5, wherein: the top fixed mounting of corresponding locking lever (18) has locating frame (21), compression compound spring (22) have been cup jointed in the outside of locating frame (21), the one end fixedly connected with of compression compound spring (22) is horizontal cantilever (23), horizontal cantilever (23) fixed mounting is in one side of L type bearing plate (20).

7. The storage and sorting apparatus for nucleic acid detection according to claim 6, wherein: one side fixed mounting of corresponding locking lever (18) has first mount (24), reinforced connecting rope (25) have been cup jointed in the outside of first mount (24), second mount (26) have been cup jointed to the one end of reinforced connecting rope (25), one side fixed mounting of second mount (26) has movable connecting rod (27), movable connecting rod (27) fixed mounting is in the bottom of first connecting rod (14).

8. The storage and sorting apparatus for nucleic acid detection according to claim 1, wherein: the bottom of sampling workstation (1) fixed mounting has bearing curb plate (29), the bottom fixed mounting of bearing curb plate (29) has bearing bottom plate (30), the top of bearing bottom plate (30) is equipped with sampling pipe storage box (31).

9. The storage and sorting apparatus for nucleic acid detection according to claim 8, wherein: the inside sliding connection of bearing bottom plate (30) has slidingtype ratch (32), slidingtype ratch (32) are laminating form setting with sampling tube storage box (31).

10. The storage and sorting apparatus for nucleic acid detection according to claim 9, wherein: one side fixed mounting of bearing bottom plate (30) has location curb plate (33), the inside rotation of location curb plate (33) is connected with movable rotor (34), one side fixed mounting of movable rotor (34) has Z style of calligraphy handle (35), one side fixed mounting that movable rotor (34) kept away from Z style of calligraphy handle (35) has eccentric wheel (36), one side grafting of eccentric wheel (36) has horizontal connecting rod (37), the one end of horizontal connecting rod (37) articulates has movable pawl (38).