CN113859763A

CN113859763A - New coronavirus detection kit based on fluorescence quantification

Info

Publication number: CN113859763A
Application number: CN202111115479.XA
Authority: CN
Inventors: 蒋玉香; 王熙婷; 韩林秀
Original assignee: Zhenjiang Jintai Medical Science Examination Laboratory Co ltd
Current assignee: Zhenjiang Jintai Medical Science Examination Laboratory Co ltd
Priority date: 2021-09-23
Filing date: 2021-09-23
Publication date: 2021-12-31

Abstract

The invention relates to a fluorescence quantification-based new coronavirus detection kit, which comprises a kit body, a storage block arranged in the kit body, a plurality of reagent holes arranged in the storage block, an ejection part arranged at the bottom of each reagent hole and a locking part arranged on the inner side wall of each reagent hole, wherein the ejection part is arranged at the bottom of each reagent hole; the ejection part comprises a plurality of partition plates fixed on the storage block and an ejection rod arranged at the bottom of the reagent hole. According to the invention, the storage block is arranged in the kit body, the storage block is suitable for wrapping the whole reagent tube, so that the reagent tube is prevented from being damaged by impact, the reagent tube is inserted into the reagent hole and then is not easy to separate from the reagent hole by the aid of the matching of the arranged locking part and the reagent tube, and the reagent tube is ejected out of the reagent hole from the bottom by the aid of the ejecting part through the arranged ejecting part when the reagent tube needs to be taken away, so that the reagent tube is convenient to take.

Description

New coronavirus detection kit based on fluorescence quantification

Technical Field

The invention relates to the technical field of detection kits, in particular to a novel coronavirus detection kit based on fluorescence quantification.

Background

At chinese patent application No. 202021307787.3, a new corona virus detect reagent box based on fluorescence ration is disclosed, place board and inserted block including box body, first board, the second of placing, the inside bottom embedding of box body is installed first board of placing, and first the middle inside of placing the board runs through and has seted up first jack, both sides are equipped with the slot in the middle of the inside of box body, and the one end of inserted block has been inserted to the inside of slot, and the other end of inserted block inserts in the inside of spout, and the spout is seted up inside the both ends of placing the board at the second, and the second place the board and establish in the middle of the inside of box body, the other end surface connection of inserted block installs the spring. The utility model discloses a be equipped with two-layerly in the kit, with the two-layer jack of placing that the inboard portion was seted up design of staggering, do not hinder mutually when being convenient for place, and the board of placing on second floor adopts the mode of elasticity grafting to install inside the box body, it takes out and places the use of being convenient for, has reached and has made things convenient for medical personnel to use and the firm can be at its inside effect of placing the medicine more.

Such a kit has the following disadvantages:

when placing reagent pipe, inconvenient fix reagent pipe bottom, make the reagent pipe of placing difficult for coming out, and when taking reagent pipe, be difficult for taking, influence detection efficiency.

Disclosure of Invention

The invention aims to provide a novel coronavirus detection kit based on fluorescence quantification.

In order to solve the technical problem, the invention provides a fluorescence quantification-based new coronavirus detection kit, which comprises a kit body, a storage block arranged in the kit body, a plurality of reagent holes arranged in the storage block, an ejection part arranged at the bottom of each reagent hole, and a locking part arranged on the inner side wall of each reagent hole; the ejection part comprises a plurality of partition plates fixed on the storage block and an ejection rod arranged at the bottom of the reagent hole; reagent tubes are arranged in the reagent holes, and after the reagent tubes are inserted in the reagent grooves, the partition plates are pressed downwards so that the ejection rods jack up the reagent tubes.

Furthermore, a plurality of vertical grooves are arranged in the storage block, and the reagent holes are divided into a plurality of groups by the vertical grooves; the separation plate is arranged in the vertical groove, and the top end of the separation plate protrudes out of the notch of the vertical groove.

Furthermore, a first limiting groove is formed in the inner side wall of the vertical groove; the outer side wall of the partition plate is fixedly provided with a first limiting plate, the first limiting plate is arranged in the first limiting groove, the partition plate is pressed downwards, and the first limiting plate is used for limiting the descending height of the partition plate.

Further, the bottom of first limiting plate is fixed with the first spring of a plurality of, first spring mirror image sets up the both sides of division board, wherein first limiting plate compression first spring, first spring is suitable for to reset the division board.

Further, an ejection groove is formed in one side of the bottom of the reagent hole, a first hinge rod is arranged inside the ejection groove, a second limiting plate is fixed on the outer surface of the first hinge rod, one end of the first hinge rod is hinged to a second hinge rod, one end of the second hinge rod is hinged to a third hinge rod, and one end of the third hinge rod is hinged to the side wall of the reagent hole; a second limiting groove is formed in the inner side wall of the ejection groove, the second limiting plate is installed inside the second limiting groove, and a second spring is fixed to one side of the second limiting plate; slopes are arranged at one ends of the partition plate and the first hinge rod; the initial angle between the second hinge rod and the third hinge rod is 130 degrees, wherein the partition plate presses the first hinge rod downwards to move leftwards, and the first hinge rod extrudes the second hinge rod and the third hinge rod to bend upwards to jack up the reagent tube.

Furthermore, a plurality of locking grooves are formed in the periphery of the bottom of the reagent hole; and a lower bottom plate is fixed at the bottom of the locking groove, and the end part of the lower bottom plate protrudes out of the opening of the locking groove.

Furthermore, the locking part comprises a rotating rod, a third spring arranged on one side of the rotating rod and a protection pad arranged at the corner of the top of the rotating rod; a bent rod is fixed at the bottom of the rotating rod, an inclined plane is arranged at the end part of the bent rod, and the end part of the bent rod protrudes out of the opening of the locking groove; the bent rod and the rotating rod are hinged on the inner side wall of the locking groove.

Further, the lateral wall of reagent pipe is provided with a plurality of draw-in groove, wherein reagent pipe bottom drop to with during the inclined plane contact of knee, the dwang rotates, so that the dwang joint is in the draw-in groove.

The fluorescence quantification-based new coronavirus detection kit has the beneficial effects that the storage block is arranged in the kit body, the storage block is suitable for wrapping the whole reagent tube, so that the reagent tube is prevented from being damaged by impact, the reagent tube is inserted into the reagent hole and then matched with the reagent tube by the arranged locking part, so that the reagent tube is not easy to separate from the reagent hole after being inserted into the reagent hole, and the ejection part is used for ejecting part of the reagent tube out of the reagent hole from the bottom when the reagent tube needs to be taken away, so that the reagent tube is convenient to take.

Drawings

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

FIG. 1 is a perspective view of a preferred embodiment of a cartridge body of the present invention;

FIG. 2 is a schematic elevation sectional view of a preferred embodiment of a reagent well of the present invention;

FIG. 3 is an exploded view of a preferred embodiment of the reagent tube and locking portion of the present invention.

In the figure:

1. a kit body;

2. a storage block; 21. a reagent well; 22. a vertical slot; 221. a first limit groove; 23. An ejection slot; 231. a second limit groove; 232. a second spring; 24. a first hinge lever; 241. a second hinge lever; 242. a third hinge rod; 243. a second limiting plate; 25. a locking groove; 26. a lower base plate;

3. an ejection section; 31. a partition plate; 311. a first limit plate; 312. a first spring; 32. A firing rod;

4. a lock section; 41. rotating the rod; 411. bending a rod; 42. a third spring; 43. a protective pad;

5. a reagent tube; 51. a clamping groove.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-3, the fluorescence quantification-based new coronavirus detection kit comprises a kit body 1, a storage block 2 installed inside the kit body 1, a plurality of reagent holes 21 installed inside the storage block 2, an ejection part 3 arranged at the bottom of each reagent hole 21, and a locking part 4 installed on the inner side wall of each reagent hole 21; the ejection part 3 comprises a plurality of partition plates 31 fixed on the storage block 2 and an ejection rod 32 arranged at the bottom of the reagent hole 21; the reagent tube 5 is installed inside the reagent hole 21, and after the reagent tube 5 is inserted into the reagent tank, the partition plate 31 is pressed down to make the eject lever 32 eject the reagent tube 5.

Through at 1 internally mounted storage piece 2 of kit body, storage piece 2 is suitable for wrapping up whole 5 reagent tubes, prevent that reagent tube 5 from receiving the striking damage, insert reagent tube 5 behind the inside of reagent hole 21, utilize locking part 4 and the reagent pipe 5 of setting to mutually support, make reagent tube 5 insert behind the inside of reagent hole 21, be difficult for breaking away from reagent hole 21, and through the portion 3 that launches that sets up, when needs take away reagent tube 5, utilize to launch portion 3 and follow the ejecting reagent hole 21 part in bottom with reagent tube 5, the convenience is taken reagent tube 5.

A plurality of vertical grooves 22 are arranged in the storage block 2, and the reagent holes 21 are divided into a plurality of groups by the vertical grooves 22; the partition plate 31 is arranged in the vertical groove 22, the top end of the partition plate 31 protrudes out of the notch of the vertical groove 22, and the inner side wall of the vertical groove 22 is provided with a first limiting groove 221; a first limiting plate 311 is fixed on the outer side wall of the partition plate 31, the first limiting plate 311 is installed inside the first limiting groove 221, the partition plate 31 is pressed downwards, the partition plate is pressed downwards, and the first limiting groove 221 is used for limiting the descending height of the partition plate 31.

Through pegging graft division board 31 in the inside of erecting groove 22, division board 31 separates into a plurality of equal parts with reagent hole 21 for, can classify reagent pipe 5, prevent cross infection, and division board 31 can reciprocate in the inside of erecting groove 22, when division board 31 is reciprocating, first limiting plate 311 is reciprocating in the inside of first spacing groove 221 following it, makes and can control the height that divides division board 31 to reciprocate.

The bottom of the first limiting plate 311 is fixed with a plurality of first springs 312, the first springs 312 are arranged on two sides of the partition plate 31 in a mirror image mode, the first limiting plate 311 compresses the first springs 312, the first springs 312 are suitable for resetting the partition plate 31, and the pressed limiting plate can be reset through the arranged first springs 312.

A plurality of locking grooves 25 are arranged on the periphery of the bottom of the reagent hole 21; a lower plate 26 is fixed to the bottom of the locking groove 25, and the end of the lower plate 26 protrudes out of the opening of the locking groove 25. By arranging the lower bottom plate 26, the lower bottom plate 26 can support the bottom of the reagent tube 5, and the reagent rod is directly contacted with the lower bottom plate 26 after being completely inserted into the reagent hole 21.

The locking part 4 comprises a rotating rod 41 and a third spring 42 arranged on one side of the rotating rod 41, can reset the rotating rod 41, and is provided with a protection pad 43 arranged at the corner of the top of the rotating rod 41; a bent rod 411 is fixed at the bottom of the rotating rod 41, an inclined surface is arranged at the end of the bent rod 411, and the end of the bent rod 411 protrudes out of the opening of the locking groove 25; the knee 411 articulates the inside wall at locking groove 25 with dwang 41, and the lateral wall of reagent pipe 5 is provided with a plurality of draw-in groove 51, and wherein reagent pipe 5 bottom drops to when contacting with the inclined plane of knee 411, and dwang 41 rotates to make dwang 41 joint in draw-in groove 51.

By hinge-mounting the rotating lever 41 inside the locking groove 25, the rotating lever 41 can be rotated about the hinge point inside the locking groove 25, and the bottom of the rotating rod 41 is fixed with a bent rod 411, the angle between the bent rod 411 and the rotating rod 41 is 120 degrees, the width of the bent rod 411 is larger than the width of the slot 51 of the rotating rod 41, when the reagent vessel 5 is inserted into the reagent well 21, the bottom of the reagent vessel 5 is pressed down by the bending bar 411, so that the bent rod 411 drives the rotating rod 41 to rotate, the rotating rod 41 rotates towards the outer side wall of the reagent tube 5, when the reagent vessel 5 contacts the lower plate 26, the rotating rod 41 is inserted into the slot 51 and clamped around the reagent vessel 5, simultaneously through the protection pad 43 that sets up, prevent that dwang 41 from scraping reagent pipe 5, playing skid-proof effect simultaneously to make reagent pipe 5 be difficult for breaking away from reagent hole 21.

An ejection groove 23 is formed in one side of the bottom of the reagent hole 21, a first hinge rod 24 is arranged in the ejection groove 23, a second limiting plate 243 is fixed on the outer surface of the first hinge rod 24, a second hinge rod 241 is hinged to one end of the first hinge rod 24, a third hinge rod 242 is hinged to one end of the second hinge rod 241, and one end of the third hinge rod 242 is hinged to the side wall of the reagent hole 21; a second limiting groove 231 is formed in the inner side wall of the ejection groove 23, a second limiting plate 243 is installed inside the second limiting groove 231, and a second spring 232 is fixed to one side of the second limiting plate 243; slopes are arranged at the partition plate 31 and one end of the first hinge rod 24; the initial angle between the second hinge rod 241 and the third hinge rod 242 is 130 degrees, so that the second hinge rod 241 and the third hinge rod 242 are not easily bent downward, wherein the partition plate 31 presses the first hinge rod 24 downward to move leftward, and the first hinge rod 24 presses the second hinge rod 241 and the third hinge rod 242 to bend upward to jack up the reagent tube 5.

Through at the internally mounted first articulated pole 24 of launching slot 23 for first articulated pole 24 moves about along launching slot 23, when needs with reagent pipe 5 bottom jack-up, through pressing down the partition plate, partition plate 31 compresses first articulated pole 24, makes first articulated pole 24 promote second articulated pole 241 and third articulated pole 242 and jack-up upwards, and second articulated pole 241 and third articulated pole 242 top pass in the middle of lower plate 26, directly with reagent pipe 5 from reagent hole 21 bottom top partly, conveniently take reagent pipe 5.

The working principle is as follows: through at 1 internally mounted storage piece 2 of kit body, storage piece 2 is suitable for wrapping up whole 5 reagent tubes, prevent that reagent tube 5 from receiving the striking damage, insert reagent tube 5 behind the inside of reagent hole 21, utilize locking part 4 and the reagent pipe 5 of setting to mutually support, make reagent tube 5 insert behind the inside of reagent hole 21, be difficult for breaking away from reagent hole 21, and through the portion 3 that launches that sets up, when needs take away reagent tube 5, utilize to launch portion 3 and follow the ejecting reagent hole 21 part in bottom with reagent tube 5, the convenience is taken reagent tube 5.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. A new coronavirus detection kit based on fluorescence quantification is characterized by comprising

The kit comprises a kit body (1), a storage block (2) arranged in the kit body (1), a plurality of reagent holes (21) arranged in the storage block (2), an ejection part (3) arranged at the bottom of each reagent hole (21) and a locking part (4) arranged on the inner side wall of each reagent hole (21);

the ejection part (3) comprises a plurality of partition plates (31) fixed on the storage block (2) and an ejection rod (32) arranged at the bottom of the reagent hole (21);

a reagent tube (5) is arranged in the reagent hole (21), wherein

After the reagent tube (5) is inserted into the reagent groove, the partition plate (31) is pressed downwards, so that the ejection rod (32) jacks up the reagent tube (5).

2. The kit for detecting a novel coronavirus based on fluorescent quantitation of claim 1,

a plurality of vertical grooves (22) are formed in the storage block (2), and the reagent holes (21) are divided into a plurality of groups by the vertical grooves (22);

the separation plate (31) is arranged in the vertical groove (22), and the top end of the separation plate (31) protrudes out of the notch of the vertical groove (22).

3. The kit for detecting a novel coronavirus based on fluorescent quantitation of claim 2,

a first limiting groove (221) is formed in the inner side wall of the vertical groove (22);

the outer side wall of the partition plate (31) is fixedly provided with a first limiting plate (311), the first limiting plate (311) is arranged in the first limiting groove (221), and the first limiting plate (311) is arranged in the first limiting groove (221)

The partition plate (31) is pressed down, and the first limit plate (311) is used for limiting the descending height of the partition plate (31).

4. The kit for detecting a novel coronavirus based on fluorescent quantitation of claim 3,

the bottom of the first limiting plate (311) is fixed with a plurality of first springs (312), the first springs (312) are arranged on two sides of the partition plate (31) in a mirror image mode, and the first springs (312) are arranged on two sides of the partition plate (31) in a mirror image mode

The first limit plate (311) compresses the first spring (312), the first spring (312) being adapted to reset the separation plate (31).

5. The kit for detecting a novel coronavirus based on fluorescent quantitation of claim 4,

an ejection groove (23) is formed in one side of the bottom of the reagent hole (21), a first hinge rod (24) is arranged inside the ejection groove (23), a second limiting plate (243) is fixed on the outer surface of the first hinge rod (24), a second hinge rod (241) is hinged to one end of the first hinge rod (24), a third hinge rod (242) is hinged to one end of the second hinge rod (241), and one end of the third hinge rod (242) is hinged to the side wall of the reagent hole (21);

a second limiting groove (231) is formed in the inner side wall of the ejection groove (23), the second limiting plate (243) is installed inside the second limiting groove (231), and a second spring (232) is fixed on one side of the second limiting plate (243);

slopes are arranged at one ends of the partition plate (31) and the first hinge rod (24);

the second hinge rod (241) and the third hinge rod (242) have an initial angle of 130 degrees, wherein

The partition plate (31) presses the first hinge rod (24) downwards to move leftwards, and the first hinge rod (24) presses the second hinge rod (241) and the third hinge rod (242) to bend upwards to jack up the reagent tube (5).

6. The kit for detecting a novel coronavirus based on fluorescent quantitation of claim 5,

a plurality of locking grooves (25) are arranged on the periphery of the bottom of the reagent hole (21);

a lower bottom plate (26) is fixed at the bottom of the locking groove (25), and the end part of the lower bottom plate (26) protrudes out of the opening of the locking groove (25).

7. The kit for detecting a novel coronavirus based on fluorescent quantitation of claim 6,

the locking part (4) comprises a rotating rod (41), a third spring (42) arranged on one side of the rotating rod (41) and a protection pad (43) arranged at the corner of the top of the rotating rod (41);

a bent rod (411) is fixed at the bottom of the rotating rod (41), an inclined surface is arranged at the end part of the bent rod (411), and the end part of the bent rod (411) protrudes out of the opening of the locking groove (25);

the bent rod (411) and the rotating rod (41) are hinged on the inner side wall of the locking groove (25).

8. The kit for detecting a novel coronavirus based on fluorescent quantitation of claim 7,

the outer side wall of the reagent tube (5) is provided with a plurality of clamping grooves (51), wherein

Reagent pipe (5) bottom descend to with during the inclined plane contact of knee lever (411), dwang (41) rotate, so that dwang (41) joint is in draw-in groove (51).