CN216103488U - Gene noninvasive detection kit - Google Patents

Abstract

The utility model relates to a gene noninvasive detection kit, which comprises a storage box and a kit, wherein a plurality of rows of storage cavities with openings at the upper ends are uniformly distributed on the storage box, the lower ends of the storage cavities are communicated with spring cavities, first springs are arranged in the spring cavities, sliding cylinders are sleeved in the storage cavities in a sliding manner, the kit is inserted into the sliding cylinders, sliding cavities are arranged at the positions of the storage boxes between the left and right adjacent sliding cylinders, locking rods are arranged in the sliding cavities, the left and right ends of each locking rod penetrate through the storage box, the left ends of the locking rods are inserted into corresponding limiting holes, the right sides of the locking rods are in contact with the side walls of the corresponding sliding cylinders, pistons are fixed on the locking rods, the pistons slide in the sliding cavities, second springs are arranged in the sliding cavities, the kit is placed into the storage cavities at one time, and the kit is fixed by utilizing the friction force between the kit and the sliding cylinders, so that the kit is prevented from being separated from the storage cavities and damaged in the transportation process; the reagent box is taken every time, the left lock rod is triggered to move, the reagent boxes adjacent to the left side are automatically ejected, and the reagent boxes are taken in sequence conveniently.

Description

Gene noninvasive detection kit

Technical Field

The utility model belongs to the technical field of medical instruments, and particularly relates to a gene noninvasive detection kit.

Background

The kit is a box for containing chemical reagents for detecting chemical components, drug residues, virus types and the like, wherein the gene detection is the most effective mode by mainly utilizing specific genes of viruses aiming at the virus type detection, when a large-range epidemic disease outbreak occurs, the gene noninvasive detection is needed for a large-range population, even if virus infectors are isolated, the further spread of the viruses is avoided, and the epidemic disease is rapidly controlled.

In order to facilitate the storage and transportation of the kit and avoid the damage of the kit, the kit is usually placed in a specific storage box, the kit needs to be taken in sequence during gene detection, the kit is easy to miss once the kit is taken from the storage box randomly, in order to prevent the omission of the kit, a worker needs to check whether the kit is forgotten in the storage box after carrying out gene noninvasive detection for the masses by using the kit, and further improvement is needed aiming at the defects of the prior art.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a gene noninvasive detection kit to solve the above problems.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a gene does not have detection kit of wound, is including storing box, kit, evenly distributed has multirow upper end open-ended storing chamber on the storage box, and storing chamber lower extreme intercommunication has the spring chamber, is provided with first spring in the spring chamber, and the slip section of thick bamboo that upper end opening and lower extreme are sealed has been cup jointed in the storing intracavity slip, and the kit inserts in the slip section of thick bamboo, and the card of kit upper end is in storing the chamber upper end, slip section of thick bamboo downside and first spring upper end fixed connection, first spring lower extreme and spring chamber lower extreme fixed connection.

The sliding cylinder is characterized in that a limiting hole is formed in the right side of the sliding cylinder close to the lower end, a sliding cavity is formed in the position, between the left adjacent sliding cylinders, of the storage box, a locking rod is arranged in the sliding cavity, the left end of the locking rod penetrates through the storage box, the left end of the locking rod is inserted into the corresponding limiting hole, the right side of the locking rod is in contact with the side wall of the sliding cylinder, which corresponds to one side of the locking rod, a piston is fixed on the locking rod and slides in the sliding cavity, a second spring is arranged in the sliding cavity, the left end of the second spring is fixedly connected with the left end of the sliding cavity, and the right end of the second spring is fixedly connected with the left side of the piston.

Every row the storing chamber all corresponds and is provided with a lock cap, and the lock cap chooses for use the magnet material, utilizes the magnetic force of magnet to adsorb on storing the box, will be located the kit of rightmost side and impress the storing chamber.

Preferably, the diameter of the section of the spring cavity is smaller than that of the storage cavity, so that the sliding cylinder is prevented from sliding into the spring cavity.

Preferably, the reagent kit is in transition fit connection with the sliding barrel, so that when the reagent kit is separated from the sliding barrel, friction force exists between the reagent kit and the sliding barrel.

Preferably, when the first spring naturally extends, the lower end of the sliding cylinder is separated from the lower end of the storage cavity, and the lower edge of the sliding cylinder is positioned on the lower side of the lock rod.

Preferably, the lower corner of the left side of the sliding cylinder is an inclined angle, so that the locking rod is pushed to move leftwards when the sliding cylinder slides downwards.

The utility model has the beneficial effects that: according to the utility model, the kit is placed into the storage cavity at one time, and the kit is in transition fit with the sliding barrel, so that friction force exists between the kit and the sliding barrel, the kit is fixed, and the kit is prevented from being separated from the storage cavity and damaged in the transportation process; and use the kit to carry out the gene and not have the time measuring of wound, under the effect of first spring, the kit that is located the rightmost side is upwards pushed away, make kit upper end protrusion in storage chamber, be convenient for take, and, when taking out the kit, frictional force between kit and the slide cartridge drives the slide cartridge and continues the rebound, move to the locking lever top until slide cartridge lower limb, under the effect of second spring elasticity, the locking lever moves right, the spacing hole separation of locking lever left end and adjacent slide cartridge, pop out the kit, be convenient for follow-up use kit, it all triggers left locking lever removal to take the kit promptly every time, make the adjacent kit auto-eject in left side, be convenient for take the kit in order in proper order, avoid the kit to be omitted.

Drawings

FIG. 1 is a view showing the construction of the present invention during transportation;

FIG. 2 is a block diagram of the present invention in use;

FIG. 3 is a partial enlarged view of the portion A in FIG. 1 according to the present invention.

Reference numbers in the figures: 1, storing the box; 101 a slide cavity; 2, a kit; 3 a storage chamber; 4, a sliding cylinder; 401, limiting a hole; 5 a spring cavity; 6 a first spring; 7 lock bar; 8, a piston; 9 a second spring; 10 locking cap.

Detailed Description

The utility model is described in further detail below with reference to the following figures and detailed description:

as shown in fig. 1-3, a gene noninvasive detection kit, including storing box 1, kit 2, it has multirow upper end open-ended storing chamber 3 to store evenly distributed on the box 1, 3 lower extremes in storing chamber communicate has spring chamber 5, be provided with first spring 6 in the spring chamber 5, sliding sleeve 4 that upper end opening and lower extreme are sealed has been cup jointed in the storing chamber 3 in the slip, kit 2 inserts in the slip 4, and the card of 2 upper ends of kit is in storing chamber 3 upper ends, slip 4 downside and the fixed connection of 6 upper ends of first spring, 6 lower extremes of first spring and 5 lower extremes in spring chamber.

In this embodiment, 4 right sides of slide cartridge are close to the lower extreme position and are provided with spacing hole 401, and control 1 position of storing box between the adjacent slide cartridge 4 and be provided with smooth chamber 101, be provided with locking lever 7 in the smooth chamber 101, both ends all run through storing box 1 about locking lever 7, and locking lever 7 left end inserts in the spacing hole 401 that corresponds, 7 right sides of locking lever and the contact of the slide cartridge 4 lateral wall that corresponds one side, be fixed with piston 8 on the locking lever 7, piston 8 slides in smooth chamber 101, and be provided with second spring 9 in the smooth chamber 101, second spring 9 left end and the fixed connection in smooth chamber 101 left end, second spring 9 right-hand member and the fixed connection in piston 8 left side.

In this embodiment, every row storing chamber 3 all corresponds and is provided with a lock cap 10, and the lock cap 10 chooses for use the magnet material, utilizes the magnetic force of magnet to adsorb to store box 1 on, will be located the reagent box 2 that is on the rightmost side and impress and store chamber 3.

In this embodiment, the spring chamber 5 has a smaller cross-sectional diameter than the reservoir chamber 3, preventing the spool 4 from sliding into the spring chamber 5.

In this embodiment, the reagent cartridge 2 is in transition fit connection with the slide barrel 4, so that when the reagent cartridge 2 is separated from the slide barrel 4, a friction force exists between the reagent cartridge 2 and the slide barrel 4.

In this embodiment, when the first spring 6 naturally extends, the lower end of the slide cylinder 4 is separated from the lower end of the storage chamber 3, and the lower edge of the slide cylinder 4 is located at the lower side of the lock lever 7.

In this embodiment, the lower corner of the left side of the sliding cylinder 4 is an inclined angle, which is convenient for pushing the lock rod 7 to move leftward when the sliding cylinder 4 slides downward.

The working principle of the utility model is as follows: when the kit 2 is conveyed to a use place, the right-most kit 2 is pressed into the storage cavity 3 by the lock cap 10, so that the kit 2 is prevented from being ejected and is convenient to transport, when the kit 2 is used for gene noninvasive detection, the lock cap 10 is taken down, the right-most kit 2 is pushed upwards under the action of the elastic force of the first spring 6, so that the upper end of the kit 2 protrudes out of the storage cavity 3, when the kit 2 is taken, the sliding barrel 4 is driven by the friction force between the kit 2 and the sliding barrel 4 to continuously move upwards until the lower edge of the sliding barrel 4 moves to the upper side of the lock rod 7, the lock rod 7 moves rightwards under the action of the elastic force of the second spring 9, the left end of the lock rod 7 is separated from the limiting hole 401 of the adjacent sliding barrel 4, so that the kit 2 is ejected, and the kit 2 is convenient to use later.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The gene noninvasive detection kit comprises a storage box and a kit, and is characterized in that: evenly distributed has multirow upper end open-ended storing chamber on the storage box, and storing chamber lower extreme intercommunication has the spring chamber, and the spring intracavity is provided with first spring, and the slip section of thick bamboo that upper end opening and lower extreme are sealed is cup jointed in the storing intracavity slip, and the kit inserts in the slip section of thick bamboo, and the card of kit upper end is in storing the chamber upper end, slip section of thick bamboo downside and first spring upper end fixed connection, first spring lower extreme and spring chamber lower extreme fixed connection.

2. The gene noninvasive detection kit of claim 1, characterized in that a position on the right side of the slide cylinder near the lower end is provided with a limiting hole, a position of the storage box between the left and right adjacent slide cylinders is provided with a slide cavity, a lock rod is arranged in the slide cavity, the left and right ends of the lock rod penetrate through the storage box, the left end of the lock rod is inserted into the corresponding limiting hole, the right side of the lock rod is in contact with the side wall of the slide cylinder on the corresponding side, a piston is fixed on the lock rod and slides in the slide cavity, a second spring is arranged in the slide cavity, the left end of the second spring is fixedly connected with the left end of the slide cavity, and the right end of the second spring is fixedly connected with the left side of the piston.

3. The kit of claim 1, wherein a locking cap is disposed in each row of the storage chambers, and the locking cap is made of a magnet.

4. The kit for gene noninvasive detection of claim 1, wherein the spring chamber has a smaller cross-sectional diameter than the storage chamber.

5. The kit for gene noninvasive detection of claim 1, wherein the kit is in transition fit connection with a slide cartridge.

6. The kit for gene noninvasive detection of claim 1, wherein when the first spring is naturally extended, the lower end of the slide cylinder is separated from the lower end of the storage chamber, and the lower edge of the slide cylinder is located under the lock lever.

7. The kit for gene noninvasive detection of claim 1, wherein the lower corner of the left side of the slide cylinder is an inclined angle.

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