CN219081131U - Nucleic acid detection sampling station convenient to dismantle - Google Patents

Abstract

The utility model relates to the field of nucleic acid detection sampling stations, in particular to a nucleic acid detection sampling station convenient to detach, which comprises a support column, a transverse plate, a longitudinal plate, a vertical plate and a top sealing plate; the bottom of the support column is contacted with the ground, jacks are arranged on two adjacent side surfaces of the bottom of the support column, and four groups of support columns are arranged; the two ends of the transverse plate and the longitudinal plate are respectively provided with an inserting rod, the two groups of inserting rods are matched and inserted into the inserting holes, and the transverse plate and the longitudinal plate are respectively provided with two groups; slots a are vertically arranged on the upper end surfaces of the transverse plate and the longitudinal plate and the end surfaces of the support columns facing the transverse plate and the longitudinal plate; two sides of the vertical plate are inserted into the slot a in a matching way, and four groups of vertical plates are arranged; the detachable top sealing plate is arranged at the top of the four groups of support columns, the four groups of vertical plates and the top sealing plate enclose a closed detection chamber, and an access door and a detection port are arranged on the side wall of the detection chamber. In the utility model, the installation and the disassembly of the nucleic acid detection sampling station are simple and convenient, the operation is quick, and the whole nucleic acid detection sampling station is closed, thereby being convenient for providing better working environment for medical staff.

Description

Nucleic acid detection sampling station convenient to dismantle

Technical Field

The utility model relates to the field of nucleic acid detection sampling stations, in particular to a nucleic acid detection sampling station convenient to detach.

Background

In order to facilitate nucleic acid detection sampling, simple nucleic acid sampling stations are built in all places.

But the nucleic acid sampling station that simply builds uses the curtain as the wall body generally, and the shielding function of curtain is relatively poor, when meetting in the circumstances of cold, high temperature, raining, snowing etc. bad weather of air, the medical personnel of the inside of hardly protecting, do not utilize the expansion of epidemic prevention work, and a small part uses the wall body to form sealedly, and the wall body is nevertheless sheltered from effectually, but the process of building is slow, dismantles also inconvenient.

The nucleic acid sampling station can not conveniently move from one sampling point to another sampling point, and the lower end of part of the nucleic acid sampling stations is provided with a roller which is only used for adjusting the position of the nucleic acid sampling stations in a limited area, for example, the position of the nucleic acid sampling stations is adjusted from one end of a square to the other end of the square, and when steps appear in the moving path of the nucleic acid sampling stations, the nucleic acid sampling stations can not conveniently move. And when part of the nucleic acid sampling stations are produced and installed, sealant can be filled in gaps to improve the sealing performance of the nucleic acid sampling stations, but the nucleic acid sampling stations cannot be detached after being installed, and the nucleic acid sampling stations are inconvenient to move in the later period.

Disclosure of Invention

The utility model aims at solving the problem that a wall-enclosed nucleic acid detection sampling station in the background technology is inconvenient to detach, and provides a nucleic acid detection sampling station convenient to detach.

The technical scheme of the utility model is as follows: a nucleic acid detection sampling station convenient to detach comprises a house frame, vertical plates arranged on the front, rear, left and right surfaces of the house frame and a top sealing plate arranged on the top of the house frame;

the house frame comprises four support columns which are distributed in a rectangular shape, and a transverse plate and a longitudinal plate which are used for connecting the lower ends of the four support columns; the lower ends of the side surfaces of the support columns, which are connected with the transverse plates and the longitudinal plates, are provided with jacks; the two ends of the transverse plate and the longitudinal plate are respectively provided with an inserting rod for being inserted into the inserting holes; the inserted bars on the transverse plate and the longitudinal plate are inserted into the insertion holes so as to connect the four support columns; slots a are arranged on the upper end face of the transverse plate, the upper end face of the longitudinal plate and the side face of the support column provided with jacks; the width of the slot a is equal to the thickness of the vertical plate; the four vertical plates are respectively inserted into the slot a, and the top sealing plate is arranged at the top of the four groups of support columns; the house body frame, the four groups of vertical plates and the top sealing plate enclose a closed detection chamber, and an access door and a detection opening are arranged on the side wall of the detection chamber.

As a preferable scheme of the utility model, the bottom of the support column is provided with a fixed plate, and the fixed plate is connected with the ground through a plurality of groups of expansion bolts. Further, the cross plate and the longitudinal plate are the same in size.

As a preferred embodiment of the utility model, the upper end surfaces of the risers are coplanar with the upper end surfaces of the support columns.

As the preferable scheme of the utility model, the tops of the four groups of support columns are vertically provided with slots b, the bottom of the top sealing plate is provided with four groups of inserting blocks, and the four groups of inserting blocks are respectively matched and inserted into the four groups of slots b; four groups of locking bolts are arranged at the top of the support column, and the locking bolts are matched and screwed into threaded holes formed in the inserting block.

As a preferable scheme of the utility model, an access door is arranged on one group of vertical plates, and detection ports are arranged on the other two groups of opposite vertical plates. The four sets of risers are identical in size.

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

during installation, the transverse plates and the longitudinal plates are firstly in butt joint with the four groups of support columns, then the four groups of support columns are fixed, the four groups of vertical plates are inserted into the slot a from the upper parts of the support columns, and finally the top sealing plate is fixed. When the support is detached, the top sealing plate is detached firstly, then the connection between the four groups of support columns and the ground is detached, and finally the support columns and the vertical plates are separated. The installation and the dismantlement of nucleic acid detection sampling station are simple and convenient, and the operation is swift, and nucleic acid detection sampling station is whole for closed, is convenient for provide better operational environment for medical personnel.

Drawings

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

fig. 2 and 3 are top cross-sectional views of fig. 1.

Reference numerals: 1. a support column; 2. a jack; 3. a fixing plate; 4. an expansion bolt; 5. a cross plate; 6. a longitudinal plate; 7. a slot a; 8. a riser; 9. a slot b; 10. a top sealing plate; 11. inserting blocks; 12. a rod; 13. a locking bolt; 14. an access door; 15. and detecting the mouth.

Detailed Description

The utility model is further illustrated and described below in connection with specific embodiments. The described embodiments are merely exemplary of the present disclosure and do not limit the scope. The technical features of the embodiments of the utility model can be combined correspondingly on the premise of no mutual conflict.

Example 1

As shown in fig. 1-3, the utility model provides a nucleic acid detection sampling station convenient to detach, which comprises a support column 1, a transverse plate 5, a longitudinal plate 6, a vertical plate 8 and a top sealing plate 10;

the support column 1 is vertically arranged, and the bottom of the support column 1 is contacted or connected with the ground; as shown in fig. 3, the connection is as follows: the bottom of the support column 1 is provided with a fixed plate 3, the fixed plate 3 is connected with the ground through a plurality of groups of expansion bolts, the adjacent two sides of the bottom of the support column 1 are provided with jacks 2, the support column 1 is provided with four groups, and the four groups of support columns 1 are distributed in a rectangular shape; the two ends of the transverse plate 5 are provided with the inserting rods 12, the two groups of inserting rods 12 are matched and inserted into the inserting holes 2, and the transverse plate 5 is provided with two groups; the two ends of the longitudinal plate 6 are provided with the inserted bars 12, the two groups of inserted bars 12 are matched and inserted into the insertion holes 2, and the longitudinal plate 6 is provided with two groups; the upper end face of the transverse plate 5 and the end face of the support column 1 facing the transverse plate 5 are vertically provided with slots a7, and the upper end face of the longitudinal plate 6 and the end face of the support column 1 facing the longitudinal plate 6 are provided with slots a7; two sides of the vertical plate 8 are inserted into the slot a7 in a matching way, the upper end face of the vertical plate 8 is coplanar with the upper end face of the support column 1, and four groups of vertical plates 8 are arranged; the top sealing plate 10 is detachably arranged at the tops of the four groups of support columns 1; as shown in fig. 2, the top sealing plate 10 and the supporting column 1 are specifically connected in the following manner: the tops of the four groups of support columns 1 are vertically provided with slots b9, the bottoms of the top sealing plates 10 are provided with four groups of inserting blocks 11, and the four groups of inserting blocks 11 are respectively matched and inserted into the four groups of slots b 9; four groups of locking bolts 13 are arranged at the top of the support column 1, the locking bolts 13 are matched and screwed into threaded holes formed in the plug block 11, four groups of support columns 1, four groups of vertical plates 8 and the top sealing plate 10 enclose a closed detection chamber, and an access door 14 and a detection port 15 are formed in the side wall of the detection chamber. One group of risers 8 is provided with an access door 14, and the other two groups of opposite risers 8 are provided with detection ports 15.

Working principle: during installation, the transverse plate 5 and the longitudinal plate 6 are firstly in butt joint with the four groups of support columns 1, then the four groups of support columns 1 are fixed, the four groups of vertical plates 8 are inserted into the slots a7 from the upper parts of the support columns 1, and finally the top sealing plate 10 is fixed. When the support is detached, the top sealing plate 10 is detached firstly, then the connection between the four groups of support columns 1 and the ground is detached, and finally the support columns 1 and the vertical plates 8 are separated.

In this embodiment, the installation and the dismantlement of nucleic acid detection sampling station are simple and convenient, and the operation is swift, and the nucleic acid detection sampling station is whole for closed, is convenient for provide better operational environment for medical personnel.

Example two

As shown in fig. 1-3, the utility model provides a nucleic acid detection sampling station convenient to detach, which comprises a support column 1, a transverse plate 5, a longitudinal plate 6, a vertical plate 8 and a top sealing plate 10;

the support column 1 is vertical to be set up, and support column 1 bottom and ground contact or be connected, and the mode of connection is: the bottom of the support column 1 is provided with a fixed plate 3, the fixed plate 3 is connected with the ground through a plurality of groups of expansion bolts, the adjacent two sides of the bottom of the support column 1 are provided with jacks 2, the support column 1 is provided with four groups, and the four groups of support columns 1 are distributed in a rectangular shape; the two ends of the transverse plate 5 are provided with the inserting rods 12, the two groups of inserting rods 12 are matched and inserted into the inserting holes 2, and the transverse plate 5 is provided with two groups; the two ends of the longitudinal plate 6 are provided with the inserted bars 12, the two groups of inserted bars 12 are matched and inserted into the insertion holes 2, and the longitudinal plate 6 is provided with two groups; the upper end face of the transverse plate 5 and the end face of the support column 1 facing the transverse plate 5 are vertically provided with slots a7, and the upper end face of the longitudinal plate 6 and the end face of the support column 1 facing the longitudinal plate 6 are provided with slots a7; two sides of the vertical plate 8 are inserted into the slot a7 in a matching way, the upper end face of the vertical plate 8 is coplanar with the upper end face of the support column 1, and four groups of vertical plates 8 are arranged; the top shrouding 10 detachably sets up at four group support column 1 tops, and the concrete connected mode of top shrouding 10 and support column 1 is: the tops of the four groups of support columns 1 are vertically provided with slots b9, the bottoms of the top sealing plates 10 are provided with four groups of inserting blocks 11, and the four groups of inserting blocks 11 are respectively matched and inserted into the four groups of slots b 9; four groups of locking bolts 13 are arranged at the top of the support column 1, the locking bolts 13 are matched and screwed into threaded holes formed in the plug block 11, four groups of support columns 1, four groups of vertical plates 8 and the top sealing plate 10 enclose a closed detection chamber, and an access door 14 and a detection port 15 are formed in the side wall of the detection chamber. The transverse plates 5 and the longitudinal plates 6 are the same in size, and the four sets of vertical plates 8 are the same in size.

An access door 14 is arranged on one set of risers 8, and detection ports 15 are arranged on the other two sets of opposite risers 8, but the position distribution is not limited to the above, for example, the detection ports 15 can be arranged on any two sets of risers 8 in the three sets of risers 8, and can be flexibly adjusted according to the field environment.

Working principle: during installation, firstly, the transverse plate 5 and the longitudinal plate 6 are well connected with the four groups of support columns 1 in a butt joint mode, then the four groups of support columns 1 are fixed, then the four groups of vertical plates 8 are inserted into the slot a7 from the upper side of the support columns 1, finally, the top sealing plate 10 is fixed, and because the four groups of support columns 1 are identical in structure, the four groups of vertical plates 8 are identical in structure, and the transverse plate 5 and the longitudinal plate 6 are identical in structure, during installation, the transverse plate can be taken at will, special piece matching at specific positions is not needed, and the assembly is simpler. When the support is detached, the top sealing plate 10 is detached firstly, then the connection between the four groups of support columns 1 and the ground is detached, and finally the support columns 1 and the vertical plates 8 are separated.

In this embodiment, the installation and the dismantlement of nucleic acid detection sampling station are simple and convenient, and the operation is swift, and the nucleic acid detection sampling station is whole for closed, is convenient for provide better operational environment for medical personnel.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (7)

1. The nucleic acid detection sampling station convenient to detach is characterized by comprising a house frame, vertical plates (8) arranged on the front, rear, left and right surfaces of the house frame and a top sealing plate (10) arranged on the top of the house frame;

the house frame comprises four support columns (1) which are distributed in a rectangular shape, and a transverse plate (5) and a longitudinal plate (6) which are used for connecting the lower ends of the four support columns (1); the lower ends of the side surfaces of the support columns (1) connected with the transverse plates (5) and the longitudinal plates (6) are provided with jacks (2); the two ends of the transverse plate (5) and the longitudinal plate (6) are respectively provided with a plug rod (12) for being inserted into the jack (2); the inserted bars (12) on the transverse plates (5) and the longitudinal plates (6) are inserted into the insertion holes (2) so as to connect the four support columns (1); the upper end face of the transverse plate (5), the upper end face of the longitudinal plate (6) and the side face of the support column (1) provided with the jack (2) are provided with slots a (7); the width of the slot a (7) is equal to the thickness of the vertical plate (8); four vertical plates (8) are respectively inserted into the slots a (7), and a top sealing plate (10) is arranged at the tops of the four groups of support columns (1); the house body frame, the four groups of vertical plates (8) and the top sealing plate (10) enclose a closed detection chamber, and an access door (14) and a detection port (15) are arranged on the side wall of the detection chamber.

2. The nucleic acid detecting and sampling station convenient to detach according to claim 1, wherein a fixing plate (3) is arranged at the bottom of the supporting column (1), and the fixing plate (3) is connected with the ground through a plurality of groups of expansion bolts.

3. The nucleic acid detecting and sampling station according to claim 1, wherein the transverse plate (5) and the longitudinal plate (6) are the same size.

4. The nucleic acid detecting and sampling station according to claim 1, characterized in that the upper end face of the vertical plate (8) is coplanar with the upper end face of the support column (1).

5. The nucleic acid detecting and sampling station convenient to detach according to claim 1, wherein slots b (9) are vertically arranged at the tops of the four groups of support columns (1), four groups of inserting blocks (11) are arranged at the bottom of the top sealing plate (10), and the four groups of inserting blocks (11) are respectively matched and inserted into the four groups of slots b (9); four groups of locking bolts (13) are arranged at the top of the support column (1), and the locking bolts (13) are matched and screwed into threaded holes formed in the inserting block (11).

6. The nucleic acid detecting and sampling station according to claim 1, characterized in that an access door (14) is provided on one set of risers (8), and detection ports (15) are provided on the other two sets of opposing risers (8).

7. The nucleic acid detecting and sampling station according to claim 1, characterized in that the four sets of risers (8) are of the same size.

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