CN111349540A

CN111349540A - Integrated microbial testing device

Info

Publication number: CN111349540A
Application number: CN201811560437.5A
Authority: CN
Inventors: 何义
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-12-20
Filing date: 2018-12-20
Publication date: 2020-06-30

Abstract

The invention discloses an integrated microorganism inspection device, relates to the field of biotechnology, and mainly aims to solve the problem that the operation is complicated because multiple devices are needed in the traditional microorganism inspection process; the inspection device includes a device body; a placing cavity is formed in the left side of the device body, and a tester is arranged in the placing cavity; a storage cavity is formed in the device body on the right side of the placing cavity; two rows of symmetrically arranged test tube sleeves are embedded on the right side of the device body, and the number of the test tube sleeves in a single row is at least three. The integrated type microorganism detection device adopts an integrated design, auxiliary instruments and test tubes which need to be used in the microorganism detection process can be placed through the drawer and the test tube sleeve, the operation flow in use is simplified, and meanwhile, the occupied area of the whole device can be effectively reduced through the arrangement of the placing cavity, the storage cavity and the embedded type test tube sleeve, so that the work of workers is facilitated.

Description

Integrated microbial testing device

Technical Field

The invention relates to the field of biotechnology, in particular to an integrated microorganism inspection device.

Background

The microorganisms include: bacteria, viruses, fungi, and some small protists, microscopic algae, etc., which are small and closely related to humans. The food can be widely applied to various fields such as food, medicine, industry and agriculture, environmental protection, sports and the like. In the textbooks of the mainland area of china and taiwan, microorganisms are classified into the following 8 major groups: bacteria, viruses, fungi, actinomycetes, rickettsia, mycoplasma, chlamydia, spirochete. Some microorganisms are visible to the naked eye, such as mushrooms, ganoderma lucidum, lentinus edodes, etc., which belong to fungi. Also microorganisms are a class of "non-cellular organisms" consisting of a few components, such as nucleic acids and proteins, but whose survival must be dependent on living cells.

Many kinds of equipment often need be used in traditional microorganism inspection work, including check out test set body, auxiliary instrument and sample test tube, it is comparatively loaded down with trivial details to operate like this, and a plurality of equipment also can occupy great space simultaneously, are unfavorable for the staff to develop work.

Disclosure of Invention

The present invention is directed to an integrated microorganism testing device to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme:

an integrated microbiological assay device comprising a device body; a placing cavity is formed in the left side of the device body, and a tester is arranged in the placing cavity; the tester is arranged at the movable end of the lifting device, and the fixed end of the lifting device is arranged at the bottom of the placing cavity; a storage cavity is formed in the position, located on the right side of the placing cavity, of the device body, a plurality of partition plates for placing drawers are fixed in the storage cavity, a sliding groove is formed in the position, located above the partition plates, of the inner wall of the storage cavity, and the drawers are slidably clamped in the sliding groove; two rows of symmetrically arranged test tube sleeves are embedded on the right side of the device body, and the number of the test tube sleeves in a single row is at least three.

On the basis of the technical scheme, the invention also provides the following optional technical scheme:

in one alternative: the top opening of placing the chamber still is provided with the protective cover, and the protective cover rotates connecting device main part.

In one alternative: the lifting device is an electric push rod.

In one alternative: the top of the partition board is also uniformly provided with balls which are movably embedded in the partition board, and the outer ball surface of each ball is in contact with the drawer.

In one alternative: the bottom of the test tube sleeve is also provided with a through hole, the position of the device body below the test tube sleeve is provided with a jacking cavity, and a jacking assembly is arranged in the jacking cavity; the jacking assembly comprises a screw rod and a driving sleeve sleeved on the periphery of the screw rod, and the driving sleeve is connected with the screw rod in a threaded fit manner; a guide rod is fixed at the bottom of the screw rod, a guide sleeve is sleeved on the periphery of the guide rod, and the guide sleeve is fixed on the cavity wall of the jacking cavity; a supporting plate is fixed at the top of the screw rod, and the width of the supporting plate is smaller than the aperture of the through hole; the jacking cavity is located and is fixed with the annular plate on the position of drive sleeve upper and lower both sides, and the drive sleeve rotates and connects the annular plate, the strip hole has been seted up on the position that the lateral wall of device body corresponds the drive sleeve, strip hole and jacking cavity intercommunication, and the partial cover body of drive sleeve stretches out the strip hole.

In one alternative: the top of the supporting plate is also provided with a cushion.

In one alternative: the tail end of the guide rod is further connected with a limiting block, and the width of the limiting block is smaller than the inner diameter of the guide sleeve.

In one alternative: the annular groove is formed in one side, close to the driving sleeve, of the annular plate, connecting rods are symmetrically fixed to two ends of the driving sleeve, a sliding block is fixed to the tail end of each connecting rod, and the sliding block is clamped in the annular groove in a sliding mode.

Compared with the prior art, the invention has the following beneficial effects:

1. the integrated type microorganism detection device adopts an integrated design, auxiliary instruments and test tubes which need to be used in the microorganism detection process can be placed by arranging the drawer and the test tube sleeve, the operation flow in use is simplified, and meanwhile, the occupied area of the whole device can be effectively reduced by arranging the placing cavity, the storage cavity and the embedded test tube sleeve, so that the work of workers is facilitated;

2. through setting up the jacking subassembly, can will place the test tube jack-up in the test tube cover, thereby solved shorter test tube and possibly submerged the test tube cover completely and lead to the problem that is difficult to take, the operation of jacking subassembly is got up swiftly conveniently simultaneously.

Drawings

FIG. 1 is a schematic sectional view of a main viewing angle of the present invention.

Fig. 2 is an enlarged schematic view of a in fig. 1.

Fig. 3 is an external view of the front view of the present invention.

Fig. 4 is an external view from a top view of the present invention.

Notations for reference numerals: 1-device body, 11-placing cavity, 111-protective cover, 12-jacking cavity, 13-caulking groove, 14-storage cavity, 141-clapboard, 1411-ball, 142-chute, 15-strip-shaped hole, 2-test tube sleeve, 21-through hole, 3-screw rod, 31-guide rod, 311-limiting block, 32-supporting plate, 321-soft pad, 4-guide sleeve, 5-annular plate, 51-annular groove, 6-driving sleeve, 61-connecting rod, 611-sliding block, 7-tester, 71-lifting device and 8-drawer.

Detailed Description

The present invention will be described in detail with reference to the following embodiments, wherein like or similar elements are designated by like reference numerals throughout the several views, and wherein the shape, thickness or height of the various elements may be expanded or reduced in practice. The examples are given solely for the purpose of illustration and are not intended to limit the scope of the invention. Any obvious modifications or variations can be made to the present invention without departing from the spirit or scope of the present invention.

Example 1

Referring to fig. 1 to 4, in an embodiment of the present invention, an integrated microorganism testing apparatus includes an apparatus body 1; a placing cavity 11 is formed in the left side of the device body 1, and a tester 7 is arranged in the placing cavity 11; the tester 7 is arranged at the movable end of the lifting device 71, and the fixed end of the lifting device 71 is arranged at the bottom of the placing cavity 11, so that the tester 7 can be lifted, and the tester 7 can be retracted into the placing cavity 11 through the lifting device 71 when the tester is not needed to be used, and damage is avoided;

furthermore, a protective cover 111 is further arranged at the opening at the top of the placing cavity 11, and the protective cover 111 is rotatably connected with the device main body 1, so that sundries can be prevented from being mixed into the placing cavity 11;

the specific structure of the lifting device 71 is not limited, and the lifting device 71 may be an electric push rod, a pneumatic push rod or a hydraulic push rod, and only needs to satisfy the condition of being able to drive the tester 7 to lift, preferably, in this embodiment, the lifting device 71 is an electric push rod;

the device body 1 is provided with a storage cavity 14 at the position on the right side of the placing cavity 11, a plurality of partition plates 14 for placing the drawer 8 are fixed in the storage cavity 14, a sliding groove 142 is arranged at the position on the inner wall of the storage cavity 14 above the partition plates 14, and the drawer 8 is slidably clamped in the sliding groove 142, so that the guiding effect can be achieved, and the drawer 8 is prevented from deviating in the moving process;

furthermore, balls 1411 are uniformly distributed on the top of the partition 141, the balls 1411 are movably embedded in the partition 141, and the outer ball surface of the balls 1411 is in contact with the drawer 8, so that the resistance of the drawer 8 in the drawing process can be reduced;

two rows of symmetrically arranged test tube sleeves 2 are embedded on the right side of the device body 1 and used for placing test tubes, and the number of the test tube sleeves 2 in a single row is at least three;

the integrated type microorganism detection device adopts an integrated design, auxiliary instruments and test tubes which need to be used in the microorganism detection process can be placed by arranging the drawer 8 and the test tube sleeve 2, so that the operation flow in use is simplified, and meanwhile, the occupied area of the whole device can be effectively reduced by arranging the placing cavity 11, the storage cavity 14 and the embedded test tube sleeve 2, so that the worker can conveniently carry out work;

when the embedded test tube sleeve 2 is used, a short test tube may be completely immersed in the test tube sleeve 2, so that the test tube is inconvenient to take, in order to solve the problem, in the embodiment, the bottom of the test tube sleeve 2 is further provided with a through hole 21, a jacking cavity 12 is formed in the position, below the test tube sleeve 2, of the device body 1, and a jacking assembly is installed in the jacking cavity 12;

the jacking assembly comprises a screw rod 3 and a driving sleeve 6 sleeved on the periphery of the screw rod 3, and the driving sleeve 6 is connected with the screw rod 3 in a threaded fit manner; a guide rod 31 is fixed at the bottom of the screw rod 3, a guide sleeve 4 is sleeved on the periphery of the guide rod 31, the guide sleeve 4 is fixed on the cavity wall of the jacking cavity 12, and the guide rod 31 and the guide sleeve 4 are matched to limit the moving direction of the screw rod 3; a supporting plate 32 is fixed at the top of the screw rod 3, and the width of the supporting plate 32 is smaller than the aperture of the through hole 21, so that the supporting plate 32 can be deeply inserted into the test tube sleeve 2; the annular plates 5 are fixed on the positions, located on the upper side and the lower side of the driving sleeve 6, of the jacking cavity 12, the driving sleeve 6 is connected with the annular plates 5 in a rotating mode, the positions of the driving sleeve 6 are limited by the annular plates 5 on the two sides, so that the screw rod 3 is driven to move up and down when the driving sleeve 6 rotates, correspondingly, the position, corresponding to the driving sleeve 6, of the side wall of the device body 1 is provided with a strip-shaped hole 15, the strip-shaped hole 15 is communicated with the jacking cavity 12, and part of the sleeve body of the driving sleeve 6 extends out of the strip-shaped hole 15, so that a worker can operate the driving sleeve;

further, a soft cushion 321 is arranged at the top of the supporting plate 32, so that the test tube can be prevented from being in hard contact with the test tube, and the test tube is protected;

furthermore, the tail end of the guide rod 31 is also connected with a limit block 311, the width of the limit block 311 is smaller than the inner diameter of the guide sleeve 4, and the guide rod 31 is prevented from being disengaged from the guide sleeve 4 by the limit block 311;

the specific connection mode of the driving sleeve 6 and the annular plate 5 is not limited, and in this embodiment, one of the connection modes is provided, specifically, an annular groove 51 is formed in one side of the annular plate 5 close to the driving sleeve 6, connecting rods 61 are symmetrically fixed to two ends of the driving sleeve 6, a slider 611 is fixed to a tail end of each connecting rod 61, and the slider 611 is slidably clamped in the annular groove 51.

Example 2

In an embodiment of the present invention, a microbiological inspection system includes the above-described integrated microbiological inspection apparatus.

The above description is only for the specific embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present disclosure, and all the changes or substitutions should be covered within the scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims

1. An integrated microbiological testing device comprising a device body (1); a placing cavity (11) is formed in the left side of the device body (1), and a tester (7) is arranged in the placing cavity (11); the device is characterized in that the tester (7) is arranged at the movable end of the lifting device (71), and the fixed end of the lifting device (71) is arranged at the bottom of the placing cavity (11); a storage cavity (14) is formed in the position, located on the right side of the placing cavity (11), of the device body (1), a plurality of partition plates (14) used for placing the drawers (8) are fixed in the storage cavity (14), sliding grooves (142) are formed in the positions, located above the partition plates (14), of the inner walls of the storage cavity (14), and the drawers (8) are slidably clamped in the sliding grooves (142); two rows of symmetrically arranged test tube sleeves (2) are embedded on the right side of the device body (1), and the number of the test tube sleeves (2) in a single row is at least three.

2. The integrated microorganism testing device according to claim 1, wherein a protective cover (111) is further provided at the top opening of the placing chamber (11), and the protective cover (111) is rotatably connected to the device body (1).

3. The integrated microbiological testing device according to claim 1 wherein said lifting means (71) is an electric push rod.

4. The integrated microorganism testing device according to claim 1, wherein balls (1411) are uniformly distributed on the top of the partition (141), the balls (1411) are movably embedded in the partition (141), and the outer ball surface of the balls (1411) is in contact with the drawer (8).

5. The integrated microorganism testing device according to any one of claims 1 to 4, wherein the bottom of the test tube sleeve (2) is further provided with a through hole (21), the device body (1) is provided with a jacking cavity (12) at a position below the test tube sleeve (2), and a jacking assembly is installed in the jacking cavity (12); the jacking assembly comprises a screw rod (3) and a driving sleeve (6) sleeved on the periphery of the screw rod (3), and the driving sleeve (6) is connected with the screw rod (3) in a threaded fit manner; a guide rod (31) is fixed at the bottom of the screw rod (3), a guide sleeve (4) is sleeved on the periphery of the guide rod (31), and the guide sleeve (4) is fixed on the cavity wall of the jacking cavity (12); a supporting plate (32) is fixed at the top of the screw rod (3), and the width of the supporting plate (32) is smaller than the aperture of the through hole (21); jacking chamber (12) are located and are fixed with annular plate (5) on the position of both sides about drive sleeve (6), and drive sleeve (6) rotate and go up annular plate (5), strip hole (15) have been seted up on the position that the lateral wall of device body (1) corresponds drive sleeve (6), strip hole (15) and jacking chamber (12) intercommunication, and the partial cover body of drive sleeve (6) stretches out strip hole (15).

6. The integrated microbiological test device according to claim 5, wherein a soft pad (321) is further provided on top of said pallet (32).

7. The integrated microorganism testing device according to claim 6, wherein a limiting block (311) is further connected to the end of the guide rod (31), and the width of the limiting block (311) is smaller than the inner diameter of the guide sleeve (4).

8. The integrated microorganism testing device according to claim 7, wherein an annular groove (51) is formed in one side of the annular plate (5) close to the driving sleeve (6), connecting rods (61) are symmetrically fixed at two ends of the driving sleeve (6), a sliding block (611) is fixed at the tail end of each connecting rod (61), and the sliding block (611) is slidably clamped in the annular groove (51).