CN217228649U - Kit for detecting microbial molecules - Google Patents

Abstract

The utility model discloses a kit for microbial molecule detection belongs to medical instrument technical field, this kit for microbial molecule detection includes heat conduction shell and last flip, the articulated connection between heat conduction shell and the last flip, it insulates against heat cotton to go up the inside upper cover that has cup jointed of flip, the thermal-insulated cotton of upper cover and last flip lower surface parallel and level, the thermal-insulated cotton of upper cover is used for keeping warm for reagent pipe, when flip and heat conduction shell are closed, the thermal-insulated cotton of upper cover covers reagent pipe, prevent that the intraductal reagent of reagent from spilling because of reasons such as jolt, use semiconductor refrigeration piece cooperation heat conductor assembly to cool down the environment that reagent pipe located, prevent to lead to reagent to lose biochemical activity because of temperature fluctuation.

Description

Kit for detecting microbial molecules

Technical Field

The utility model relates to the technical field of medical equipment, more specifically say, relate to a kit for microbial molecule detection.

Background

The application of the microbial molecular detection technology in infectious diseases is to detect nucleic acid or protein of pathogens so as to perform identification, typing, drug resistance diagnosis, curative effect detection and prognosis judgment in the treatment process and the like on the pathogens. At present, a series of infectious diseases such as viral hepatitis, tuberculosis, venereal disease, influenza, AIDS and the like can be diagnosed and treated by a molecular diagnosis technology, and the generation of a kit is just for enabling experimenters to get rid of a heavy reagent preparation and optimization process.

CN214029824U discloses a kit for detecting microbial molecules, which comprises a kit main body, wherein the top of the kit main body is connected with a box cover; the two sides of the box cover are movably connected with rotating shafts, the outer side wall of each rotating shaft is fixedly sleeved with a handle, and the outer side wall of each handle is fixedly sleeved with a plastic sleeve; kit main part bottom inner wall fixed mounting has the foam-rubber cushion, kit main part bottom inner wall just is located the inboard fixedly connected with sleeve of foam-rubber cushion, the utility model discloses in, through being provided with sleeve, telescopic link, expanding spring, antifriction bearing, settle the disc and support and press devices such as reference column, expanding spring provides elasticity for the telescopic link, after opening the lid, expanding spring pushes up the telescopic link and goes for reagent pipe exposes the kit main part outside, has cup jointed antifriction bearing on the telescopic link simultaneously, and the antifriction bearing lateral wall has cup jointed the settlement disc, makes and settles the disc and can rotate, the staff of being convenient for take, the device simple structure facilitates the use.

In the prior art, reagents in the reagent kit cannot be used and consumed instantly, the reagent kit can be opened to be completely used for a certain period of time under most conditions, and the biochemical activity of the reagents is influenced by the temperature fluctuation at that time, so that the result of microbial molecule detection is influenced.

SUMMERY OF THE UTILITY MODEL

To the problems existing in the prior art, the object of the present invention is to provide a kit for detecting microbial molecules, which is used for solving the technical problems mentioned in the background art.

In order to solve the problem, the utility model adopts the following technical scheme:

the utility model provides a kit for microbial molecule detection, includes heat conduction shell and upper cover, articulated between heat conduction shell and the upper cover is connected, the inside thermal-insulated cotton of upper cover that has cup jointed of upper cover, the thermal-insulated cotton of upper cover and upper cover lower surface parallel and level, the thermal-insulated cotton of upper cover are used for keeping warm for reagent pipe, and when upper cover and heat conduction shell were closed, the thermal-insulated cotton of upper cover covered reagent pipe, prevent that the reagent in the reagent pipe from spilling because of reasons such as the slope of jolting.

Optionally, a fixing substrate fixing groove is formed in the upper edge of the heat conduction shell, a fixing groove side edge is arranged on the side face of the fixing substrate fixing groove, the fixing groove side edge is perpendicular to the fixing groove side edge, the fixing substrate fixing groove is used for installing a fixing substrate, the fixing groove side edge is connected with the side face of the fixing substrate in a transition fit mode, and after the fixing substrate is correctly installed in the fixing groove, the upper surface of the fixing substrate is flush with the top of the heat conduction shell.

Optionally, fixed base plate fixed slot internal clamping has fixed base plate, fixed base plate is last to have seted up a plurality of reagent pipe fixed orificess, and is a plurality of reagent pipe fixed orificess is in fixed base plate central authorities equidistant evenly distributed, distance between reagent pipe fixed orificess and the fixed slot side is greater than the distance between reagent pipe fixed orificess and the reagent pipe fixed orificess, the joint has the reagent pipe in the reagent pipe fixed orifices, reagent pipe top is provided with reagent pipe outer fringe, reagent pipe outer fringe lower surface laminates with fixed base plate upper surface mutually, and reagent pipe equidistant evenly distributed makes the cooling effect homogeneous of heat conduction post to the reagent pipe stable, and the distance between reagent pipe fixed orifices and the fixed slot side is used for making the heat conduction post more press close to the reagent pipe and non-insulating layer, avoids refrigeration efficiency to reduce.

It is optional, excessive cooperation installs the insulating layer in the heat conduction shell, insulating layer upper surface and fixed baseplate fixed slot parallel and level, two semiconductor refrigeration piece mounting holes have been seted up to the insulating layer bottom, the heat conductor assembly has been placed on the internal surface of insulating layer bottom, the heat conductor assembly includes soaking plate and heat conduction post, welded connection between soaking plate and the heat conduction post, the insulating layer is used for isolated heat conduction shell and the space that reagent pipe located, prevents that the cold air in the space that reagent pipe located from carrying out the heat exchange with the heat conduction shell and leading to the refrigeration efficiency to reduce, and soaking plate and heat conduction post are copper, can conduct the refrigeration face of refrigeration semiconductor piece better with the heat of the air in the space that reagent pipe located.

It is optional, semiconductor refrigeration piece is installed in the embedding of semiconductor refrigeration piece mounting hole, semiconductor refrigeration piece upper surface pastes at the soaking plate lower surface, semiconductor refrigeration piece lower surface pastes upwards at the refrigeration face of heat conduction shell bottom internal surface on-semiconductor refrigeration piece, and the radiating surface is downwards, and semiconductor refrigeration piece utilizes the Peltier effect, follows the refrigeration face heat absorption to conduct the heat conduction shell with the heat from the radiating surface, the heat conduction shell is the aluminum alloy material, can conduct whole heat conduction shell from the bottom rapidly high-efficiently, and dispel the heat in the outside air passively.

Optionally, a battery compartment is clamped at the bottom of the heat-conducting shell, a charging port, a power switch and electric quantity indicator lamps are arranged on the side surface of the battery compartment, the electric quantity indicator lamps are located on the right side of the power switch and are horizontally arranged at equal intervals, the battery compartment is used for supplying power to the semiconductor chilling plates and maintaining the normal chilling process of the semiconductor chilling plates, and the power switch is used for cutting off the power supply to the semiconductor chilling plates after the reagent in the reagent tube is used up so as to save energy;

compared with the prior art, the utility model has the advantages of:

the upper cover thermal-insulated cotton is used for keeping warm for the reagent pipe in the present case, and when upward flip and heat conduction shell were closed, the upper cover thermal-insulated cotton covered the reagent pipe, prevented that the intraductal reagent of reagent from spilling because of reasons such as jolt slope, used semiconductor refrigeration piece cooperation heat conduction ware assembly to cool down the environment that the reagent pipe was located, prevented to lead to the reagent to lose biochemical activity because of the temperature fluctuation.

Drawings

Fig. 1 is a schematic view of an axial measurement structure of the present invention;

fig. 2 is a schematic diagram of the explosion structure of the present invention;

fig. 3 is an enlarged schematic view of F in fig. 2.

The reference numbers in the figures illustrate:

1. a thermally conductive housing; 101. fixing a substrate fixing groove; 102. fixing the side edge of the groove; 2. an upper flip cover; 201. covering with heat insulation cotton; 3. a battery compartment; 301. a charging port; 302. a power switch; 303. an electric quantity indicator light; 4. a semiconductor refrigeration sheet; 5. a thermal insulation layer; 501. a semiconductor refrigeration piece mounting hole; 6. a heat conductor assembly; 601. a vapor chamber; 602. a heat-conducting column; 7. fixing the substrate; 701. a reagent tube fixing hole; 8. a reagent tube; 801. the outer edge of the reagent tube.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention based on the embodiments of the present invention.

Example 1

As shown in fig. 1-3, a kit for detecting microbial molecules comprises a heat-conducting shell 1 and an upper flip cover 2, wherein the heat-conducting shell 1 is hinged to the upper flip cover 2, an upper cover heat-insulating cotton 201 is sleeved inside the upper flip cover 2, and the upper cover heat-insulating cotton 201 is flush with the lower surface of the upper flip cover 2.

In the implementation of this embodiment: the upper cover heat insulation cotton 201 is used for preserving heat of the reagent tube 8, and when the upper flip cover 2 is closed with the heat conduction shell 1, the upper cover heat insulation cotton 201 covers the reagent tube 8, so that the reagent in the reagent tube 8 is prevented from leaking due to reasons such as bumping, inclining and the like.

Example 2

As shown in fig. 1 to 3, a fixing substrate fixing groove 101 is formed inside an upper edge of the heat conductive housing 1, and a fixing groove side 102 is formed at a side of the fixing substrate fixing groove 101, where the fixing groove side 102 is perpendicular to the fixing substrate fixing groove 101.

In this embodiment: the fixing substrate fixing groove 101 is used for installing the fixing substrate 7, the side edge 102 of the fixing groove is in transition fit connection with the side surface of the fixing substrate 7, and after the fixing substrate 7 is correctly installed in the fixing substrate fixing groove 101, the upper surface of the fixing substrate 7 is flush with the top of the heat conduction shell 1.

Specifically, fixed base plate 7 has been pegged graft in fixed base plate fixed slot 101, fixed base plate 7 is last to have seted up a plurality of reagent pipe fixed orificess 701, a plurality of reagent pipe fixed orificess 701 are at fixed base plate 7 central authorities equidistant evenly distributed, the distance between reagent pipe fixed orifices 701 and fixed slot side 102 is greater than the distance between reagent pipe fixed orifices 701 and the reagent pipe fixed orifices 701, the pegging graft has reagent pipe 8 in reagent pipe fixed orifices 701, reagent pipe 8 top is provided with reagent pipe outer fringe 801, reagent pipe outer fringe 801 lower surface laminates with fixed base plate 7 upper surface mutually.

In this embodiment: the reagent pipe 8 is evenly distributed at equal intervals, so that the cooling effect of the heat-conducting columns 602 on the reagent pipe 8 is uniform and stable, and the distance between the reagent pipe fixing holes 701 and the fixing groove side edges 102 is used for enabling the heat-conducting columns 602 to be closer to the reagent pipe 8 rather than the heat-insulating layer 5, so that the reduction of the refrigeration efficiency is avoided.

Specifically, excessive cooperation is installed in heat conduction shell 1 and is had insulating layer 5, 5 upper surfaces of insulating layer and fixed substrate fixed slot 101 parallel and level, two semiconductor chilling plate mounting hole 501 have been seted up to 5 bottoms of insulating layer, heat conductor assembly 6 has been placed on the internal surface of 5 bottoms of insulating layer, heat conductor assembly 6 includes soaking plate 601 and heat conduction post 602, welded connection between soaking plate 601 and the heat conduction post 602, heat conduction post 602 is arranged in the gap between reagent pipe 8 and the reagent pipe 8, and heat conduction post 602 does not with reagent pipe 8 direct contact.

In this embodiment: the insulating layer 5 is used for isolating the space where the heat conduction shell 1 and the reagent tube 8 are located, and prevents that cold air in the space where the reagent tube 8 is located from exchanging heat with the heat conduction shell 1 to cause the reduction of the refrigeration efficiency, and the soaking plate 601 and the heat conduction column 602 are both copper, and can better conduct the heat of the air in the space where the reagent tube 8 is located to the refrigeration surface of the semiconductor refrigeration piece 4.

Specifically, the semiconductor refrigeration piece 4 is embedded into the semiconductor refrigeration piece mounting hole 501, the upper surface of the semiconductor refrigeration piece 4 is adhered to the lower surface of the soaking plate 601, and the lower surface of the semiconductor refrigeration piece 4 is adhered to the inner surface of the bottom of the heat conduction shell 1.

In this embodiment: the refrigeration face of semiconductor refrigeration piece 4 is upwards, and the cooling surface is downwards, and semiconductor refrigeration piece 4 utilizes the Peltier effect, follows the refrigeration face heat absorption to conduct the heat from the cooling surface to heat conduction shell 1, heat conduction shell 1 is the aluminum alloy material, can conduct whole heat conduction shell 1 from the bottom with the heat rapidly high-efficiently, and dispel the heat passively in the outside air.

Specifically, heat conduction shell 1 bottom joint has battery compartment 3, and 3 sides in battery compartment are provided with charge mouth 301, switch 302, electric quantity pilot lamp 303, and a plurality of electric quantity pilot lamps 303 are located switch 302 right side, and are equidistant horizontal arrangement.

In this embodiment: the battery compartment 3 is used for supplying power to the semiconductor refrigeration piece 4 and maintaining the normal refrigeration process of the semiconductor refrigeration piece 4, and the power switch 302 is used for disconnecting the power supply to the semiconductor refrigeration piece 4 after the reagent in the reagent tube 8 is used up so as to save energy.

The utility model discloses a theory of operation and use flow: when the reagent in the reagent pipe 8 needs to be refrigerated, the battery compartment 3 supplies power to the semiconductor refrigeration sheet 4, at the moment, heat is conducted to the heat conduction column 602 from the air around the reagent pipe 8 and is conducted to the soaking plate 601 from the heat conduction column 602, the refrigeration surface of the semiconductor refrigeration sheet 4 absorbs the heat and releases the heat to the heat conduction shell 1, and the heat is dissipated to the outside air through the heat conduction shell 1, and because the heat insulation layer 5 is a heat insulation material, the air temperature around the reagent pipe 8 is reduced, and the biochemical activity of the reagent is maintained.

The above is only the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the improvement concept of the present invention within the technical scope disclosed in the present invention, and all the technical solutions and the improvement concepts of the present invention should be covered by the scope of the present invention.

Claims (6)

1. A kit for detecting a microbial molecule, characterized in that: including heat conduction shell (1) and last flip (2), articulated connection between heat conduction shell (1) and last flip (2), it insulates against heat cotton (201) to go up flip (2) inside cup jointed the upper cover, the upper cover insulates against heat cotton (201) and goes up flip (2) lower surface parallel and level.

2. The kit for detecting a microbial molecule according to claim 1, wherein: the fixed substrate fixing groove (101) is formed in the upper edge of the heat conduction shell (1), a fixing groove side edge (102) is arranged on the side face of the fixed substrate fixing groove (101), and the fixing groove side edge (102) is perpendicular to the fixed substrate fixing groove (101).

3. The kit for detecting a microbial molecule according to claim 2, wherein: fixed base plate (7) have been connect to the joint in fixed base plate fixed slot (101), a plurality of reagent pipe fixed orifices (701) have been seted up on fixed base plate (7), and are a plurality of reagent pipe fixed orifices (701) are at fixed base plate (7) equidistant evenly distributed in the center, the distance between reagent pipe fixed orifices (701) and fixed slot side (102) is greater than the distance between reagent pipe fixed orifices (701) and reagent pipe fixed orifices (701), joint has reagent pipe (8) in reagent pipe fixed orifices (701), reagent pipe (8) top is provided with reagent pipe outer fringe (801), reagent pipe outer fringe (801) lower surface laminates with fixed base plate (7) upper surface mutually.

4. The kit for detecting a microbial molecule according to claim 1, wherein: excessive cooperation is installed in heat conduction shell (1) insulating layer (5), insulating layer (5) upper surface and fixed base plate fixed slot (101) parallel and level, two semiconductor refrigeration piece mounting holes (501) have been seted up to insulating layer (5) bottom, heat conductor assembly (6) have been placed on insulating layer (5) bottom internal surface, heat conductor assembly (6) are including soaking board (601) and heat conduction post (602), welded connection between soaking board (601) and heat conduction post (602).

5. The kit for the detection of a microbial molecule according to claim 4, wherein: semiconductor refrigeration piece (4) are installed to the embedded semiconductor refrigeration piece mounting hole (501), semiconductor refrigeration piece (4) upper surface is pasted at soaking board (601) lower surface, semiconductor refrigeration piece (4) lower surface is pasted on heat conduction shell (1) bottom internal surface.

6. The kit for the detection of a microbial molecule according to claim 1, wherein: the heat conduction shell (1) bottom joint has battery compartment (3), battery compartment (3) side is provided with charge mouth (301), switch (302), electric quantity pilot lamp (303), and is a plurality of electric quantity pilot lamp (303) are located switch (302) right side, and are equidistant horizontal arrangement.

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