CN214937417U - Microbial detection kit - Google Patents

Abstract

The utility model discloses a microorganism detection kit, which comprises a kit main body and a side door, wherein the internal space of the kit main body is divided into an upper layer and a lower layer, the outer wall of the kit main body corresponding to the upper layer space is a light-transmitting wallboard, a detachable light screen is inserted into the middle gap of the light-transmitting wallboard in an adaptive manner, and the outer wall of the kit main body corresponding to the lower layer space is a light-transmitting wallboard; test tube placing racks, heating devices and temperature sensors are arranged in the upper layer space and the lower layer space; the lower part of the kit main body is provided with a control box, a vibration motor and a single chip microcomputer are arranged in the control box, an output shaft of the vibration motor extends upwards out of the control box, the top end of the control box is fixed with a vibration plate, and the vibration plate is fixed with the lower bottom surface of the kit main body. The utility model can lead the detection personnel to detect different influences of illumination and non-illumination situations on the microorganism at the same temperature, thereby realizing the formation of a contrast test; and the sample can be quickly and automatically shaken up.

Description

Microbial detection kit

Technical Field

The utility model relates to a microbial detection technical field, more specifically the utility model relates to a microbial detection kit that says so.

Background

The biological reagent is an experimental diagnosis method with high sensitivity, strong specificity and good repeatability, and has been widely applied to various fields of immunological tests due to the stable reagent, easy preservation and simple and convenient operation, and the kit is used for the rapid detection of microorganisms.

At present, the microorganism detect reagent box on the market is various in kind, the pattern is various, but also has some not enoughly simultaneously, for example, can't carry out the contrast detection experiment that light-resistant cultivation and non-light-resistant cultivation, can't realize shaking up fast of sample in the testing process, can't avoid in the transportation sample test tube because of constantly rocking the collision impaired, can't be fine control detect time and temperature etc..

The detection of microorganisms has important significance in both theoretical research and production practice, so that the structure of the existing microorganism detection kit is improved, and the technical defects can be overcome.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a microorganism detection kit, its specific technical scheme as follows:

a microorganism detection kit comprises a kit main body and a side door hinged to the side face of the kit main body, wherein the inner space of the kit main body is divided into an upper layer and a lower layer, the outer wall of the kit main body corresponding to the upper layer space is a light-transmitting wall plate with a double-layer structure, a detachable light screen is inserted into a middle gap of the light-transmitting wall plate in a matched mode, and the outer wall of the kit main body corresponding to the lower layer space is a light-transmitting wall plate; the side door comprises a light-transmitting side door corresponding to the upper layer space and a light-tight side door corresponding to the lower layer space; the upper layer space and the lower layer space can be detachably provided with a test tube placing rack; heating devices are arranged on the bottom plates corresponding to the upper layer space and the lower layer space respectively, and temperature sensors are arranged in the upper layer space and the lower layer space; the kit comprises a kit body and is characterized in that a control box is arranged below the kit body, a vibration motor and a single chip microcomputer are arranged in the control box, an output shaft of the vibration motor extends upwards out of the control box, the top end of the control box is fixed with a vibration plate, the vibration plate is fixed with the lower bottom surface of the kit body, and the single chip microcomputer is electrically connected with the vibration motor, a heating device and a temperature sensor.

The utility model relates to a microorganism detect reagent box, two-layer about through falling into reagent box main part inner space, the light screen can be pulled down as required in upper space, changes into the printing opacity mode, and lower floor's space is light tight mode, makes the measurement personnel can detect under the same temperature and have illumination and no illumination situation to the different influences of microorganism to realize forming contrast experiment, excellent in use effect.

The utility model discloses still further set up vibrating motor in the bottom of kit main part, vibrating motor can make the kit main part that the splendid attire has the test tube realize vibrating in certain specific testing process, and then realizes shaking fast of sample evenly.

Additionally, the utility model discloses still all set up temperature sensor in upper space and lower floor's space to ensure that the temperature in two spaces keeps unanimous constantly, conveniently carry out contrast test.

Preferably, the test tube rack includes the test tube base, is fixed in the bracing piece of test tube base top surface intermediate position and be fixed in the test tube fixed plate at bracing piece top, be equipped with a plurality of test tube standing grooves that can hold the test tube bottom on the test tube base, it is equipped with a plurality of confession test tube male through-holes to correspond on the test tube fixed plate. This test tube rack not only can be reliable and stable place the test tube, makes the test tube deposit safely, and operating personnel takes the test tube also convenient and fast moreover.

Preferably, the bottom plates corresponding to the upper space and the lower space are respectively provided with a clamping groove, and the test tube base is clamped in the clamping grooves.

Preferably, four sides of the test tube fixing plate are respectively connected with the inner wall of the kit main body closest to the test tube fixing plate through damping springs, and the damping springs are detachably connected with the sides of the test tube fixing plate.

The vibration of the microorganism test tube can be weakened by the damping spring, and the test tube is prevented from shaking violently during transportation or shaking up.

Preferably, the test tube standing groove with be equipped with buffering elastic layer on the internal perisporium of through-hole to reduce the impaired risk of test tube because of the collision.

Preferably, ultraviolet germicidal lamps electrically connected with the single chip microcomputer are further installed in the upper layer space and the lower layer space. The ultraviolet germicidal lamp can sterilize the upper space and the lower space, and the probability of bacterial contamination of reagents or samples is reduced.

Preferably, a timer and a buzzer which are electrically connected with the single chip microcomputer are further arranged in the control box, so that the detection time can be accurately controlled.

Preferably, the light-tight side door corresponding to the lower layer space is provided with an operation button and a display panel which are electrically connected with the single chip microcomputer.

Preferably, the top opening part of test tube is provided with the test tube lid to prevent that the liquid sample in the test tube from because of rocking the spill.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic view of the internal structure of a microorganism detection kit of the present invention.

FIG. 2 is a schematic diagram of the external structure of the microorganism detection kit of the present invention.

Fig. 3 is a schematic structural view of the middle test tube rack of the present invention.

FIG. 4 is a schematic view of the structure of the test tube.

In the figure: 1-upper space, 2-light-transmitting wall board, 3-light-shielding board, 4-lower space, 5-light-transmitting wall board, 6-light-transmitting side door, 7-light-transmitting side door, 8-heating device, 9-control box, 10-vibration motor, 11-single chip microcomputer, 12-vibration board, 13-test tube base, 14-support rod, 15-test tube fixing board, 16-test tube placing groove, 17-through hole, 18-vibration damping spring, 19-buffer elastic layer, 20-ultraviolet sterilization lamp, 21-timer, 22-buzzer, 23-operation button, 24-display panel, 25-temperature sensor and 26-test tube cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example (b):

as shown in fig. 1-4, the embodiment of the utility model provides a microorganism detect reagent box, include the reagent box main part and articulate the side door on the side of reagent box main part, two-layer about the inner space of reagent box main part divide into, the outer wall of the reagent box main part that upper space 1 corresponds is bilayer structure's printing opacity wallboard 2, and detachable light screen 3 is inserted to the adaptation in the middle gap of printing opacity wallboard 2, and the outer wall of the reagent box main part that lower floor space 4 corresponds is light tight wallboard 5.

The side door comprises a light-transmitting side door 6 corresponding to the upper layer space 1 and a light-proof side door 7 corresponding to the lower layer space 4. The light-transmitting side door 6 corresponding to the upper space 1 is also a light-transmitting wall plate 2 with a double-layer structure, and a detachable light screen 3 is inserted into a gap in the middle of the light-transmitting side door to realize all-dimensional light transmission in the front, the back, the left, the right and the top of the upper space 1.

A test tube placing rack can be detachably arranged in the upper layer space 1 and the lower layer space 4.

Specifically, test tube rack includes test tube base 13, is fixed in the bracing piece 14 of 13 top surfaces intermediate positions of test tube base and is fixed in the test tube fixed plate 15 at bracing piece 14 top, is equipped with a plurality of test tube standing grooves 16 that can hold the test tube bottom on test tube base 13, and the correspondence is equipped with a plurality of confession test tube male through-holes 17 on test tube fixed plate 15. The inner peripheral walls of the test tube placing groove 16 and the through hole 17 are also provided with a buffering elastic layer 19.

In order to meet the requirements of placing test tubes with different sizes, the test tube placing grooves 16 on the test tube base 13 and the through holes 17 on the test tube fixing plate 15 can be correspondingly designed into different diameters.

Further, all be equipped with a draw-in groove on the bottom plate that upper space 1 and lower floor space 4 correspond respectively, test tube base 13 card is fixed in the draw-in groove.

Furthermore, four sides of the test tube fixing plate 15 are respectively connected with the inner wall of the reagent kit body closest to the test tube fixing plate through a damping spring 18, and the damping spring 18 is detachably connected with the sides of the test tube fixing plate 15.

Heating devices 8 are installed on the bottom plates corresponding to the upper layer space 1 and the lower layer space 4 respectively, and temperature sensors 25 are installed in the upper layer space 1 and the lower layer space 4. The lower part of the kit body is provided with a control box 9, a vibration motor 10 and a single chip microcomputer 11 are arranged in the control box 9, an output shaft of the vibration motor 10 extends upwards out of the control box 9, the top end of the control box is fixed with a vibration plate 12, the vibration plate 12 is fixed with the lower bottom surface of the kit body, and the single chip microcomputer 11 is electrically connected with the vibration motor 10, the heating device 8 and the temperature sensor 25. The single chip microcomputer 11 can implant corresponding program instructions in advance, automatically analyze the corresponding program instructions in the execution process, and automatically drive corresponding execution mechanisms to complete preset operations according to the driving circuit.

In order to further optimize the technical scheme, ultraviolet germicidal lamps 20 electrically connected with the single chip microcomputer 11 are further installed in the upper layer space 1 and the lower layer space 4.

Meanwhile, a timer 21 and a buzzer 22 electrically connected with the singlechip 11 are further arranged in the control box 9. An operating button 23 and a display panel 24 which are electrically connected with the singlechip 11 are arranged on the light-tight side door 7 corresponding to the lower layer space 4.

In order to further optimize the above technical solution, a test tube cover 26 is provided at the top end opening of the test tube.

When the utility model is used, the temperature in the upper space 1 and the lower space 4 of the main body of the reagent kit is heated to the required temperature, then the microorganism test tube is placed on the test tube placing rack, and the test tube placing rack is placed in the clamping grooves of the bottom plates corresponding to the upper space 1 and the lower space 4 after the test tube cover 26 is covered; closing the upper and lower side doors, and opening the ultraviolet germicidal lamp 20 to perform germicidal operation in the upper space and the lower space; if the sample needs to be shaken up quickly, the vibration motor 10 can be started; if a contrast experiment with illumination or without illumination needs to be carried out, the light shading plate 3 on the outer wall of the kit main body corresponding to the upper space 1 can be drawn out; in the whole detection process, the temperature sensor 25 can ensure that the upper layer space 1 and the lower layer space 4 keep proper and consistent temperature, and the timer 21 and the buzzer 22 can help the staff to accurately control the detection time so as to effectively finish the detection operation of microorganisms.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The microorganism detection kit is characterized by comprising a kit main body and a side door hinged to the side face of the kit main body, wherein the internal space of the kit main body is divided into an upper layer and a lower layer, the outer wall of the kit main body corresponding to the upper layer space (1) is a light-transmitting wall plate (2) with a double-layer structure, a detachable light screen (3) is inserted into a middle gap of the light-transmitting wall plate (2) in a matched mode, and the outer wall of the kit main body corresponding to the lower layer space (4) is a light-transmitting wall plate (5); the side door comprises a light-transmitting side door (6) corresponding to the upper layer space (1) and a light-tight side door (7) corresponding to the lower layer space (4); the upper layer space (1) and the lower layer space (4) are both provided with a test tube placing rack in a detachable way; heating devices (8) are arranged on the bottom plates corresponding to the upper-layer space (1) and the lower-layer space (4), and temperature sensors (25) are arranged in the upper-layer space (1) and the lower-layer space (4); the kit comprises a kit body and is characterized in that a control box (9) is arranged below the kit body, a vibration motor (10) and a single chip microcomputer (11) are arranged in the control box (9), an output shaft of the vibration motor (10) upwards extends out of the control box (9), the top end of the control box is fixed with a vibration plate (12), the vibration plate (12) is fixed with the lower bottom surface of the kit body, and the single chip microcomputer (11) is electrically connected with the vibration motor (10), a heating device (8) and a temperature sensor (25).

2. The microorganism detection kit according to claim 1, wherein the test tube holder comprises a test tube base (13), a support rod (14) fixed at a middle position of the top surface of the test tube base (13), and a test tube fixing plate (15) fixed at the top of the support rod (14), the test tube base (13) is provided with a plurality of test tube placing grooves (16) capable of accommodating the bottoms of the test tubes, and the test tube fixing plate (15) is correspondingly provided with a plurality of through holes (17) for inserting the test tubes.

3. The microorganism detection kit according to claim 2, wherein a slot is provided on the bottom plate of each of the upper space (1) and the lower space (4), and the test tube base (13) is clamped in the slot.

4. The microorganism detection kit according to claim 2, wherein each of the four side edges of the test tube fixing plate (15) is connected to the inner wall of the kit body nearest thereto via a damper spring (18), and the damper spring (18) is detachably connected to the side edge of the test tube fixing plate (15).

5. The microorganism detection kit according to claim 2 or 4, wherein the inner peripheral walls of the test tube placement groove (16) and the through hole (17) are provided with a buffer elastic layer (19).

6. The microorganism detection kit according to claim 1, wherein ultraviolet germicidal lamps (20) electrically connected with the single chip microcomputer (11) are further installed in the upper layer space (1) and the lower layer space (4).

7. The microorganism detection kit according to claim 1 or 6, wherein a timer (21) and a buzzer (22) electrically connected with the single chip microcomputer (11) are further arranged in the control box (9).

8. The microorganism detection kit according to claim 1, wherein an operation button (23) and a display panel (24) electrically connected with the single chip microcomputer (11) are arranged on the light-tight side door (7) corresponding to the lower layer space (4).

9. The microorganism detection kit according to claim 1, wherein a tube cover (26) is provided at the top opening of the tube.

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