CN213957404U

CN213957404U - Detection device for mycobacterium tuberculosis

Info

Publication number: CN213957404U
Application number: CN202023053846.1U
Authority: CN
Inventors: 浠ｆ旦; 代浩
Original assignee: Wuhan Dechen Shengchang Technology Co ltd
Current assignee: Wuhan Dechen Shengchang Technology Co ltd
Priority date: 2020-12-17
Filing date: 2020-12-17
Publication date: 2021-08-13
Anticipated expiration: 2030-12-17

Abstract

The utility model discloses a detection apparatus for be used for tuberculosis mycobacterium, including device body, first lead screw and disinfectant box, still including being used for guaranteeing the active cooling body of sample, improving work efficiency's removal structure and carrying out clear structure of disinfecting. The utility model discloses a work of electricity liquid power micropump, in the water tank enters into the heat exchanger, the rethread connecting pipe enters into quick refrigeration in the refrigerator, then in the circulation intake box, keeps cold water circulation to make the cooling block place the box inside and cool down to the sample, guarantee the activity of the liquid that awaits measuring.

Description

Detection device for mycobacterium tuberculosis

Technical Field

The utility model relates to a mycobacterium tuberculosis detects technical field, specifically is a detection device for mycobacterium tuberculosis.

Background

The tubercle bacillus examination is the most specific method for diagnosing the pulmonary tuberculosis, the finding of tubercle bacillus in the sputum is the main basis for diagnosing the pulmonary tuberculosis, atypical mycobacteria are rare in China, so that the acid-fast bacillus is positive, the pulmonary tuberculosis diagnosis can be basically established, when a sample is detected, the existing detection device has a single function, only one sample can be detected at a time, and the working efficiency is low.

With the continuous installation and use of a detection device for Mycobacterium tuberculosis, the following problems are found during the use:

1. some existing detection devices for mycobacterium tuberculosis do not have a structure for ensuring the activity of a liquid to be detected in a sample test tube in the daily use process, so that the detection result is influenced.

2. And a detection device for mycobacterium tuberculosis does not have a structure for detecting a plurality of sample test tubes at a time in the use process, thereby causing low working efficiency.

3. And a detection apparatus for mycobacterium tuberculosis does not have a structure for sterilizing a detection probe during use, thereby causing inaccuracy in detection.

Therefore, it is necessary to design a detection device for Mycobacterium tuberculosis in view of the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a detection device for mycobacterium tuberculosis to it does not have the problem of guaranteeing sample activity, work efficiency height and disinfection of disinfecting to propose a current detection device for mycobacterium tuberculosis among the above-mentioned background art to solve.

In order to achieve the above object, the utility model provides a following technical scheme: a detection device for mycobacterium tuberculosis comprises a device body, a first screw rod, a disinfectant box, a cooling mechanism for ensuring the activity of a sample, a moving structure for improving the working efficiency and a sterilizing structure for cleaning;

a sample placing box is mounted on the inner side of the device body, sliding grooves are formed in two sides of the bottom end inside the device body, two sides of the bottom end of the sample placing box are connected with the sliding grooves through pulleys, clamping blocks are uniformly mounted at the bottom end inside the sample placing box, sample test tubes are fixed on the inner sides of the clamping blocks, and the cooling mechanism is mounted inside the lower portion of the sample placing box;

a disinfection box is arranged on one side of the top end of the sample placing box, and the sterilization structure is arranged on the inner wall of the disinfection box;

the device comprises a device body, wherein a door body is movably hinged to the outer wall of one end of the device body, a controller is installed on the outer wall of one end of the door body, and a moving structure is installed above the inside of the device body.

Preferably, the cooling mechanism includes electric hydraulic power micropump, cooling block, heat exchanger, water tank and refrigerator, the cooling block is installed in the inside of sample placement box below, the water tank is installed to one side inner wall of cooling block, and installs the heat exchanger through the connecting pipe in one side of water tank, electric hydraulic power micropump is all installed to the both ends inner wall of cooling block, the refrigerator is installed to the opposite side inner wall of cooling block.

Preferably, the moving structure comprises a lifting plate, the lifting plate is installed above the inner part of the device body, a positive and negative motor is installed on the inner wall of the lifting plate, and a first screw rod is installed at the output end of the positive and negative motor through a driving shaft.

Preferably, the fixed block is all installed to the top of device body both sides outer wall, the second lead screw is all installed to the inner wall of fixed block, and the top of second lead screw all is connected with the knob, first slider is all installed to the outer wall of knob, and the outer wall of one side outer wall of first slider all is connected with the outer wall of lifter plate through the connecting rod.

Preferably, the second slider is installed to the outer wall of first lead screw, and the bottom of second slider is connected with the mounting panel, test probe is evenly installed to the bottom of mounting panel.

Preferably, the structure of disinfecting includes the disinfectant box, the disinfectant box is installed in the inner wall of disinfection box, the pivot is installed to the inner wall of disinfectant box, and the one end of pivot installs driving motor, the brush is installed to the outer wall of pivot.

Preferably, ultrasonic transducers are uniformly installed at the bottom end of the disinfectant tank, and an ultrasonic generator is installed on one side of the bottom end inside the disinfectant box.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) by installing the electro-hydraulic power micropump, the cooling block, the sample placing box, the refrigerator, the heat exchanger and the water tank, water in the water tank enters the heat exchanger through the work of the electro-hydraulic power micropump, enters the refrigerator through the connecting pipe for quick refrigeration, and then circularly enters the water tank to keep cold water circulation, so that the cooling block cools the interior of the sample placing box, and the activity of liquid to be detected is ensured;

(2) the rotating shaft is driven to rotate by the driving motor, the brushes rotate simultaneously for cleaning, ultrasonic waves are emitted by the ultrasonic generator, and then the size of the ultrasonic transducer is adjusted to vibrate disinfectant water in the disinfectant tank so as to clean and disinfect the detection probe;

(3) box, test probe, sample test tube, second slider and first lead screw are placed through installing positive and negative motor, sample, drive first lead screw through positive and negative motor and rotate, and screw-thread fit makes the second slider drive test probe and can control the horizontal position and detect, and test probe has threely, and the sample is placed a box interior one and is listed as and have three sample test tube, can once detect three sample test tube, and test probe portable position continuous operation, and work efficiency is high.

Drawings

FIG. 1 is a schematic cross-sectional view of the device of the present invention;

FIG. 2 is a schematic view of the front view structure of the device of the present invention;

FIG. 3 is a schematic top view of the sample storage box of the present invention;

FIG. 4 is a schematic view of the probe of the present invention;

fig. 5 is a schematic sectional view of the sterilizing case of the present invention.

In the figure: 1. a chute; 2. a cooling mechanism; 201. an electro-hydraulic power micropump; 202. cooling the block; 203. a heat exchanger; 204. a water tank; 205. a refrigerator; 3. a pulley; 4. a device body; 5. a sample tube; 6. a positive and negative motor; 7. a first slider; 8. a connecting rod; 9. a lifting plate; 10. a sterilizing box; 11. detecting a probe; 12. a second slider; 13. mounting a plate; 14. a first lead screw; 15. a knob; 16. a fixed block; 17. a second lead screw; 18. a clamping block; 19. a sample placement box; 20. a door body; 21. a controller; 22. a rotating shaft; 23. a brush; 24. a disinfectant tank; 25. a drive motor; 26. an ultrasonic generator; 27. an ultrasonic transducer.

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 1: referring to fig. 1-5, a detection device for mycobacterium tuberculosis includes a device body 4, a first screw 14, a disinfectant tank 24, a cooling mechanism 2 for ensuring the activity of a sample, a moving structure for improving the working efficiency, and a sterilization structure for cleaning;

a sample placing box 19 is arranged on the inner side of the device body 4, sliding chutes 1 are formed in two sides of the bottom end inside the device body 4, two sides of the bottom end of the sample placing box 19 are connected with the sliding chutes 1 through pulleys 3, clamping blocks 18 are uniformly arranged at the bottom end inside the sample placing box 19, sample test tubes 5 are fixed on the inner sides of the clamping blocks 18, and a cooling mechanism 2 is arranged inside the lower portion of the sample placing box 19;

a disinfection box 10 is arranged on one side of the top end of the sample placing box 19, and a sterilization structure is arranged on the inner wall of the disinfection box 10;

the outer wall of one end of the device body 4 is movably hinged with a door body 20, the outer wall of one end of the door body 20 is provided with a controller 21, the model of the controller 21 can be JY-PH160, and a moving structure is arranged above the inside of the device body 4;

referring to fig. 1-5, a detection device for mycobacterium tuberculosis further comprises a moving structure, the moving structure comprises a lifting plate 9, the lifting plate 9 is installed above the inside of the device body 4, a positive and negative motor 6 is installed on the inner wall of the lifting plate 9, the type of the positive and negative motor 6 can be F-3420-1, and a first screw 14 is installed at the output end of the positive and negative motor 6 through a driving shaft;

a second sliding block 12 is arranged on the outer wall of the first screw rod 14, the bottom end of the second sliding block 12 is connected with a mounting plate 13, and the bottom end of the mounting plate 13 is uniformly provided with detection probes 11;

the upper parts of the outer walls of two sides of the device body 4 are respectively provided with a fixed block 16, the inner walls of the fixed blocks 16 are respectively provided with a second lead screw 17, the top ends of the second lead screws 17 are respectively connected with a knob 15, the outer walls of the knobs 15 are respectively provided with a first slide block 7, and the outer wall of one side of the first slide block 7 is respectively connected with the outer wall of the lifting plate 9 through a connecting rod 8;

specifically, as shown in fig. 1, fig. 2 and fig. 4, when using this structure, drive first lead screw 14 through positive and negative motor 6 and rotate, screw-thread fit makes second slider 12 drive test probe 11 and can remove the horizontal position and detect, and test probe 11 has threely, and the sample is placed and is listed as in the box 19 and has three sample test tube 5, can once detect three sample test tube 5, and test probe 11 portable position continuous operation, and work efficiency is high.

Example 2: the sterilization structure comprises a disinfectant tank 24, the disinfectant tank 24 is arranged on the inner wall of the sterilization box 10, a rotating shaft 22 is arranged on the inner wall of the disinfectant tank 24, a driving motor 25 is arranged at one end of the rotating shaft 22, and a brush 23 is arranged on the outer wall of the rotating shaft 22;

the bottom end of the disinfectant tank 24 is uniformly provided with ultrasonic transducers 27, one side of the bottom end in the disinfectant box 10 is provided with an ultrasonic generator 26, and the model of the ultrasonic generator 26 can be X6-I;

specifically, as shown in fig. 1, 3 and 5, when the structure is used, the rotating shaft 22 is driven to rotate by the driving motor 25, the brush 23 rotates to clean at the same time, the ultrasonic generator 26 emits ultrasonic waves, and the size of the ultrasonic transducer 27 is adjusted to vibrate the disinfectant in the disinfectant tank 24, so that the detection probe 11 is cleaned and disinfected.

Example 3: the cooling mechanism 2 comprises an electro-hydraulic power micropump 201, a cooling block 202, a heat exchanger 203, a water tank 204 and a refrigerator 205, wherein the cooling block 202 is arranged inside the lower portion of the sample placing box 19, the water tank 204 is arranged on the inner wall of one side of the cooling block 202, the heat exchanger 203 is arranged on one side of the water tank 204 through a connecting pipe, the type of the heat exchanger 203 can be BIU1100-4.35, the electro-hydraulic power micropump 201 is arranged on the inner walls of the two ends of the cooling block 202, the type of the electro-hydraulic power micropump 201 can be SB-3-1, the refrigerator 205 is arranged on the inner wall of the other side of the cooling block 202, and the type of the refrigerator 205 can be DTA-40;

specifically, as shown in fig. 1, when the structure is used, through the work of the electro-hydraulic power micropump 201, water in the water tank 204 enters the heat exchanger 203, then enters the refrigerator 205 through the connecting pipe for rapid refrigeration, and then circulates into the water tank 204 to keep cold water circulating, so that the cooling block 202 cools the inside of the sample placing box 19, and the activity of liquid to be measured is ensured.

The output end of the controller 21 is electrically connected with the input ends of the electro-hydraulic power micropump 201, the heat exchanger 203, the refrigerator 205, the positive and negative motor 6, the detection probe 11, the driving motor 25, the ultrasonic generator 26 and the ultrasonic transducer 27 through leads.

The working principle is as follows: when the device is used, firstly, the door body 20 is opened, the sample placing box 19 is pulled outwards, the pulley 3 slides outwards in the sliding chute 1, then the sample test tube 5 of the liquid to be measured is placed in the clamping block 18 for fixing, the sample placing box 19 is pushed into the device body 4 after the sample test tube is placed, then the door body 20 is closed for working, water in the water tank 204 enters the heat exchanger 203 through the working of the electro-hydraulic power micropump 201, then enters the refrigerator 205 through the connecting pipe for rapid refrigeration, then circulates into the water tank 204, and the circulation of cold water is maintained, so that the cooling block 202 cools the interior of the sample placing box 19, and the activity of the liquid to be measured is ensured;

then, the second screw rod 17 is rotated through the rotary knob 15, the first slide block 7 drives the detection probe 11 to descend to be in contact with liquid in the sample test tube 5 for detection through threaded matching, the first screw rod 14 is driven to rotate through the positive and negative motor 6, the second slide block 12 drives the detection probe 11 to move left and right for detection through threaded matching, the number of the detection probes 11 is three, three sample test tubes 5 are arranged in the sample placing box 19 in a row, the three sample test tubes 5 can be detected at one time, the movable position of the detection probe 11 can continuously work, and the working efficiency is high;

finally, the detection probe 11 is moved into the disinfectant tank 24 after being used, the driving motor 25 drives the rotating shaft 22 to rotate, the brush 23 rotates to clean at the same time, the ultrasonic generator 26 emits ultrasonic waves, and the size of the ultrasonic transducer 27 is adjusted to enable disinfectant water in the disinfectant tank 24 to vibrate, so that the detection probe 11 is cleaned and disinfected, and the next use is facilitated.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a detection device for mycobacterium tuberculosis, includes device body (4), first lead screw (14) and disinfectant box (24), its characterized in that: the device also comprises a cooling mechanism (2) used for ensuring the activity of the sample, a moving structure used for improving the working efficiency and a sterilizing structure used for cleaning;

a sample placing box (19) is mounted on the inner side of the device body (4), sliding chutes (1) are formed in two sides of the bottom end inside the device body (4), two sides of the bottom end of the sample placing box (19) are connected with the sliding chutes (1) through pulleys (3), clamping blocks (18) are uniformly mounted at the bottom end inside the sample placing box (19), sample test tubes (5) are fixed on the inner sides of the clamping blocks (18), and the cooling mechanism (2) is mounted inside the lower portion of the sample placing box (19);

a disinfection box (10) is arranged on one side of the top end of the sample placing box (19), and the sterilization structure is arranged on the inner wall of the disinfection box (10);

the device is characterized in that a door body (20) is movably hinged to the outer wall of one end of the device body (4), a controller (21) is installed on the outer wall of one end of the door body (20), and the moving structure is installed above the inside of the device body (4).

2. The detection apparatus for Mycobacterium tuberculosis as set forth in claim 1, wherein: cooling body (2) include electro-hydraulic power micropump (201), cooling block (202), heat exchanger (203), water tank (204) and refrigerator (205), install in the inside of sample placement box (19) below cooling block (202), water tank (204) are installed to one side inner wall of cooling block (202), and one side of water tank (204) installs heat exchanger (203) through the connecting pipe, electro-hydraulic power micropump (201) are all installed to the both ends inner wall of cooling block (202), refrigerator (205) are installed to the opposite side inner wall of cooling block (202).

3. The detection apparatus for Mycobacterium tuberculosis as set forth in claim 1, wherein: the moving structure comprises a lifting plate (9), the lifting plate (9) is installed above the inner part of the device body (4), a positive and negative motor (6) is installed on the inner wall of the lifting plate (9), and a first screw rod (14) is installed at the output end of the positive and negative motor (6) through a driving shaft.

4. The detection apparatus for Mycobacterium tuberculosis as set forth in claim 3, wherein: fixed block (16) are all installed to the top of device body (4) both sides outer wall, second lead screw (17) are all installed to the inner wall of fixed block (16), and the top of second lead screw (17) all is connected with knob (15), first slider (7) are all installed to the outer wall of knob (15), and the outer wall connection of one side outer wall of first slider (7) all through connecting rod (8) and lifter plate (9).

5. The detection apparatus for Mycobacterium tuberculosis as set forth in claim 3, wherein: second slider (12) are installed to the outer wall of first lead screw (14), and the bottom of second slider (12) is connected with mounting panel (13), test probe (11) are evenly installed to the bottom of mounting panel (13).

6. The detection apparatus for Mycobacterium tuberculosis as set forth in claim 1, wherein: the sterilizing structure comprises a sterilizing liquid box (24), the sterilizing liquid box (24) is installed on the inner wall of the sterilizing box (10), a rotating shaft (22) is installed on the inner wall of the sterilizing liquid box (24), a driving motor (25) is installed at one end of the rotating shaft (22), and a brush (23) is installed on the outer wall of the rotating shaft (22).

7. The detection apparatus for Mycobacterium tuberculosis as set forth in claim 6, wherein: ultrasonic transducer (27) are evenly installed to the bottom of disinfectant box (24), supersonic generator (26) are installed to one side of the inside bottom of disinfection box (10).