CN212128166U - Biological gene detection equipment - Google Patents

Abstract

The utility model discloses a biological gene check out test set, it relates to biological gene detection area, and its main part sets up to the detection case, be provided with sterilization mechanism in the detection case, sterilization mechanism includes the anion layer, the anion layer sets up in the detection case inner wall, and the anion layer can release the anion, according to the characteristic that the anion particle diameter is little, active high for the anion can be dispersed in each corner of detection case along with the air, and bacterium or impurity contact in anion and the air makes it take place the deactivation or subsides, and then realizes the effect of disinfecting to the detection case, reduces the existence at bacterium dead angle, improves the bactericidal effect.

Description

Biological gene detection equipment

Technical Field

The utility model relates to a biological gene detection field, in particular to biological gene check out test set.

Background

The biological gene detection equipment detects DNA through blood, other body fluids and cells, detects DNA molecular information in cells of a detected person through the gene detection equipment, predicts the risk of diseases of a body, analyzes various gene conditions contained in the biological gene detection equipment, enables people to know the genetic information of the people, and avoids or delays the diseases by improving the living environment and the living habits of the people.

In the existing biological gene detection equipment, after the gene detection work is finished, bacteria in detection liquid can remain in the detection equipment, the next detection result is influenced, and the bacteria remaining in the equipment can enter the detection liquid during the detection, so that the deviation of the detection result is caused. In order to solve this situation, a new type of bio-gene detecting apparatus, as shown in CN208395158U, has been proposed in which a germicidal lamp is added to a bio-gene detecting apparatus to reduce the residual amount of bacteria in the bio-gene detecting apparatus, and an ultraviolet disinfection lamp for sterilization is installed inside the detecting box. However, the intensity of the ultraviolet rays emitted by the ultraviolet lamp is weakened along with the increase of time, so that the sterilization and disinfection capacity is continuously weakened, and in addition, the penetration force of the ultraviolet rays is weak and is easily blocked by production equipment, so that dead corners exist in the detection box, and the sterilization effect is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide a biological gene detection equipment has solved and has disinfected in the biological gene detection equipment on the current market thoroughly, has the problem at dead angle easily, can further improve the bactericidal effect in the detection case.

In order to realize the above purpose, the utility model discloses the technical scheme who adopts is: the utility model provides a biological gene check out test set, its main part sets up to the detection case, be provided with sterilization mechanism in the detection case, sterilization mechanism includes the anion layer, the anion layer sets up in the detection case inner wall, the anion layer sets up in detection case inner wall surface.

Through adopting above-mentioned technical scheme, the anion layer on detection case inner wall surface can release the anion, because the anion has the characteristic that the particle diameter is little, activity is high, but utilize the diffuse nature of air to diffuse to each corner in the detection case, with bacterium and the pollutant contact in the air for microorganism deactivation such as bacterium, and adsorbable subsides or decomposes the impurity in the air, reduces the existence probability at dead angle, also comparatively safe to the human body.

Preferably, the sterilization mechanism further comprises a microwave sterilization mechanism.

By adopting the technical scheme, the microwave sterilization mechanism can generate microwaves, and the sterilization effect can be further improved by using the microwaves for sterilization.

Preferably, a protection device is arranged on the detection box.

Through adopting above-mentioned technical scheme, protection device's setting can effectively protect detection case and human safety.

Preferably, the microwave sterilization mechanism is provided with a microwave regulating and controlling part, and the microwave regulating and controlling part comprises a metal propeller blade.

Through adopting above-mentioned technical scheme, the microwave can take place the transmission through metal propeller blade surface, and the microwave after the transmission can act on inside the detection case to disinfect to inside the detection case.

Preferably, the microwave regulating and controlling part is provided with a first angle regulating and controlling part, and the first angle regulating and controlling part is connected with the metal propeller blade and drives the metal propeller blade to operate.

Through adopting above-mentioned technical scheme, metal propeller blade can change its direction of rotation under the drive of first angle adjusting and controlling spare, makes its internal rotation in vertical direction, and then has the regulating action to the angle of microwave transmission.

Preferably, the first angle adjustment control includes a first driving motor.

Through adopting above-mentioned technical scheme, first driving motor drive metal propeller blade realizes rotating.

Preferably, the first angle adjusting control part is provided with a first connecting piece, and the first connecting piece is connected with the first driving motor and the metal propeller blade.

By adopting the technical scheme, the first connecting piece can realize the synchronous operation of the metal propeller blade and the first driving motor.

Preferably, the microwave adjusting and controlling part is further provided with a second angle adjusting and controlling part, the second angle adjusting and controlling part is connected with the first angle adjusting and controlling part, and the second angle adjusting and controlling part and the first angle adjusting and controlling part can simultaneously adjust the movement of the metal propeller blade.

By adopting the technical scheme, the second angle adjusting and controlling part can realize the rotation of the metal propeller blade in the horizontal direction, and the rotation angle of the metal propeller blade is more flexible under the combined action of the first angle adjusting and controlling part and the second angle adjusting and controlling part.

Preferably, the detection box is further provided with a controller, and the controller is connected to the microwave control component in a control mode.

By adopting the technical scheme, the controller is connected with the microwave tuning control element, so that the operation of the microwave tuning control element is controllable.

Preferably, the second angle adjusting and controlling part is provided with a second connecting piece, and the second connecting piece is connected with the first connecting piece.

Through adopting above-mentioned technical scheme, the second connecting piece that sets up is connected with first connecting piece for the second angle is transferred the controlling part and is linked to each other with first angle and transfer the controlling part, and realizes the regulation and control of angle to metal propeller blade simultaneously.

Compared with the prior art, the utility model has the advantages of: (1) the negative ion layer is arranged in the detection box of the biological gene detection equipment, and negative ions released by the negative ion layer are distributed at each corner in the detection box, so that the existence of sterilization dead corners is reduced, and the sterilization effect is improved; (2) a microwave sterilization mechanism is additionally arranged in the detection box to further sterilize and disinfect the detection box, so that the microbial activity is reduced; (3) the microwave adjusting and controlling part in the microwave sterilization mechanism can be used for adjusting the reflection angle of the microwave, so that the microwave can be reflected to each corner in the detection box; (4) the controller is connected with the microwave adjusting part in a control mode, so that the running direction of the microwave adjusting part can be controlled, an operator can adjust the angle conveniently according to actual conditions, and sterilization is facilitated.

Drawings

FIG. 1 is a schematic view of the internal structure of embodiment 1;

FIG. 2 is a schematic view of the entire structure of embodiment 1;

fig. 3 is an enlarged schematic view of a in fig. 1.

In the figure: 1-detection box; 110-a holding box; 2-a negative ion layer; 3-a microwave sterilization mechanism; 310-microwave tuning control; 311-metal propeller blades; 312-a first angle adjustment control; 3121-a first drive motor; 3122-a first connection member; 3123-first connecting shaft; 3124-a first L-shaped connecting plate; 313-a second angular adjustment; 3131 — a second connector; 3132 — a second drive motor; 3133-a second connecting shaft; 3134-a second L-shaped connecting plate; 320-a transformer; 330-magnetron; 340-a ballistic tube; 4-a guard; 410-a radiation-proof door; 420-an electronic lock; 5-a controller; 6-a support plate; 7-mounting the shaft; 8-positioning blocks; 9-a connecting rod; 10-a ventilation opening; 11-a fan; 12-a vent-pipe; 13-a display screen; 14-limiting groove.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

Example 1

As shown in fig. 1 to 3, a biogenic detection apparatus is provided, wherein a main body of the biogenic detection apparatus is a detection box 1, a containing box 110 is arranged in the detection box 1, and the containing box 110 is used for containing a liquid to be detected.

In this embodiment, be provided with the sterilization mechanism in the detection case 1, sterilization mechanism is located and holds case 110, and sterilization mechanism can realize the inactivation to holding the bacterium in the remaining detection liquid in case 110, reduces the influence of remaining detection liquid to next detection, and then improves the accuracy of next testing result.

Specifically, the sterilization mechanism includes an anion layer 2, the anion layer 2 is disposed on the inner wall surface of the detection box 1, as shown in fig. 1, the anion layer 2 can release a large amount of anions, and the anions have the characteristics of small particle size and high activity, so that the anions can be diffused to each corner of the containing box 110 by using the air diffusivity, and can destroy the molecular protein structure of microorganisms such as bacteria and viruses when the anions are contacted with the bacteria in the air, so as to inactivate the bacteria.

The sterilization mechanism is also provided with a microwave sterilization mechanism 3, the microwave sterilization mechanism 3 utilizes the emitted microwaves to further sterilize the inner space of the containing box 110, the microwave sterilization time is short, the speed is high, and the sterilization effect is good.

Further, the microwave sterilization mechanism 3 includes a transformer 320, a magnetron 330 and a damper tube 340, wherein the transformer 320 can be connected to a circuit, the magnetron 330 is electrically connected to the transformer 320, a voltage transmitted by the transformer 320 passes through the magnetron 330, the magnetron 330 converts electric energy into microwaves, the microwaves enter the damper tube 340 corresponding to the magnetron 330, the microwaves can be reflected in the damper tube 340, and finally emitted from the other end of the damper tube 340 and enter the containing box 110, thereby completing the microwave sterilization process.

In this embodiment, the microwave sterilization mechanism 3 is further provided with a microwave adjustment and control component 310, the microwave adjustment and control component 310 is disposed at one end of the elastic wave tube 340 for emitting microwaves, as shown in fig. 1, the microwave adjustment and control component 310 is used for adjusting the emitting direction of the microwaves, so that the microwaves can be reflected at each corner of the containing box 110, and thus the containing box 110 can be sterilized and disinfected in all directions.

Specifically, the microwave adjustment and control part 310 is provided with the metal propeller blade 311, and as can be seen from fig. 1 and 3, the metal propeller blade 311 is arranged at the top of the containing box 110, and after the microwaves are emitted through the elastic wave tube 340, the microwaves can be emitted on the surface of the metal propeller blade 311, and then the microwaves enter the containing box 110, so that the angle of the containing box 110 where the microwaves are emitted is changed.

The microwave adjusting and controlling part 310 is provided with a first angle adjusting and controlling part 312, the first angle adjusting and controlling part 312 is connected with the metal propeller blade 311, and the metal propeller blade 311 is rotated under the action of the first angle adjusting and controlling part 312.

In this embodiment, the first angle adjustment component 312 includes a first driving motor 3121, and the first driving motor 3121 is configured to drive the metal propeller blade 311 to operate.

The first angle adjustment control member 312 is provided with a first connection member 3122, and the first connection member 3122 connects the first drive motor 3121 and the metal propeller blade 311.

Specifically, as shown in fig. 3, the first driving motor 3121 is fixedly connected to a supporting plate 6, the supporting plate 6 is used to support the microwave control element 310, the supporting plate 6 is fixedly connected to the containing box 110 by screws or other means, the first connecting member 3122 includes a first connecting shaft 3123 and a first L-shaped connecting plate 3124, the first connecting shaft 3123 is horizontally disposed, the first connecting shaft 3123 is rotatably connected to the supporting plate 6, the first connecting shaft 3123 is connected to an output shaft of the first driving motor 3121 through a through hole preset in the supporting plate 6, such that the first connecting shaft 3123 and the output shaft of the first driving motor 3121 are synchronously rotated, the other end of the first connecting shaft 3123 is fixedly connected to the first L-shaped connecting plate 3124, specifically, the first connecting shaft 3123 is fixedly connected to a vertical plane in the first L-shaped connecting plate 3124, the metal screw blade 311 is connected to a horizontal plane in the first L-shaped connecting plate 3124 by a mounting shaft 7, the installation axle 7 is vertical to be placed, and the top of installation axle 7 forms locating piece 8, and locating piece 8 butt is in the upper surface of first L type locating plate 3124, and installation axle 8 rotates with first L type connecting plate 3124 and is connected. It is noted that the metal propeller blades 311 are horizontally mounted on the mounting shaft 7. After the first driving motor 3121 starts to rotate, the first connecting shaft 3123 is driven to rotate synchronously, the first connecting shaft 3123 drives the first L-shaped connecting plate 3124, the rotation is performed with the first connecting shaft 3123 as a central line, and then the rotation of the entire metal propeller blade 311 in a vertical plane is realized, that is, the revolution of the entire metal propeller blade 311 with the first connecting shaft 3123 as a central axis can be realized, the revolution of the metal propeller blade 311 is the swing with the first connecting shaft 3123 as a central axis, that is, the revolution of the metal propeller blade 311 is not the rotation of 360 degrees.

In this embodiment, the microwave adjusting and controlling element 310 is further provided with a second angle adjusting and controlling element 313, the second angle adjusting and controlling element 313 is connected with the first angle adjusting and controlling element 312, and the second angle adjusting and controlling element 313 can realize the rotation of the metal propeller blade 311 in the horizontal plane.

Further, the second angle adjusting and controlling element 313 includes a second connecting element 3131 and a second driving motor 3132, the second connecting element 3131 is connected to the first connecting element 3122, and the second driving motor 3132 is connected to the second connecting element 3131 and can drive the second connecting element 3131 to operate. Specifically, the second connecting member 3131 is provided with a second connecting shaft 3133 and a second L-shaped connecting plate 3134, the second driving motor 3132 is fixedly connected to the supporting plate 6, as shown in fig. 3, the second connecting shaft 3133 is vertically disposed and connected to an output shaft of the second driving motor 3132 after passing through a predetermined through hole of the supporting plate 6, and the second connecting shaft 3133 is rotatably connected to the supporting plate 6, such that the second connecting shaft 3133 and the second driving motor 3132 synchronously rotate; the second L-shaped connecting plate 3134 is inverted, that is, the horizontal plane of the second L-shaped connecting plate 3134 is located at the top, and the vertical plane of the second L-shaped connecting plate 3134 is located at the right side of the horizontal plane, the horizontal plane of the second L-shaped connecting plate 3134 is fixedly connected to the second connecting shaft 3133, the vertical plane of the second L-shaped connecting plate 3134 is fixedly connected to a connecting rod 9, the connecting rod 9 is horizontally located, one end of the connecting rod 9 is inserted into a limiting groove 14 formed on the surface of the positioning block 8, and the connecting rod 9 can rotate in the limiting.

When the second driving motor 3132 is turned on, the second connecting shaft 3133 is driven to synchronously rotate, the second connecting shaft 3133 drives the second L-shaped connecting plate 3134 to rotate, wherein the second L-shaped connecting plate 3134 rotates about the second connecting shaft 3133, and during the rotation of the second L-shaped connecting plate 3134, the connecting rod 9 also rotates about the second connecting shaft 3133, and under the action of the limiting groove 14, the second connecting shaft 3133 drives the positioning block 8, the mounting shaft 7, and the metallic propeller blade 311 disposed on the mounting shaft 7 to rotate, so as to realize the rotation of the metallic propeller blade 311 about the mounting shaft 7 as a rotating shaft, where the rotation of the metallic propeller blade 311 is a swing about the mounting shaft 7 as an axis, i.e., the rotation of the metallic propeller blade 311 is not a rotation of 360 degrees.

In addition, the first angle adjustment component 312 and the second angle adjustment component 313 can realize the synchronous revolution and rotation of the metal propeller blades 311 by using the first driving motor 3121 and the second driving motor 3132, the rotating angle range of the metal propeller blades 311 is increased under the independent adjustment or common adjustment action of the first angle adjustment component 312 and the second angle adjustment component 313 of the metal propeller blades 311, so that the reflection angle range of the metal propeller blades 311 to microwaves is also increased, the probability that the microwaves are injected into each corner of the containing box 110 through the metal propeller blades 311 is also increased, the dead angle remained after the microwaves are sterilized is greatly reduced, and the microwave sterilization effect is effectively improved.

In this embodiment, the detection box 1 is provided with a protection device 4, and the protection device 4 is used for protecting the detection box 1 and the safety of operators.

Specifically, protector 4 includes high temperature resistant layer, and high temperature resistant layer sets up in the inside wall of detection case 1, and anion layer 2 is located the outside on high temperature resistant layer, because microwave sterilization mechanism 3 can produce more heat, and the setting on high temperature resistant layer can protect other spare parts in the detection case 1, prolongs its life.

The protection device 4 is provided with a radiation-proof door 410, as shown in fig. 2, the radiation-proof door 410 can realize the separation of microwaves by using a microwave shielding wire mesh inside the radiation-proof door 410, and prevent the microwaves from being emitted from the detection box 1 to affect the personal safety.

The protection device 4 is further provided with an electronic lock 420, the electronic lock 420 can be a fingerprint coded lock or a digital coded lock or an electronic lock with other structures, and the electronic lock 420 is arranged on the radiation-proof door 410 and used for locking the radiation-proof door 410 and the detection box body to prevent the radiation-proof door 410 from being opened privately.

In this embodiment, the detection box 1 is further provided with a heat dissipation device, the heat dissipation device includes a ventilation opening 10, as shown in fig. 2, the ventilation opening 10 is disposed on the surface of the detection box 1, so as to facilitate dissipation of heat in the detection box 1.

The heat dissipation device further comprises a fan 11 and a ventilation pipe 12, an air opening of the fan 11 faces the ventilation pipe 12, the ventilation pipe 12 is arranged in the detection box 1 and located on one side of the magnetron 330, microwave rays can generate certain temperature, and the magnetron 330 is cooled through the arranged fan 11 and the ventilation pipe 12, so that damage to the magnetron 330 is prevented.

In this embodiment, the detection box 1 is further provided with a controller 5, the controller 5 is connected to the first driving motor 3121 and the second driving motor 3132 through a connection circuit, the controller 5 is equivalent to a microcomputer, the controller 5 can control the operation time, the alternating operation time, and the synchronous operation time of the first driving motor 3121 and the second driving motor 3132 by using a program preset by the controller 5, and the addition of the controller 5 can control the operation angle of the metal propeller blade 311 in the microwave tuning control 310.

The outer side wall of the detection box 1 is further provided with a display screen 13, as shown in fig. 2, the display screen 13 and the controller 5 realize transmission of electric signals through a connection circuit, a key is arranged on the display screen 13, and an operator can select the key on the display screen 13 and select the working modes of the first driving motor 3121 and the second driving motor 3132 according to the actual situation in the detection box 1.

Example 2

The embodiment is different from embodiment 1 in that the electronic lock 420 and the controller 5 are in control connection through a connection circuit, the controller 5 is implemented by using a selection program pre-stored in the controller 5, when the microwave tuning control 310 works, the controller controls the electronic lock 420 to be locked on the detection box 1, and when the microwave tuning control 310 works, that is, when the first driving motor 3121 and the second driving motor 3132 stop working, the controller 5 controls the electronic lock 420 to be unlocked, so that an automatic locking process of the electronic lock 420 is implemented.

Example 3

This embodiment is different from embodiment 1 in that the second angle adjusting member 312 is not provided with the second driving motor 3132, the output shaft of the first driving motor 3121 is provided with a transmission member, and the transmission member realizes the connection between the first L-shaped connecting plate 3124 and the second L-shaped connecting plate 3134, and the transmission member may be a gear transmission or a belt transmission or other transmission member capable of changing the transmission direction. The first angle adjusting part 312 and the second angle adjusting part 313 are connected by transmission parts, so that the number of driving motors can be reduced, and energy is saved.

Although the preferred embodiments of the present invention have been described in detail hereinabove, it should be clearly understood that modifications and variations of the present invention are possible to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a biological gene check out test set which characterized in that, its main part sets up to detection case (1), be provided with sterilization mechanism in detection case (1), sterilization mechanism includes anion layer (2), anion layer (2) set up in detection case (1) inner wall surface.

2. The biogenic detection apparatus of claim 1, wherein the sterilization mechanism further comprises a microwave sterilization mechanism (3).

3. The biogenic detection apparatus according to claim 1, characterized in that a guard (4) is provided on the detection chamber (1).

4. The biogenic detection apparatus according to claim 2, wherein the microwave sterilization mechanism (3) is provided with a microwave control member (310), the microwave control member (310) comprising a metal propeller blade (311).

5. The biogenic detection device according to claim 4, wherein the microwave adjustment control member (310) is provided with a first angle adjustment control member (312), and the first angle adjustment control member (312) is connected with the metal propeller blade (311) and drives the metal propeller blade (311) to operate.

6. The biogenic detection apparatus of claim 5, wherein the first angular adjustment control (312) comprises a first drive motor (3121).

7. The biogenic detection apparatus according to claim 6, wherein the first angle adjustment control (312) is provided with a first connection member (3122), the first connection member (3122) connecting the first drive motor (3121) and the metal propeller blade (311).

8. The biogenic detection device according to claim 7, wherein the microwave adjustment control member (310) is further provided with a second angle adjustment control member (313), the second angle adjustment control member (313) is connected with the first angle adjustment control member (312), and the second angle adjustment control member (313) and the first angle adjustment control member (312) can simultaneously adjust the movement of the metal screw blade (311).

9. The biogenic detection apparatus of claim 4, wherein the detection box (1) is further provided with a controller, and the controller is in control connection with a microwave control member (310).

10. The biogenic detection device according to claim 8, wherein the second angle adjustment control (313) is provided with a second connector (3131), the second connector (3131) being connected with the first connector (3122).

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