CN218068013U - Genetic gene detection device based on beef cattle breeding - Google Patents

Abstract

The utility model discloses a genetic gene detection device based on beef breeding, which comprises an outer box body, a control panel, an external power supply, a servo motor, a slide rail, a detector, a temperature and humidity sensor, a temperature control block, a moisture absorption layer, a heat preservation layer, a sample cup, an observation window and a computer transmission interface; the control panel is fixedly connected to the right side of the outer box body; the external power supply is fixedly connected to the lower part of the left side of the outer box body; the servo motor is fixedly connected to the left side and the right side of the sliding rail at the upper left in the outer box body and is fixedly connected to the inner wall of the outer box body; the detector is connected with the servo motor through a circuit and moves left and right in the slide rail under the action of the servo motor; when the device is used for detecting the genetic gene sample, the risk of the accuracy reduction of the detection result caused by the temperature and the humidity can be reduced to the greatest extent; the sample cup is tightly contacted with the temperature control block, so that the stability of the sample cup is ensured while the temperature control efficiency is increased; the device has simple structure, can measure a plurality of samples, and has good debugging and applicability.

Description

Genetic gene detection device based on beef cattle breeding

Technical Field

The utility model relates to the technical field of machinery, especially, relate to a genetic gene detection device based on beef breeding.

Background

The gene is a genetic basic unit, and a DNA or RNA sequence carrying genetic information transfers the genetic information to the next generation through copying, guides the synthesis of protein to express the genetic information carried by the gene, and thereby controls the character expression of biological individuals; in recent years, gene detection is widely applied to beef breeding work, and through genetic gene detection, more excellent genes are screened, so that varieties which are more suitable for cultivation and have more meat yield are bred and cultured.

Most of the genetic gene detection equipment disclosed by the prior art is not relatively sealed, a sample is often exposed outside, and other relatively sealed detection devices are not internally provided with a constant temperature system, so that the temperature is difficult to adjust in a targeted manner, the sample is easily inactivated or deteriorated, and the detection result is influenced; the humidity inside the equipment can rise under the influence of the outside or sample solution under the low-temperature environment, and the error of the detection result is easily caused; the supporter stability of sample is placed to a lot of equipment is not enough, and the debugging is complicated, has the sample to empty the risk.

Therefore, those skilled in the art have made an effort to develop a genetic testing device based on breeding of beef cattle, aiming to solve the problem of defects of genetic testing equipment in the sample testing process in the prior art.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect of prior art, the novel technical problem that will solve of this experiment is that most genetic gene detection device is carrying out the in-process that the sample detected among the prior art, and inside temperature, humidity are unstable, cause the sample deactivation easily or deteriorate, and then lead to the defect problem that error and a lot of device supporter stability are not enough to appear in the testing result.

In order to achieve the purpose, the utility model provides a genetic gene detection device based on beef breeding, which comprises an outer box body, a control panel, an external power supply, a servo motor, a slide rail, a detector, a temperature and humidity sensor, a temperature control block, a moisture absorption layer, a heat preservation layer, a sample cup, an observation window and a computer transmission interface; the control panel is fixedly connected to the right side of the outer box body; the external power supply is fixedly connected to the lower part of the left side of the outer box body; the servo motor is positioned at the upper left part in the outer box body and is fixedly connected with the inner wall of the outer box body; the left side and the right side of the sliding rail are fixedly connected to the inner wall of the outer box body; the detector is clamped and connected with the sliding rail through the protrusion above the detector; the detector is connected with the servo motor through a circuit and can move left and right in the slide rail under the action of the servo motor; the temperature and humidity sensors are fixedly connected to the inner walls of the left side and the right side of the outer box body; each temperature control block is fixedly connected to the inner wall at the rear part of the outer box body, and the distance between the temperature control blocks is consistent with the width of the sample cup; the computer transmission interface is fixedly connected to the lower part of the right side of the outer box body;

the moisture absorption layer is positioned below the temperature control block; the heat-insulating layer is positioned below the moisture absorption layer, the protruding positions of the left side and the right side are tightly attached to the temperature control block, and the outer side is tightly attached to the inner wall of the outer box body; each sample cup is placed in the interval between the temperature control blocks when being detected, and is tightly attached to the temperature control blocks;

the observation window is embedded in front of the outer box body, and rubber rings are arranged on four sides of the observation window to reduce the temperature change condition in the outer box body; the transverse size of the observation window is consistent with the length of the moisture absorption layer, so that an operator can conveniently replace the observation window when the moisture absorption layer absorbs water to reach a limit value; the observation window is provided with a handle;

furthermore, a main switch, a temperature control switch, a detection switch, a debugging button and a temperature and humidity display screen are arranged on the control panel; the control panel is connected with an external power supply, a servo motor, a temperature control block and a temperature and humidity sensor through an internal circuit; the debugging button can debug the position of the detector and the temperature setting of the temperature control block; when the debugging method is used, the temperature of the temperature control block is required to be set firstly, the temperature control switch is pressed, the left debugging button is used for cooling, and the right debugging button is used for heating; after the temperature of the temperature control block is adjusted, the detection switch is pressed, the left debugging button controls the detector to move leftwards, and the right debugging button controls the detector to move rightwards; the detection switch controls the servo motor to drive the detector to start working after the debugging button is pressed by no person for ten seconds;

further, the outer box body is cylindrical, rectangular or square;

furthermore, the servo motors, the slide rails and the detectors are consistent in quantity;

further, the temperature and humidity sensor is at least one;

further, the number of the temperature control blocks is at least three;

further, the fixed connection is welding, bonding and integral forming;

in a specific embodiment of the present invention, the outer case has a rectangular shape;

in a specific embodiment of the present invention, the number of the servo motor, the slide rail and the detectors is one;

in a specific embodiment of the present invention, the number of the temperature and humidity sensors is two;

in a specific embodiment of the present invention, the number of the temperature control blocks is six;

in a specific embodiment of the present invention, said fixed connection is a weld;

in a specific embodiment of the present invention, the heat insulating layer is made of an insulating material with poor thermal conductivity;

scheme more than adopting, the utility model discloses a genetic gene detection device based on beef cattle breeding has following technological effect:

1. the genetic gene detection device based on beef breeding of the utility model is a relatively sealed device as a whole, and the sample can complete the related detection work in the device without being exposed outside, thereby increasing the stability of the sample and improving the accuracy of the detection result;

2. the genetic gene detection device based on beef breeding is internally provided with the temperature control block, the proper temperature can be set according to the temperature requirements under different conditions, the activity of a sample is ensured, the deterioration, the decay and other conditions are reduced, and meanwhile, compared with a plurality of devices which are arranged on the market and are provided with sample cups by spring bases, the device not only can realize the close contact between the temperature control block and the sample cups, the temperature control efficiency is increased, but also can realize large-area surrounding contact, so that the sample cups are ensured not to have the risk of dumping;

3. the utility model discloses a genetic gene detection device based on beef cattle breeding, temperature and humidity sensor, hygroscopic layer can reduce the influence of inside humidity to sample detection to a certain extent, also can prolong the life of equipment simultaneously, and operating personnel also can observe or change all kinds of parts at any time through the observation window, and convenient operation is nimble;

to sum up, the utility model discloses a genetic gene detection device based on beef cattle breeding, simple structure, convenient operation compromises temperature control, humidity control simultaneously, and inside enables the specimen cup stability in holding, has reduced the internal environment change that all kinds of circumstances lead to, has increased the degree of accuracy that the sample detected, and the application is good.

The conception, specific structure and technical effects of the present invention will be further described with reference to the accompanying drawings and specific embodiments, so as to fully understand the objects, features and effects of the present invention.

Drawings

FIG. 1 is a schematic diagram of the internal structure of a genetic gene detection device based on beef breeding;

FIG. 2 is a front view of the device for detecting a genetic gene based on breeding beef cattle of the present invention;

fig. 3 is a detailed view of the control panel 2;

FIG. 4 is a schematic diagram of the relative positions of the slide rail 5 and the detector 6;

in the figure, 1, an outer case; 2. a control panel; 201. a master switch; 202. a temperature control switch; 203. a detection switch; 204. a debug button; 205. a temperature and humidity display screen; 3. an external power supply; 4. a servo motor; 5. a slide rail; 6. a detector; 7. a temperature and humidity sensor; 8. a temperature control block; 9. a moisture-absorbing layer; 10. a heat-insulating layer; 11. a sample cup; 12. an observation window; 1201. a handle; 13. a computer transmission interface.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, so that the technical contents thereof will be more clearly understood. The present invention may be embodied in many different forms of embodiments, and the scope of the invention is not limited to only the embodiments described herein.

In the drawings, structurally identical elements are represented by like reference numerals, and structurally or functionally similar elements are represented by like reference numerals throughout the several views. The size and thickness of each component shown in the drawings are arbitrarily illustrated, and the present invention is not limited to the size and thickness of each component. The thickness of the components has been exaggerated in some places in the drawings where appropriate for clarity of illustration.

As shown in fig. 1-2, the genetic gene detection device based on beef breeding of the present invention comprises an outer box 1, a control panel 2, an external power supply 3, a servo motor 4, a slide rail 5, a detector 6, a temperature and humidity sensor 7, a temperature control block 8, a moisture absorption layer 9, a heat insulation layer 10, a sample cup 11, an observation window 12, and a computer transmission interface 13; the control panel 2 is fixedly connected to the right side of the outer box body 1; the external power supply 3 is fixedly connected to the lower part of the left side of the outer box body 1; the servo motor 4 is positioned at the upper left part inside the outer box body 1 and is fixedly connected with the inner wall of the outer box body 1; the left side and the right side of the sliding rail 5 are fixedly connected to the inner wall of the outer box 1; the detector 6 is clamped and connected with the slide rail 5 through a protrusion above the detector; the detector 6 is connected with the servo motor 4 through a circuit and can move left and right in the slide rail 5 under the action of the servo motor 4; the temperature and humidity sensors 7 are fixedly connected to the inner walls of the left side and the right side of the outer box body 1; each temperature control block 8 is fixedly connected to the inner wall of the rear part of the outer box body 1, and the distance between the temperature control blocks 8 is consistent with the width of the sample cup 11; the computer transmission interface 13 is fixedly connected to the lower part of the right side of the outer box body 1;

the moisture absorption layer 9 is positioned below the temperature control block 8; the heat-insulating layer 10 is positioned below the moisture absorption layer 9, the protruding positions of the left side and the right side are tightly attached to the temperature control block 8, and the outer side is tightly attached to the inner wall of the outer box body 1; each sample cup 11 is placed in the interval between the temperature control block 8 and the temperature control block 8 when being detected, and is tightly attached to the temperature control block 8;

the observation window 12 is embedded in the front of the outer box 1, and rubber rings are arranged on the four sides of the observation window to reduce the temperature change condition in the outer box 1; the transverse size of the observation window 12 is consistent with the length of the moisture absorption layer 9, so that an operator can conveniently replace the observation window when the moisture absorption layer 9 absorbs water to reach a limit value; the observation window 12 is provided with a handle 1201;

as shown in fig. 3, the control panel 2 is provided with a main switch 201, a temperature control switch 202, a detection switch 203, a debugging button 204, and a temperature and humidity display screen 205; the control panel 2 is connected with an external power supply 3, a servo motor 4, a temperature control block 8 and a temperature and humidity sensor 7 through an internal circuit; the debugging button 204 can debug the position of the detector 6 and the temperature setting of the temperature control block 8; when the debugging method is used, the temperature of the temperature control block 8 is required to be set firstly, the temperature control switch 202 is pressed, the left debugging button 204 is used for cooling, and the right debugging button 204 is used for heating; after the temperature of the temperature control block 8 is adjusted, the detection switch 203 is pressed, the left debugging button 204 controls the detector 6 to move leftwards, and the right debugging button 204 controls the detector 6 to move rightwards; the detection switch 203 controls the servo motor 4 to drive the detector 6 to start working after the debugging button 204 is pressed for ten seconds by no one;

as shown in fig. 4, the detector 6 is clamped with the slide rail 5 through an upper protrusion; the detector 6 can move left and right in the slide rail 5 under the action of the servo motor 4;

in the present embodiment, the first and second liquid crystal display panels are,

the outer box body 1 is cuboid;

the number of the servo motors 4, the number of the slide rails 5 and the number of the detectors 6 are one;

the number of the temperature and humidity sensors 7 is two;

the number of the temperature control blocks 8 is six;

the fixed connection is welding;

the heat insulation layer 10 is made of an insulating material with poor heat conductivity;

when the device is used, the device for detecting the genetic genes based on beef breeding is fixed, after all parts are confirmed to be free of external damage, an external power supply is electrified, a main switch button of a control panel is pressed, the device is started, a temperature control switch is pressed, the temperature of a temperature control block is set to a value required by detection through a debugging button, a period of time is waited, the internal temperature is observed through a temperature and humidity display screen, after the internal temperature reaches the environmental temperature required by detection, an observation window is opened through a handle, a sample cup containing a sample is placed in an interval between the temperature control blocks, the observation window is closed, a detection switch is pressed, the detector is adjusted to the position above the sample cup through the debugging button and is kept still, after ten seconds, a detection head in the detector extends out of the beaker and is detected to the end, a detection result is sent to a computer through a computer transmission interface, and an operator can record and store the detection result;

if more than one sample exists, the position of the detector is repeatedly adjusted after the first detection is finished, and then the detection work is carried out; the temperature and humidity display screen displays the temperature and humidity in the equipment in real time, if the temperature and humidity are higher and do not decrease within a certain time, the lower moisture absorption layer needs to be replaced, and the observation window is opened for replacement; after all the detection works are finished, the operator can close various switches and open the observation window to carry out sample transfer, cleaning and disinfection;

through practical use, when the genetic gene detection device based on beef breeding is used for detecting the genetic gene, the temperature in the device can be ensured to be close to the sample storage temperature to the greatest extent, and the risk of the accuracy reduction of the detection result caused by the temperature and humidity is reduced; the surrounding contact ensures that the sample cup is tightly contacted with the temperature control block, so that the stability of the sample cup is ensured while the temperature control efficiency is increased; the device has simple structure, is easy to learn and use, can measure a plurality of samples, and has good debugging and applicability.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations could be devised by those skilled in the art without the use of inventive faculty. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (6)

1. A genetic gene detection device based on beef breeding is characterized by comprising an outer box body (1), a control panel (2), an external power supply (3), a servo motor (4), a slide rail (5), a detector (6), a temperature and humidity sensor (7), a temperature control block (8), a moisture absorption layer (9), a heat preservation layer (10), a sample cup (11), an observation window (12) and a computer transmission interface (13); the control panel (2) is fixedly connected to the right side of the outer box body (1); the external power supply (3) is fixedly connected to the lower part of the left side of the outer box body (1); the servo motor (4) is positioned at the upper left part inside the outer box body (1) and is fixedly connected with the inner wall of the outer box body (1); the left side and the right side of the sliding rail (5) are fixedly connected to the inner wall of the outer box body (1); the detector (6) is clamped and connected with the sliding rail (5) through the protrusion above; the detector (6) is connected with the servo motor (4) through a circuit and can move left and right in the sliding rail (5) under the action of the servo motor (4); the temperature and humidity sensors (7) are fixedly connected to the inner walls of the left side and the right side of the outer box body (1); each temperature control block (8) is fixedly connected to the inner wall of the rear part of the outer box body (1), and the distance between the temperature control blocks (8) is consistent with the width of the sample cup (11); and the computer transmission interface (13) is fixedly connected to the lower part of the right side of the outer box body (1).

2. The apparatus for detecting a genetic gene based on beef cattle breeding according to claim 1,

the moisture absorption layer (9) is positioned below the temperature control block (8); the heat-insulating layer (10) is positioned below the moisture absorption layer (9), the protruding positions of the left side and the right side are tightly attached to the temperature control block (8), and the outer side is tightly attached to the inner wall of the outer box body (1); each sample cup (11) is placed in the interval between the temperature control block (8) and the temperature control block (8) when being detected, and is tightly attached to the temperature control block (8);

the observation window (12) is embedded in the front of the outer box body (1), and rubber rings are arranged on four sides of the observation window to reduce the temperature change condition in the outer box body (1); the transverse size of the observation window (12) is consistent with the length of the moisture absorption layer (9), so that an operator can conveniently replace the observation window when the moisture absorption layer (9) absorbs water to reach a limit value; the observation window (12) is provided with a handle (1201).

3. The apparatus for detecting a genetic gene based on beef cattle breeding according to claim 1,

a main switch (201), a temperature control switch (202), a detection switch (203), a debugging button (204) and a temperature and humidity display screen (205) are arranged on the control panel (2); the control panel (2) is connected with an external power supply (3), a servo motor (4), a temperature control block (8) and a temperature and humidity sensor (7) through an internal circuit; the debugging button (204) can debug the position of the detector (6) and the temperature setting of the temperature control block (8); the debugging method comprises the steps that when the debugging method is used, the temperature of the temperature control block (8) is set firstly, the temperature control switch (202) is pressed, the left debugging button (204) is used for cooling, and the right debugging button (204) is used for heating; after the temperature of the temperature control block (8) is adjusted, the detection switch (203) is pressed, the left debugging button (204) controls the detector (6) to move leftwards, and the right debugging button (204) controls the detector (6) to move rightwards; and the detection switch (203) controls the servo motor (4) to drive the detector (6) to start working after the debugging button (204) is pressed for ten seconds by no one.

4. The apparatus for detecting a genetic gene based on breeding of beef cattle according to claim 1,

the detector (6) is clamped with the sliding rail (5) through the protrusion above; the detector (6) can move left and right in the sliding rail (5) under the action of the servo motor (4).

5. The apparatus for detecting a genetic gene based on beef cattle breeding according to claim 1,

the outer box body (1) is cylindrical, rectangular or square;

the servo motors (4), the sliding rails (5) and the detectors (6) are consistent in quantity;

the temperature and humidity sensor (7) is at least one;

the number of the temperature control blocks (8) is at least three;

the fixed connection is formed by welding, bonding and integrating.

6. The apparatus for detecting a genetic gene based on beef cattle breeding according to claim 1,

the outer box body (1) is cuboid;

the number of the servo motors (4), the number of the slide rails (5) and the number of the detectors (6) are all one;

the number of the temperature and humidity sensors (7) is two;

the number of the temperature control blocks (8) is six;

the fixed connection is welding;

the heat insulation layer (10) is made of a material which is insulating and poor in heat conductivity.

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