CN210352835U - Device for monitoring gas insecticidal effect in closed environment in real time - Google Patents

Abstract

The utility model discloses a device that is arranged in gaseous insecticidal effect of real-time supervision of airtight environment relates to grain and stores technical field. The device comprises a base, an integrated cover buckled above the base through a quick connecting port, and a transparent vessel placed at the bottom of a cavity of the base; the side wall of the base is provided with a plurality of air inlets with the aperture smaller than that of the grains, so that the grains can be prevented from entering the base, and the outside insecticidal gas can be communicated to enter the closed space; the top of the inner cavity of the integrated cover is provided with a camera which is electrically connected with a control device positioned outside the integrated cover shell, and the control device is combined with the image receiving control terminal through a network communication device. Utilize the utility model discloses need not open sealed environment and just can monitor in real time the device of the dead process of pest and the condition of surviving in airtight environment, and then more timely, know the effect that the insecticidal was handled more comprehensively, have easy operation, convenient to use, developments directly perceived, timely real-time advantage.

Description

Device for monitoring gas insecticidal effect in closed environment in real time

Technical Field

The utility model relates to a technical field is stored to the grain, and more specifically says and relates to a device that is arranged in gaseous insecticidal effect of airtight environment real-time supervision.

Background

In the storage process of the grains, the loss specific gravity caused by insect pests is large, so that the stored grains need to be subjected to insecticidal treatment regularly. The current commonly used insecticidal treatment means is grain storage fumigation or air-conditioned insecticidal. Grain storage fumigation or controlled atmosphere disinsection needs to be carried out in a closed environment, so that the examination for evaluating the insecticidal effect of fumigation or controlled atmosphere is usually carried out by sampling and examining after fumigation and gas dispersion, and only the final survival condition or insecticidal effect of pests in grains can be examined. There have also been attempts to set insect caged insects on grain before fumigation and pesticide application, open a closed environment at a certain time interval in the fumigation or air-conditioned pesticide application process to take out the insects, check the survival condition or pesticide effect of the pests at that time, compared with the above-mentioned detection method of fumigating or sampling after air-conditioned, although the survival condition or pesticide effect of the pests can be known earlier and discontinuously, more insects need to be prepared, which is somewhat difficult in the actual use process; and the closed environment needs to be opened repeatedly, and the operation is troublesome. Therefore, at present, there is an urgent need to design a device capable of monitoring the death process and survival condition of the treated pests in real time without opening a sealed environment, so as to know the pest killing effect more timely and comprehensively.

Disclosure of Invention

The utility model aims at providing a device that is arranged in gaseous insecticidal effect of real-time supervision among the airtight environment to the weak point that exists among the prior art exactly. Utilize the utility model discloses need not open sealed environment and just can monitor in real time the device of the dead process of pest and the condition of surviving in airtight environment, and then more timely, know the effect that the insecticidal was handled more comprehensively, have easy operation, convenient to use, developments directly perceived, timely real-time advantage.

The purpose of the utility model can be realized by the following technical measures:

the utility model discloses a device for monitoring gas insecticidal effect in real time in airtight environment, which comprises a base and an integrated cover buckled above the base through a quick connecting port (the integrated cover and the base are buckled to form an airtight space for placing monitoring insect test, the insect test is placed on a transparent vessel at the bottom of the cavity of the base, so that the lighting is good and clear when a camera captures an image); a plurality of air inlets with the aperture smaller than that of the grains are arranged on the side wall of the base (not only can prevent the grains from entering the base, but also can communicate the external insecticidal gas to enter a closed environment, and the designed diameter of the air inlets is 2 mm); the top of the inner cavity of the integrated cover is provided with a camera which is electrically connected with a control device positioned outside the integrated cover shell, and the control device is combined with an image receiving control terminal through a network communication device (the camera can acquire an active state image of pests in real time in the gas pest killing process, the control device can open or close the electronic device at proper time, and the control device can transmit the image acquired by the camera to the image receiving control terminal through the network communication device and clearly show the image on a display screen of the image receiving control terminal).

The utility model discloses in the quick connector is helicitic texture (can realize high-speed joint or open fast).

The utility model discloses in the quick connector is buckle structure (can realize high-speed joint or open fast).

The utility model discloses in base and integrated lid are cylindrical cavity form structure (cylindrical cavity form structure is convenient for process, counterpoints easily during the butt joint).

The utility model discloses in camera, controlling means, image reception control terminal and network communication device all are connected with the power electricity (are the prerequisite of each electron device normal work).

The utility model discloses in network communication device is WIFI (WIFI is the wireless network device commonly used at present).

The utility model discloses in the camera is high definition video camera (can acquire the pest active state image of high definition in real time at gaseous insecticidal in-process).

The working principle of the utility model is as follows:

the utility model utilizes the integrated cover and the base to form a closed space for holding the monitoring insect test after being buckled and combined; the test insects are placed on the transparent vessel at the bottom of the cavity of the base, and the teflon is coated on the surface of the inner side wall of the transparent vessel to prevent pests from escaping, so that the pests retained in the transparent vessel are more convenient to monitor and observe; the external insecticidal gas enters the chamber through the air inlet hole on the side wall of the base and contacts the pests in the transparent vessel to kill the pests; open the utility model discloses well each electron device's switch, at gaseous insecticidal in-process, the pest active state image of high definition can be acquireed in real time to the camera, controlling means can pass through network communication device with the image that the camera acquireed and transmit for image reception control terminal to clearly show out on image reception control terminal's display screen, utilize like this the utility model discloses need not open sealed environment and just can monitor in real time the device of being handled the dead process of pest and the condition of surviving, and then more timely, know the effect of insecticidal processing more comprehensively, have easy operation, convenient to use, developments directly perceived, timely real-time advantage.

The utility model has the advantages of as follows:

utilize the utility model discloses need not open sealed environment and just can monitor in real time by the device of the dead process of pest and the condition of surviving, and then in time more, know the effect that the insecticidal was handled more comprehensively, have easy operation, convenient to use, developments directly perceived, timely real-time advantage.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

The sequence numbers in the figures illustrate: 1. the device comprises a base, 2, a transparent vessel, 3, a butoxyflon, 4, a quick connecting port, 5, an integrated cover, 6, a camera, 7, a control device, 8, a power supply, 9, a network communication device, 10, a pest image, 11, an image receiving control terminal, 12 and pests.

Detailed Description

The present invention will be further described with reference to the accompanying drawings:

as shown in fig. 1, the device for monitoring the insecticidal effect of gas in real time in the closed environment of the utility model comprises a base (1), an integrated cover (5) buckled on the base (1) through a quick connector (4) (the integrated cover (5) and the base (1) are buckled to form a closed space for holding the monitoring insect test, the insect test is placed on a transparent vessel (2) at the bottom of the cavity of the base (1), so that the lighting is good and clear when the camera (6) picks up the image; a plurality of air inlets with the aperture smaller than that of the grains are arranged on the side wall of the base (1) (not only can prevent the grains from entering the base (1), but also can communicate the outside insecticidal gas to enter a closed environment, and the designed diameter of the air inlets is 2 mm); the top of the inner cavity of the integrated cover (5) is provided with a camera (6), the camera (6) is electrically connected with a control device (7) positioned outside the shell of the integrated cover (5), the control device (7) is combined with an image receiving control terminal (11) through a network communication device (9), the camera (6) can acquire an active state image of pests in real time in the gas insecticidal process, the control device (7) can timely open or close an electronic device, and the control device (7) can transmit the image acquired by the camera (6) to the image receiving control terminal (11) through the network communication device (9) and clearly shows the image on a display screen of the image receiving control terminal (11).

The utility model discloses in quick connector (4) are helicitic texture (can realize high-speed joint or open fast).

The utility model discloses in quick connector (4) is buckle structure (can realize the high-speed joint or open fast).

The utility model discloses in base (1) and integrated lid (5) are cylindrical cavity form structure (cylindrical cavity form structure is convenient for process, counterpoints easily during the butt joint).

The utility model discloses in camera (6), controlling means (7), image reception control terminal (11) and network communication device (9) all are connected (are the prerequisite of each electron device normal work) with power (8) electricity.

The utility model discloses in network communication device (9) are WIFI (WIFI is the wireless network device commonly used at present).

The utility model discloses in camera (6) are high definition video camera (can acquire the pest active state image of high definition in real time at gaseous insecticidal in-process).

The utility model discloses a concrete in service behavior as follows:

firstly, coating teflon (3) on the inner wall surface of the transparent vessel (2), which can be used for preventing pests from escaping and enabling the pests to be retained in the transparent vessel (2) for better observation; then, pests are placed at the bottom of the cavity of the transparent vessel (2); then, the transparent vessel (2) is placed at the bottom of the cavity of the base (1). Then, the integrated cover (5) is buckled above the base (1) in a butt-joint mode, and the quick connecting port (4) is screwed tightly; the external insecticidal gas enters the chamber through the air inlet hole on the side wall of the base (1) and contacts the pests in the transparent vessel to kill the pests; and finally, turning on a power supply (8), a control device (7), a network communication device (9) and an image receiving control terminal (11), and starting a valve for controlling an external insecticidal gas inlet pipe. Like this, outside insecticidal gas gets into gradually by integrated lid (5) and base (1) make-up combine the airtight insecticidal environment of back formation, the pest is slowly killed, can acquire the pest active state image of high definition in real time at gaseous insecticidal in-process camera (6), controlling means (7) can pass through network communication device (9) with the image that camera (6) acquireed and transmit for image reception control terminal (11), and clearly show on the display screen of image reception control terminal (11), utilize like this the utility model discloses need not open sealed environment and just can monitor in real time by the device of the dead process of processing pest and the condition of surviving, and then more timely, know the effect of insecticidal processing more comprehensively, have easy operation, convenient to use, dynamic directly perceived, timely real-time advantage.

Claims (7)

1. The utility model provides a device that is arranged in gaseous insecticidal effect of real-time supervision of airtight environment which characterized in that: the device comprises a base (1), an integrated cover (5) buckled above the base (1) through a quick connecting port (4), and a transparent vessel (2) placed at the bottom of a cavity of the base (1); a plurality of air inlets with the aperture smaller than the grain are arranged on the side wall of the base (1); the top of the inner cavity of the integrated cover (5) is provided with a camera (6), the camera (6) is electrically connected with a control device (7) positioned outside the shell of the integrated cover (5), and the control device (7) is combined with an image receiving control terminal (11) through a network communication device (9).

2. The device for real-time monitoring of insecticidal effect of gas in closed environment according to claim 1, characterized in that: the quick connecting port (4) is of a threaded structure.

3. The device for real-time monitoring of insecticidal effect of gas in closed environment according to claim 1, characterized in that: the quick connector (4) is of a buckle structure.

4. The device for real-time monitoring of insecticidal effect of gas in closed environment according to claim 1, characterized in that: the base (1) and the integrated cover (5) are both cylindrical cavity-shaped structures.

5. The device for real-time monitoring of insecticidal effect of gas in closed environment according to claim 1, characterized in that: the camera (6), the control device (7), the image receiving control terminal (11) and the network communication device (9) are all electrically connected with the power supply (8).

6. The device for real-time monitoring of insecticidal effect of gas in closed environment according to claim 1, characterized in that: the network communication device (9) is WIFI.

7. The device for real-time monitoring of insecticidal effect of gas in closed environment according to claim 1, characterized in that: the camera (6) is a high-definition video camera.

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