CN213663263U - Based on AIoT economic pest situation automatic monitoring system in forest - Google Patents

Abstract

The utility model discloses an based on economic insect situation automatic monitoring system under AIoT forest, including top cap, insect trap, middle level cover and base, middle level lantern ring cover is peripheral at the insect trap, and middle level cover top is equipped with the top cap, and middle level cover below is equipped with the base, and the insect trap includes the moth-killing lamp, moth-killing agent storehouse and electric wire netting layer, and moth-killing agent storehouse ring cover is peripheral at the moth-killing lamp, and electric wire netting layer ring cover is peripheral at moth-killing agent storehouse, and the insect mouth is received on base upper portion is equipped with the response counter, and the top is equipped with control processor and electrical source controller in the base, and control processor passes through the electric wire and is connected with electrical source controller. The utility model provides a based on economic insect pest situation automatic monitoring system under AIoT forest can monitor by full-automatic to can carry out comprehensive, effectual, long-time continuous monitoring, great reduction the cost of labor, promote monitoring efficiency. In addition, the AIoT-based automatic forest pest situation monitoring system is more reasonable in design, and the situation that the system is damaged due to natural disasters is avoided.

Description

Based on AIoT economic pest situation automatic monitoring system in forest

Technical Field

The utility model belongs to the technical field of automatic monitoring, specifically indicate an under forest economic insect pest situation automatic monitoring system based on AIoT.

Background

In this age, insects have had a tremendous impact on both the planting and gardening industries. In particular, in the planting industry, not only plants and environment are affected, but also the yield of grains is directly affected, so that the storage of grains is troubled, and the insect condition needs to be monitored. Ordinary worm situation monitoring generally takes manual monitoring as the main thing, but manual monitoring has the amount of labour big, the data is incomplete, the degree of difficulty is big, can not carry out continuous monitoring for a long time moreover, can lead to monitoring inaccurate condition to appear. Although automatic monitoring also appears, the problems of unreasonable design, inconvenience in viewing monitoring data and the like generally exist.

SUMMERY OF THE UTILITY MODEL

Big, the inaccurate, unreasonable scheduling problem of monitoring system design of monitoring system of the amount of labour that exists for solving among the prior art automatic monitoring system, the utility model provides a based on economic insect pest situation automatic monitoring system under AIoT forest.

The utility model adopts the technical proposal that:

the utility model provides an economic insect situation automatic monitoring system under forest based on AIoT, including the top cap, the insect trap, well layer cover and base, well layer lantern ring cover is peripheral at the insect trap, well layer cover top is located to the top cap, well layer cover below is located to the base, the insect trap includes the moth-killing lamp, moth-killing agent storehouse and electric wire netting layer, moth-killing agent storehouse ring cover is peripheral at the moth-killing lamp, electric wire netting layer ring cover is peripheral at moth-killing agent storehouse, the inside accommodation space who forms an upper portion opening of base, the opening part is equipped with the response counter, the top is equipped with control processor and electrical source controller in the base, control processor is connected with electrical source controller.

The trap lamp, the trap agent bin and the power grid layer are fixedly connected together, so that the whole trap is conveniently taken and placed from the middle-layer sleeve. And the design of the ring sleeves is adopted, so that the parts in the insect trap can be replaced conveniently only after the whole insect trap is taken out. The sensing counter is used to record the number of insects caught and falling to the base. The control processor is used for controlling the working state of the whole system, and the power supply controller is used for controlling the circuit state of the whole system.

Furthermore, the top outside the top cover is provided with a lightning rod, the outer wall surface of the top cover is paved with a solar panel, and the solar panel is connected with the power supply controller. Because the place for placing an automatic monitoring system based on the AIoT forest economic insect situation is generally a relatively open place, the automatic monitoring system is easy to be attacked by thunder and lightning. Therefore, the lightning rod can effectively avoid the attack of lightning on the AIoT-based automatic forest pest situation monitoring system. The electric power collected by the solar panel is stored in the power supply controller, and the whole system is supported by the electric power.

Furthermore, a hook is arranged at the top in the top cover, and the insect trap is hung on the hook. When the top cover is lifted upwards, the insect trap is taken out at the same time, and the operation is very simple. The insect trap is also very simple to separate from the top cover, as long as it is taken out of the hook.

Furthermore, the wavelength of the trap lamp is 320nm-680nm, the trap lamp is connected with the control processor through a wire, and the trap agent bin is internally provided with the trap agent. Meanwhile, the trap lamp and the trap agent are arranged, so that the trap effect is improved. In daytime, the control processor can turn off the trap lamp, avoids the waste of electric power, turns on the trap lamp again when dark. The trap lamp with the wavelength of 320nm-680nm has the characteristics of various pest species, good effect and large quantity.

Further, the surface of the middle layer sleeve is provided with insect catching holes. The size of the insect catching hole can be correspondingly designed according to the size of a certain pest, and the insect catching hole is used for monitoring a single pest.

Furthermore, a 4G or 5G module is arranged in the control processor, and the induction counter is connected with the control processor through an electric wire. The sensing counter sends the monitored quantity to the control processor, and the control processor sends the data to a screen of a monitoring room in a wireless mode or directly to a mobile phone of a monitoring person.

Furthermore, the vertical direction of any one side of the outer wall surface of the base is sequentially provided with an illumination sensor, an air pressure sensor, a humidity sensor, a temperature sensor and a PH value sensor from top to bottom, and the illumination sensor, the air pressure sensor, the humidity sensor, the temperature sensor and the PH value sensor are respectively connected with the control processor through electric wires. The control processor sends the big data to monitoring personnel to help the monitoring personnel to further analyze the insect condition, so that the future insect condition monitoring and prevention are prepared.

The beneficial effects of the utility model are that: the utility model provides a based on economic insect pest situation automatic monitoring system under AIoT forest can monitor by full-automatic to can carry out comprehensive, effectual, long-time continuous monitoring, great reduction the cost of labor, promote monitoring efficiency. In addition, the AIoT-based automatic forest pest situation monitoring system is more reasonable in design, and the situation that the system is damaged due to natural disasters is avoided.

Drawings

Fig. 1 is a schematic diagram of an external structure of an embodiment of the present invention.

Fig. 2 is a schematic diagram of an internal structure of an embodiment of the present invention.

Fig. 3 is a schematic view showing the position relationship between the insect trap and the middle layer sleeve according to the embodiment of the present invention.

Fig. 4 is a bottom view of the embodiment of the present invention shown in fig. 3.

In the figure: 1-top cover, 2-insect trap, 3-middle layer sleeve, 4-base, 11-lightning rod, 12-hook, 21-insect trapping lamp, 22-insect trapping agent bin, 23-electric net layer, 31-insect trapping hole, 41-induction counter, 42-control processor, 43-power controller, 44-illumination sensor, 45-air pressure sensor, 46-humidity sensor, 47-temperature sensor, 48-PH value sensor and 49-reserved space.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Examples

The utility model provides an economic insect situation automatic monitoring system under forest based on AIoT, including top cap 1, insect trap 2, middle level cover 3 and base 4, 3 ring covers in middle level cover are peripheral at insect trap 2, top cap 1 locates middle level cover 3 top, base 4 locates middle level cover 3 below, insect trap 2 includes moth-killing lamp 21, moth-killing agent storehouse 22 and electric wire netting layer 23, moth-killing agent storehouse 22 ring covers in moth-killing lamp 21 periphery, electric wire netting layer 23 ring covers in moth-killing agent storehouse 22 periphery, the inside accommodation space that forms an upper portion opening of base 4, the opening part is equipped with induction counter 41, the top is equipped with control processor 42 and electrical source controller 43 in the base 4, control processor 42 is connected with electrical source controller 43.

The trap lamp 21, the trap agent bin 22 and the power grid layer 23 are fixedly connected together, so that the whole trap device is convenient to take and place from the middle-layer sleeve 3. And the design of the ring sleeves is also adopted, so that the replacement of parts in the insect trap 2 is very convenient only after the whole insect trap 2 is taken out. Top cap 1 and middle level cover 3 are connected through the mode of buckle, and middle level cover 3 and base 4 also are connected through the mode of buckle, make one kind based on the whole dismouting of AIoT under-forest economic pest situation automatic monitoring system all very convenient. The sensing counter 41 is used to record the number of insects caught and falling to the base 4. The control processor 42 is used for controlling the working state of the whole system, and the power controller 43 is used for controlling the circuit state of the whole system. The power controller 43 supplies power to the grid layer 23.

The outer top of top cap 1 is equipped with lightning rod 11, and solar panel is laid to the outer wall of top cap 1, and solar panel is connected with power controller 43. Because the place for placing an automatic monitoring system based on the AIoT forest economic insect situation is generally a relatively open place, the automatic monitoring system is easy to be attacked by thunder and lightning. Therefore, the lightning rod 11 can effectively avoid the attack of lightning on the AIoT-based automatic forest pest situation monitoring system. The power collected by the solar panel is stored in the power controller 43 to support the whole system.

The top in the top cover 1 is provided with a hook 12, and the insect trap 2 is hung on the hook 12. When the top cover 1 is lifted upwards, the insect trap 2 is taken out at the same time, and the operation is very simple. The separation of the trap 2 from the cover 1 is also very simple, as long as it is removed from the hook 12.

The wavelength of the trap lamp 21 is 320nm-680nm, the trap lamp 21 is connected with the control processor 42 through an electric wire, and the trap agent bin 22 is internally provided with the trap agent. Meanwhile, the trap lamp 21 and the trap agent are arranged, so that the trap effect is improved. In the daytime, the control processor 42 turns off the trap lamp 21 to avoid waste of power, and turns on the trap lamp 21 in the dark. The trap lamp 21 with the wavelength of 320nm-680nm has the characteristics of trapping and killing a plurality of pest types, good effect and large quantity.

The surface of the middle layer sleeve 3 is provided with an insect catching hole 31. The size of the insect catching holes 31 can be designed correspondingly to the size of a certain pest for monitoring a single pest.

The control processor 42 incorporates a 4G or 5G module, and the sensing counter 41 is connected to the control processor 42 via a cable. The sensing counter 41 sends the monitored quantity to the control processor 42, and the control processor 42 sends the data to the screen of the monitoring room in a wireless mode or directly to the mobile phone of the monitoring personnel.

The illumination sensor 44, the air pressure sensor 45, the humidity sensor 46, the temperature sensor 47 and the PH value sensor 48 are sequentially arranged on any one side of the outer wall surface of the base 4 from top to bottom, and the illumination sensor 44, the air pressure sensor 45, the humidity sensor 46, the temperature sensor 47 and the PH value sensor 48 are respectively connected with the control processor 42 through electric wires. The corresponding various data are collected through various sensors to form big data, and then the big data are sent to monitoring personnel through the control processor 42 to help the monitoring personnel to further analyze the insect condition, so that the future insect condition monitoring and prevention are prepared.

In the daytime, the control processor 42 makes a judgment through the signals collected by the illumination sensor 44, turns off the trap lamp 21 and attracts pests by means of the attractant. The pests will pass through the trap holes 31, enter the middle sleeve 3 and continue to approach the attractant compartment 22. Before the pests reach the insect attractant bin 22, the pests touch the electric net layer 23. The pests are killed by corona or electricity and fall freely from the reserved space 49 into the base 4. When pests pass through the sensing position of the sensing counter 41, the sensing counter 41 starts counting, then the recorded data is sent to the control processor 42, and then the control processor 42 sends the data to a monitoring screen of a monitoring room or a mobile phone of a monitoring person through a 4G or 5G module.

In dark, the control processor 42 makes a judgment according to the signals collected by the illumination sensor 44, turns on the trap lamp 21, attracts pests by means of the trap lamp 21 and the attractant at the same time, and enhances the effect of attracting the pests.

The pressure sensor 45, humidity sensor 46, temperature sensor 47 and PH sensor 48 may be continuously monitored for 24 hours and send the collected data to the control processor 42.

It is to be understood that: although the present invention has been described in some detail by way of the specific embodiments, these descriptions are not intended to limit the scope of the invention, and any changes in form and detail that do not exceed the scope of the claims are intended to fall within the scope of the invention.

Claims (7)

1. The utility model provides an economic insect pest situation automatic monitoring system under based on AIoT forest, includes top cap (1), insect trap (2), middle level cover (3) and base (4), and middle level cover (3) ring cover is peripheral at insect trap (2), and middle level cover (3) top is located in top cap (1), and middle level cover (3) below, its characterized in that are located in base (4): insect trap (2) are including moth-killing lamp (21), moth-killing agent storehouse (22) and electric wire netting layer (23), moth-killing agent storehouse (22) ring cover is peripheral at moth-killing lamp (21), electric wire netting layer (23) ring cover is peripheral at moth-killing agent storehouse (22), base (4) inside forms an upper portion open-ended accommodation space, the opening part is equipped with response counter (41), the top is equipped with control processor (42) and electrical source controller (43) in base (4), control processor (42) are connected with electrical source controller (43).

2. The AIoT-based forest economic pest situation automatic monitoring system according to claim 1, characterized in that: the outer top of top cap (1) is equipped with lightning rod (11), and solar panel is laid to the outer wall of top cap (1), and solar panel is connected with electrical source controller (43).

3. The AIoT-based forest economic pest situation automatic monitoring system according to claim 1, characterized in that: the top in the top cover (1) is provided with a hook (12), and the insect trap (2) is hung on the hook (12).

4. The AIoT-based forest economic pest situation automatic monitoring system according to claim 1, characterized in that: the wavelength of the trap lamp (21) is 320nm-680nm, the trap lamp (21) is connected with the control processor (42) through an electric wire, and the trap agent bin (22) is internally provided with a trap agent.

5. The AIoT-based forest economic pest situation automatic monitoring system according to claim 1, characterized in that: the surface of the middle layer sleeve (3) is provided with an insect catching hole (31).

6. The AIoT-based forest economic pest situation automatic monitoring system according to claim 1, characterized in that: the control processor (42) is internally provided with a 4G or 5G module, and the induction counter (41) is connected with the control processor (42) through an electric wire.

7. The AIoT-based forest economic pest situation automatic monitoring system according to claim 1, characterized in that: the base (4) outer wall arbitrary side vertical direction from the top down is equipped with light sensor (44), baroceptor (45), humidity transducer (46), temperature sensor (47) and PH value sensor (48) in proper order, and light sensor (44), baroceptor (45), humidity transducer (46), temperature sensor (47) and PH value sensor (48) are connected with control processor (42) through the electric wire respectively.

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