CN211353643U - Electric wire netting auxiliary type intelligence pest situation forecasting device - Google Patents

Abstract

The utility model discloses an electric network auxiliary intelligent insect condition measuring and reporting device, which comprises a base component, an insect falling hopper, a rotating glass component, a high-voltage electric network component and a light source component, wherein the insect falling hopper is arranged on the upper part of the base component; the rotary glass component is arranged in the middle of the base component, and the light source component is hung on the base component; the high-voltage power grid assembly is arranged on the outer side of the light source assembly. The utility model has the advantages that the structure is simple and compact, and the insect catching efficiency is high by arranging the rotating glass component, the high-voltage electric network component, the light source component and the insect falling hopper coaxially (which are all coaxially arranged with the middle vertical rod); 2. the rotary glass component can freely rotate around the middle vertical rod, so that the collision probability of winged insects with strong flying capability is improved; 3. the high-voltage power grid component adopts a high-voltage low-current scheme with high safety, so that the high-voltage power grid component can avoid damage to other organisms when effectively capturing flying insects flying at low speed; 4. the top cap can be for can providing the protection for high voltage electric network subassembly and light source subassembly, can also place the foreign matter and fall into the worm fill that falls.

Description

Electric wire netting auxiliary type intelligence pest situation forecasting device

Technical Field

The utility model relates to an insect pest situation forecast technical field specifically is an electric wire netting auxiliary type intelligence insect pest situation forecast device.

Background

The insect condition detecting and reporting device is specially developed for detecting and reporting insect conditions in agriculture and forestry, and the lamp realizes the functions of automatically trapping insects, killing insects, subpackaging and the like by utilizing a photoelectric technology. Various sensor interfaces such as wind speed and direction, ambient temperature and humidity, illumination and the like can be equipped, environmental parameters can be monitored when needed, and data can be uploaded through GPRS. To monitor the relationship between the environment and the pests. And various interfaces are provided, so that support is provided for visualization and online real-time monitoring of insect situations. The method is widely applied to the fields of agriculture, forestry, animal husbandry, tobacco, tea, medicinal materials, orchards and the like. The insect pest situation forecasting device is a simple, practical and novel forecasting tool, and provides more timely and accurate insect pest situation forecasting service for monitoring points established in all countryside and villages in China.

The traditional forecasting device adopts light to lure insects, the flying insects are caught by striking a glass screen, the effect on the flying insects with strong flying capability is good, but the flying insects with very low flying speed cannot be caught, and the problem of great limitation of insect condition forecasting is solved, so that the power grid auxiliary type intelligent insect condition forecasting device is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: on the basis of traditional pest situation forecast device, in order to solve the problem that the slow winged insect of speed that flies can't be caught, provide a power grid auxiliary type intelligence pest situation forecast device.

In order to achieve the above object, the utility model provides a following technical scheme: an electric network auxiliary type intelligent insect condition forecasting device comprises a base assembly, an insect falling hopper, a rotating glass assembly, a high-voltage electric network assembly and a light source assembly, wherein the insect falling hopper is arranged on the upper part of the base assembly; the rotating glass component is arranged in the middle of the base component, and the light source component is hung on the base component; the high-voltage power grid assembly is installed on the outer side of the light source assembly.

The base component comprises a lower base body, a middle upright rod and a top cover, wherein the middle upright rod is fixed on the lower base body; the top cover is fixed at the upper end of the middle vertical rod; the lower seat body is provided with a pest collecting box groove.

Rotatory glass subassembly includes glass screen and damping rotator, the damping rotator is installed in the middle of on the pole setting, the glass screen is fixed on the damping rotator.

The high-voltage power grid assembly comprises a cylindrical power grid, a battery pack and a high-voltage low-current circuit board, wherein the cylindrical power grid, the battery pack and the high-voltage low-current circuit board are connected through conducting wires; the battery pack and the high-voltage low-current circuit board are both mounted on the middle vertical rod, and the cylindrical power grid is covered on the light source component.

The light source component comprises a battery pack and an LED lamp set, and the battery pack and the LED lamp set are fixed on the middle upright rod; the battery pack and the LED lamp set are connected through a lead.

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

1. the utility model has the advantages that the structure is simple and compact, and the insect catching efficiency is high by arranging the rotating glass component, the high-voltage electric network component, the light source component and the insect falling hopper coaxially (which are all coaxially arranged with the middle vertical rod);

2. the rotary glass component can freely rotate around the middle vertical rod, so that the collision probability of winged insects with strong flying capability is improved;

3. the high-voltage power grid component adopts a high-voltage low-current scheme with high safety, so that the high-voltage power grid component can avoid damage to other organisms when effectively capturing flying insects flying at low speed;

4. the top cap can be for can providing the protection for high voltage electric network subassembly and light source subassembly, can also place the foreign matter and fall into the worm fill that falls.

Drawings

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

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a schematic diagram of the enlarged structure of the present invention;

FIG. 4 is a schematic view of the lower seat structure of the present invention;

FIG. 5 is a schematic view of a rotary glass assembly according to the present invention;

fig. 6 is a schematic view of a partial structure of the present invention.

In the figure: 1. a top cover; 2. a high voltage grid assembly; 3. a glass screen; 4. a middle upright rod; 5. a damping rotating body; 6. a base assembly; 6-1, dropping insect buckets; 6-2, collecting insect box grooves; 6-3, a lower seat body; 7. a pest collecting box; 8. a battery pack; 9. a high voltage low current circuit board; 10. a cross bar; 11. a light source assembly.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Referring to fig. 1-6, an electric network assisted intelligent insect pest situation detecting and reporting device includes a base assembly 6, a falling insect hopper 6-1, a rotating glass assembly, a high voltage electric network assembly 11 and a light source assembly 11. The light source assembly 11 adopts an LED light source with its own power supply, and can be conveniently disposed in different places. Meanwhile, the top cover 1 may be made into a solar cell module.

The insect falling hopper 6-1 is arranged at the upper part of the base component 6; the rotating glass component is arranged in the middle of the base component 6, and the light source component 11 is hung on the base component 6; the high-voltage power grid assembly 2 is arranged outside the light source assembly 11, and the high-voltage power grid assembly 2 and the light source assembly 11 are coaxially arranged; the inner diameter of the high voltage network component 2 is larger than the outer diameter of the light source component 11.

The high-voltage power grid component 2 adopts a high-voltage low-current technology and has the same principle as a lithium battery fly swatter or a mosquito swatter. The cylindrical power grid reforms the row face of the fly swatter or the mosquito killer swatter of the lithium battery into a cylindrical shape, so that the production cost is reduced, and the technical reliability of the high-voltage power grid assembly 2 is improved.

The base component 6 comprises a lower base body, a middle upright rod 4 and a top cover 1, wherein the middle upright rod 4 is fixed on the lower base body 6-3; the top cover 1 is fixed at the upper end of the middle upright rod 4; the lower seat body 6-3 is provided with an insect collecting box groove 6-2. The insect collecting box 7 can be conveniently placed into the insect collecting box groove 6-2 or taken out of the insect collecting box groove 6-2.

The trapped flying insects eventually fall into the trap 7.

Rotatory glass subassembly includes glass screen 3 and damping rotator 5, and damping rotator 5 is installed on middle pole setting 4, and glass screen 3 fixes on damping rotator 5. The glass screen 3 is a transparent glass sheet, and the flying insects which fly fast collide the glass screen 3 and then fall into the insect falling bucket 6-1 directly.

The lower seat body 6-3 is communicated with the insect falling hopper 6-1, and the lower end of the insect falling hopper 6-1 is communicated with the insect collecting box 7.

The high-voltage power grid assembly 2 comprises a cylindrical power grid, a battery pack 8 and a high-voltage low-current circuit board 9, and the cylindrical power grid, the battery pack 8 and the high-voltage low-current circuit board 9 are connected through conducting wires; the battery pack 8 and the high-voltage low-current circuit board 9 are both mounted on the middle vertical rod 4, and the cylindrical electric net is mounted on the light source component 11. The cylindrical power grid is hung on the top cover 1 through a rope.

The light source assembly 11 is hung on the top cover 1 or fixed on the middle upright post 4 through a rope.

The light source component 11 comprises a battery pack 8 and an LED lamp group, and the battery pack 8 and the LED lamp group are fixed on the middle vertical rod; the battery pack 8 is connected with the LED lamp set through a lead.

The flying insects flying slowly touch the cylindrical power grid, fall into the insect falling hopper 6-1 after being corona, and enter the insect collecting box 7 through the insect falling hopper 6-1.

The middle upright stanchion 4 is connected on the lower seat body 6-3 through a cross rod 10.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. The utility model provides a power grid auxiliary type intelligence pest situation forecast device which characterized in that: the insect falling device comprises a base component, an insect falling hopper, a rotating glass component, a high-voltage power grid component and a light source component, wherein the insect falling hopper is arranged on the upper part of the base component; the rotating glass component is arranged in the middle of the base component, and the light source component is hung on the base component; the high-voltage power grid assembly is installed on the outer side of the light source assembly.

2. The power grid-assisted intelligent insect pest situation forecasting device according to claim 1, characterized in that: the base component comprises a lower base body, a middle upright rod and a top cover, wherein the middle upright rod is fixed on the lower base body; the top cover is fixed at the upper end of the middle vertical rod; the lower seat body is provided with a pest collecting box groove.

3. The power grid-assisted intelligent insect pest situation forecasting device according to claim 2, characterized in that: rotatory glass subassembly includes glass screen and damping rotator, the damping rotator is installed in the middle of on the pole setting, the glass screen is fixed on the damping rotator.

4. The power grid-assisted intelligent insect pest situation forecasting device according to claim 2, characterized in that: the high-voltage power grid assembly comprises a cylindrical power grid, a battery pack and a high-voltage low-current circuit board, wherein the cylindrical power grid, the battery pack and the high-voltage low-current circuit board are connected through conducting wires; the battery pack and the high-voltage low-current circuit board are both mounted on the middle vertical rod, and the cylindrical power grid is covered on the light source component.

5. The power grid-assisted intelligent insect pest situation forecasting device according to claim 2, characterized in that: the light source component comprises a battery pack and an LED lamp set, and the battery pack and the LED lamp set are fixed on the middle upright rod; the battery pack and the LED lamp set are connected through a lead.

Images