CN213074157U - Screen type high-voltage electric field insecticidal lighthouse - Google Patents

Abstract

A screen type high-voltage electric field insecticidal lighthouse relates to a lighthouse, which comprises a main body frame, wherein a solar panel is arranged at the top of the main body frame, and the solar panel is obliquely arranged and fixed at the top end of the main body frame through a support; the main body frame is also fixedly provided with a high-voltage electric shock screen board, the high-voltage electric shock screen board is positioned below the solar panel, and the high-voltage electric shock screen board comprises a frame, an electric shock net module vertically arranged in the frame and an insect-luring lamp tube transversely arranged in the frame; the high-voltage electric shock screen plates with the electric shock net modules and the insect-attracting lamp tubes are arranged on the main body frame and can be combined randomly within the range of 0.5-100 square meters, the high-frequency charging and discharging output circuit of the electric shock net module array is specially designed, the balanced distribution of a high-voltage electric field is realized, millions of insects can be killed per hour, the feasibility is provided for specialized insect killing of modern agriculture, and the design defects of the existing insect-killing lamp technical products are thoroughly overcome.

Description

Screen type high-voltage electric field insecticidal lighthouse

Technical Field

The utility model relates to a beacon specifically is a screen panel formula high-voltage electric field insecticidal beacon.

Background

At present, the national puts forward a negative growth strategy for pesticide use, and solves the problems of pesticide residue, grain safety and environmental pollution, so that the technology of green prevention and control equipment for crop diseases and insect pests is developed rapidly, but the commercial deinsectization lamp products do not have the characteristics of trapping and killing agricultural pests in a large area and multiple types due to common design defects, and the efficiency of trapping and killing the agricultural pests is low particularly for large-scale farms.

SUMMERY OF THE UTILITY MODEL

To above problem, the utility model provides a new technical scheme reaches on a large scale, efficient insecticidal effect.

The utility model provides a technical scheme as follows:

a screen type high-voltage electric field insecticidal lighthouse comprises a main body frame, wherein a solar panel is arranged at the top of the main body frame, and the solar panel is obliquely arranged and fixed at the top end of the main body frame through a support; the high-voltage electric shock screen plate comprises a frame, an electric shock net module and an insect luring lamp tube, wherein the electric shock net module is vertically arranged in the frame, and the insect luring lamp tube is transversely arranged in the frame.

Furthermore, side plates for installing the insect-attracting lamp tubes are fixed on the front and the back of the frame, mounting holes are formed in the side plates, and the insect-attracting lamp tubes are fixed with the side plates through the mounting holes.

Furthermore, a rain cover framework is arranged on the high-voltage electric shock screen plate.

Furthermore, the high-voltage electric shock screen plate is made of a ceramic framework.

Furthermore, the number of the high-voltage electric shock screen plates is three, and the three high-voltage electric shock screen plates are fixedly connected through a fixing flange.

Further, an insect collecting container is arranged below the high-voltage electric shock screen board and is fixedly installed with the main body frame through a fixing frame.

Further, the main body frame comprises a reinforcing pipe and three support legs arranged on the reinforcing pipe, wherein the three support legs are distributed around the reinforcing pipe in an annular array; the solar panel is fixed on the reinforcing pipe through a bracket; the high-voltage electric shock screen plate is fixed on the reinforcing pipe through a fixed pipe frame.

Further, the solar panel and the high-voltage electric shock screen plate are electrically connected with the power supply.

Further, a controller is arranged between the solar panel and the power supply; and a high-voltage driver is arranged between the high-voltage electric shock screen plate and the power supply.

Furthermore, a long-distance insect-luring stroboscopic light source is further arranged on the solar panel.

The beneficial effect that adopts this technical scheme to reach does:

the high-voltage electric shock screen plate with the electric shock net module and the insect trapping lamp tube is arranged on the main body frame, the electric shock net module and the insect trapping lamp tube are reasonably and structurally arranged and can be randomly combined within the range of 0.5-100 square meters, the high-frequency charging and discharging output loop of the electric shock net module array is specially designed, the balanced distribution of a high-voltage electric field is realized, millions of pests can be killed per hour, the short circuit phenomenon does not occur, the feasibility is provided for specialized pest killing of modern agriculture, and the design defects of the existing insect killing lamp technical products are thoroughly overcome.

Drawings

Fig. 1 is a schematic view of the lighthouse structure of the present invention.

Fig. 2 is a schematic structural view of the main body frame.

Fig. 3 is a schematic view of the structure of one of the single high voltage shock screen panels in the insecticidal lighthouse of the present invention.

Fig. 4 is a top view of the structural features of the single high voltage shock screen panel of the present invention.

Fig. 5 is a schematic diagram of the structural features of the high voltage shock screen panel array of the present invention.

Fig. 6 is a view showing an internal structure of the high voltage shock shield of the present invention.

Fig. 7 is a schematic diagram of the design characteristics of the resonant driving circuit and the high-voltage output charge-discharge circuit of the present invention.

Wherein: 1 remote pest trapping stroboscopic light source, 2 controllers, 3 frameworks, 4 pest trapping lamp tubes, 5 fixing frames, 6 support legs, 7 solar panels, 8 supports, 9 high-voltage drivers, 10 pest collecting containers, 11 power supplies, 12 reinforcing tubes, 13 flanges, 14 fixing tube frames, 15 electric shock net modules, 16 high-voltage capacitor banks, 17 ceramic column fine-tuning dischargers, 18 high-voltage resistors and 19 high-voltage diodes.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

The embodiment provides a screen panel formula high-voltage electric field insecticidal beacon, refer to fig. 1-7, including the main part frame, utilize the main part frame to provide effectual support for whole beacon, the top of main part frame is equipped with solar panel 7, solar panel 7 slope sets up and fixes through support 8 the top of main part frame, and solar panel 7 can absorb light energy to convert light energy into electric energy, so that the use of beacon.

The main body frame is further fixed with a high-voltage electric shock screen board, the high-voltage electric shock screen board is located below the solar panel 7, and the high-voltage electric shock screen board comprises a frame, an electric shock net module 15 vertically arranged in the frame and an insect-luring lamp tube 4 transversely arranged in the frame.

In this embodiment, the high-voltage electric shock screen panel is made of a ceramic framework, and the service life of the high-voltage electric shock screen panel is prolonged by using the stable performance of ceramic.

Simultaneously, for further form the protection to the high-voltage electric shock screen board be provided with rain-proof cover skeleton 3 on the high-voltage electric shock screen board, set up rain-proof cover on skeleton 3 and avoid the high-voltage electric shock screen board to receive the erosion of rainwater.

In order to enhance the trapping and killing effect on the insects, the number of the high-voltage electric shock screen plates provided by the embodiment is three, and the three high-voltage electric shock screen plates are fixedly connected through the fixing flange 13, so that the three high-voltage electric shock screen plates surround the main body frame, and the high-efficiency trapping and killing on the insects is formed.

The vertical arrangement of the electric shock net modules 15 in the high-voltage electric shock screen plate specifically means that the electric shock net modules are arranged in a grid spacing mode; and the color of the trap lamp 4 is set to three, namely, purple light lamp, blue light lamp and white light lamp, the light irradiation direction and angle of each color lamp of which two trap lamps with six high-frequency wave bands in total are concentrated on the plane of the electric shock net module 15, so that micro heat is reflected on the metal surface of the electric shock net module 15 and escapes to mix with a large amount of electrons and reflected polarized light, and a layer of specific purple-blue white light, electricity, field and micro heat mixing area is formed, so that the purpose and effect of inducing pests to approach the electric shock net are improved and enhanced, and the design target of killing pests is greatly improved.

The high-voltage electric shock screen plate with the electric shock net module 15 and the insect-attracting lamp tube 4 is arranged on the main body frame, the electric shock net module 15 and the insect-attracting lamp tube 4 are reasonably structurally arranged and can be randomly combined within the range of 0.5-100 square meters, the high-frequency charging and discharging output loop special design of the electric shock net module array realizes the balanced distribution of a high-voltage electric field, millions of pests can be killed per hour, the short circuit phenomenon does not occur, and the feasibility is provided for specialized pest killing of modern agriculture

Optionally, side plates for installing the trap lamp tubes are fixed to the front and the back of the frame, mounting holes are formed in the side plates, the trap lamp tubes 4 are fixed to the side plates through the mounting holes, and the stability of the trap lamp tubes is guaranteed by means of the matching installation of the side plates and the trap lamp tubes 4.

Simultaneously, in order to collect the insect body of being trapped and killed, this embodiment is in the below of high-voltage electric shock screen board is provided with collection worm container 10, collection worm container 10 through mount 5 with the installation of main part frame is fixed, after a large amount of insect bodies are killed, will directly drop and collect in collection worm container 10, people can also observe inside insect body quantity through collection worm container 10 simultaneously to judge whether the lighthouse of this scheme of adoption has efficient insecticidal effect.

In order to ensure the stabilizing effect of the whole main body frame, the main body frame in the embodiment comprises a reinforcing tube 12 and three support legs 6 arranged on the reinforcing tube 12, wherein the three support legs 6 are distributed in an annular array around the reinforcing tube 12; the solar panel 7 is fixed on the reinforcing pipe 12 through a bracket 8; the high voltage shock screen is fixed to the reinforced pipe 12 by a fixed pipe frame 14.

The principle that three legs stand in order to ensure the stability is adopted, every two adjacent legs 6 are 120 degrees, the three legs 6 can bear larger wind power by matching with the reinforcing tube 12 to ensure the stability of the whole lighthouse,

in order to collect the electric energy converted by the solar panel 7 and reasonably use the electric energy to output the electric energy to the high-voltage shock screen plate, the present embodiment is provided with a power supply 11, the high-voltage shock screen plate and the solar panel 7 are electrically connected with the power supply, and of course, the power supply should be placed in a control box to ensure the stability of the power supply connection.

Optionally, a controller 2 is further disposed between the solar panel 7 and the power supply 11; the controller 2 is used for controlling the conversion of the light energy of the solar panel 7 to the electric energy, for example, when the storage of the electric energy by the power supply 11 reaches a set upper limit in a certain period of time, the controller 2 is required to control the solar panel 7 to continue to work so as to ensure the normal operation of the power supply 11; a high-voltage driver 9 is arranged between the high-voltage shock screen board and the power supply 11, and the voltage output by the power supply is boosted by the high-voltage driver 9, so that the high-voltage shock screen board obtains higher voltage.

In this embodiment, the solar panel 7 is further provided with a remote stroboscopic light source 1 for insect attraction, and the stroboscopic light source 1 for insect attraction is used to induce and then kill the insects.

The high voltage resonant driving in the high voltage shock panel is explained further below.

The high-voltage resonance driving circuit pushes the high-frequency transformer to boost voltage, the boosted voltage is 12 KV-20 KV, the high-voltage transformer is rectified into direct current high voltage through the high-voltage diode 19 to charge the high-voltage capacitor bank 16 in high frequency, and after the high-voltage capacitor bank 16 is fully charged, the high-voltage capacitor bank is firstly connected with the electric shock net module 15 through the ceramic column fine adjustment discharger 17 to form the characteristics of a direct charging and indirect discharging loop.

Under the condition of a micro-current high-voltage electric field specified in the specification, if pests are attracted by light to approach or touch the electric shock net module 15, the high-voltage electric field among grids of the electric shock net is shocked by the pest bodies to form a strong discharge loop instantly, so that the high-voltage capacitor bank 16 exerts the inherent high-frequency charge-discharge characteristic, and the high-voltage capacitor bank 16 releases high-voltage strong electric field current at high speed to shock, break or gasify and kill the pests.

The design of connecting the ceramic post fine adjustment discharger 17 in series in the circuit thoroughly solves the problem of high-density and large-volume agricultural pests, ensures the high-voltage charge and discharge loop of the resonant circuit, and directly charges and indirectly discharges the high-voltage capacitor bank 16, so that the high-voltage capacitor bank 16 has inherent high-frequency charge and discharge performance.

In addition, in the embodiment, the high-voltage capacitor bank 16 is connected in parallel with the high-voltage resistor 18 within 1000M ohms, and when the equipment is idle, the resistor gradually and automatically discharges the residual electricity of the high-voltage capacitor bank 16, so that the safety is improved, and the electrification phenomenon of the high-voltage capacitor of the equipment is thoroughly solved.

In addition, this embodiment adopts metal aluminium casing, with high-pressure resonance drive circuit modularized design, metal aluminium casing is packed into to high-pressure resonance drive circuit, and interior epoxy embedment that uses makes it can stand the weathering examination of outdoor environment throughout the year, strengthens high temperature resistant high pressure resistant rain-proof ability.

And add thing networking, GPS remote communication function and various intelligent switches such as light-operated, rain accuse, human body induction control, carry out signal control targets such as rain sensor, angle sensor and human infrared sensor of relay execution. The internet of things and GPS positioning communication interface is a professional remote communication module, aims to collect the position and various working states of equipment and remotely transmits various collected parameters to an equipment monitoring management service station so as to realize remote monitoring management service and ensure good operation of the equipment.

The above is only the preferred embodiment of the present invention, as long as the solution is basically the same as the solution described in the present invention, the claims, if the present invention is used, the technical contents described in the claims, the similar insecticidal lamp, insecticidal lamp stake, insecticidal lamp tower, insecticidal vehicle, insecticidal unmanned aerial vehicle, etc. are matched and developed, all belong to the protection scope of the present invention.

Claims (10)

1. A screen type high-voltage electric field insecticidal lighthouse is characterized by comprising a main body frame, wherein a solar panel (7) is arranged at the top of the main body frame, and the solar panel (7) is obliquely arranged and fixed at the top end of the main body frame through a support (8); the high-voltage electric shock screen plate is fixed on the main body frame, is located below the solar panel (7), and comprises a frame, an electric shock net module (15) vertically arranged in the frame and an insect luring lamp tube (4) transversely arranged in the frame.

2. The high-voltage electric field insecticidal lighthouse according to claim 1, wherein side plates for mounting the insect-attracting lamp tubes (4) are fixed on the frame in front and back, mounting holes are arranged on the side plates, and the insect-attracting lamp tubes (4) are fixed with the side plates through the mounting holes.

3. The high-voltage electric field insecticidal lighthouse of claim 2, wherein a rain-proof cover framework (3) is arranged on the high-voltage electric shock screen board.

4. The high-voltage electric field insecticidal lighthouse of claim 3, wherein the high-voltage shock screen is made of a ceramic skeleton.

5. The high-voltage electric field insecticidal lighthouse of claim 4, wherein the high-voltage shock screen plates are provided in three, and the three high-voltage shock screen plates are fixedly connected through a fixing flange (13).

6. The high-voltage electric field insecticidal lighthouse according to claim 5, wherein an insect collecting container (10) is arranged below the high-voltage electric shock screen board, and the insect collecting container (10) is fixedly installed on the main body frame through a fixing frame (5).

7. The high-voltage electric field insecticidal lighthouse according to claim 1, wherein the main body frame comprises a reinforcement pipe (12) and three support legs (6) arranged on the reinforcement pipe (12), wherein the three support legs (6) are distributed in an annular array around the reinforcement pipe (12); the solar panel (7) is fixed on the reinforcing pipe (12) through a bracket (8); the high-voltage shock screen plate is fixed on the reinforcing pipe (12) through a fixed pipe frame (14).

8. The high voltage electric field insecticidal lighthouse according to claim 1, further comprising a power source (11), wherein said high voltage shock shield and said solar panel (7) are electrically connected to said power source (11).

9. The high-voltage electric field insecticidal lighthouse according to claim 8, characterized in that a controller (2) is further arranged between the solar panel (7) and the power source (11); and a high-voltage driver (9) is arranged between the high-voltage shock screen plate and the power supply (11).

10. The high-voltage electric field insecticidal lighthouse according to claim 8, wherein the solar panel (7) is further provided with a remote insect-attracting stroboscopic light source (1).

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