CN213246526U - Multi-functional insecticidal lamp based on big dipper location - Google Patents

Abstract

The utility model discloses a multi-functional insecticidal lamp based on big dipper location, the moth-killing lamp is arranged in high-voltage electric network and both all arrange in between casing and the lower casing, the output of controller corresponds with the input of high frequency transformer and moth-killing lamp drive circuit's input respectively and is connected, the output and the high-voltage electric network of high frequency transformer are connected, moth-killing lamp drive circuit's output is connected with the input of moth-killing lamp, big dipper location circuit's output corresponds with the input of controller and is connected. The utility model discloses an increase big dipper positioning circuit, this circuit is the maturation technology among the big dipper location finding technique, can carry out accurate real-time location to this multi-functional insecticidal lamp position, when the insecticidal lamp breaks down or looks over insecticidal lamp behavior, the staff can fix a position insecticidal lamp position fast, the improvement of the insecticidal lamp maintenance efficiency of being convenient for and the reduction of maintenance cost can know simultaneously whether the insecticidal lamp is still at original mounted position to and whether stolen wait the condition.

Description

Multi-functional insecticidal lamp based on big dipper location

Technical Field

The utility model relates to an insecticidal lamp that agricultural was used especially relates to a multi-functional insecticidal lamp based on big dipper location.

Background

The insect-killing lamp is a special device which utilizes the insect-attracting light source with specific spectral range sensitive to insects to attract and collect insects, effectively kill insects, reduce the index of diseases and pests and prevent and control insect pests and insect-borne diseases according to the characteristic that the insects have phototaxis. The insecticidal lamp is mainly used for killing pests and reducing the use of insecticides. With the continuous development of scientific and technological technology and the updating of agricultural informatization technology, the insecticidal lamp becomes indispensable agricultural equipment for modern agricultural informatization construction and quality protection and insect control of agricultural products.

The traditional insecticidal lamp has the following defects due to single function:

the installation position of the traditional insecticidal lamp can only be determined by memory of an installer or a user, but the insecticidal lamp is generally installed in a remote agricultural environment for use, when the insecticidal lamp fails or the working condition of the insecticidal lamp is checked, the worker cannot quickly position the installation position of the insecticidal lamp, so that the maintenance cost of the insecticidal lamp is increased, and meanwhile, the situations that whether equipment is still at the original installation position, whether the equipment is stolen and the like cannot be known in advance;

the traditional insecticidal lamp can not count the number of insects, and the number of the insects in the insect receiving bag is manually checked for counting, so that the labor cost is increased, and the counting is not accurate enough;

the traditional insecticidal lamp cannot automatically detect whether the insecticidal lamp is toppled or not, and if the insecticidal lamp still normally works during toppling, potential safety hazards such as electric shock and the like exist;

the high-voltage net of the traditional insecticidal lamp is exposed outside, and because instantaneous 4000V-5000V high-voltage electric shock pests can be generated during insecticidal, if people or animals approach the high-voltage net, accidental injury and electric shock are easily caused, and potential safety hazards exist;

the traditional insecticidal lamp has no working state monitoring function, and workers do not know the real-time running condition of the insecticidal lamp or do not damage the insecticidal lamp or not, so that the insecticidal lamp is inconvenient to maintain.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a multi-functional insecticidal lamp based on big dipper location just for solving above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a multifunctional insecticidal lamp based on Beidou positioning comprises an upper shell, a lower shell, a trap lamp, a high-voltage power grid, a controller, a high-frequency transformer and a trap lamp driving circuit, wherein the trap lamp is arranged in the high-voltage power grid and is arranged between the upper shell and the lower shell, the output end of the controller is correspondingly connected with the input end of the high-frequency transformer and the input end of the trap lamp driving circuit respectively, the output end of the high-frequency transformer is connected with the high-voltage power grid, the output end of the trap lamp driving circuit is connected with the input end of the trap lamp, the multifunctional insecticidal lamp based on Beidou positioning further comprises a Beidou positioning circuit, and the output end of the Beidou positioning circuit is correspondingly connected with the input end of the controller.

Further, multi-functional insecticidal lamp based on big dipper location still includes high-pressure electromagnetic inductor and insecticidal counting circuit, is used for the response its peripheral magnetic field changes when high voltage electric network produces the high pressure high-pressure electromagnetic inductor's output with insecticidal counting circuit's input is connected, insecticidal counting circuit's output with the input of controller corresponds the connection.

Further, multi-functional insecticidal lamp based on big dipper location still includes the photosensitive sensor who is used for detecting illumination intensity, is used for detecting the rainwater sensor of rainwater and is used for detecting whether multi-functional insecticidal lamp emptys topple over the sensor, photosensitive sensor's signal output part rainwater sensor's signal output part with topple over the signal output part of sensor respectively with the input of controller corresponds the connection.

Specifically, the photosensitive sensor and the rain sensor are respectively installed on the upper shell, and the dumping sensor is a mercury switch and is installed on the upper shell or the lower shell.

Further, multi-functional insecticidal lamp based on big dipper location still including being used for detecting whether each circuit operating condition of multi-functional insecticidal lamp is normal insecticidal lamp operating condition monitoring circuit, insecticidal lamp operating condition monitoring circuit with the controller corresponds the connection.

Further, multi-functional insecticidal lamp based on big dipper location still includes and is used for carrying out long-range wireless communication's wireless communication circuit with management server, cloud platform server or handheld terminal, wireless communication circuit with the controller corresponds the connection.

Further, multi-functional insecticidal lamp based on big dipper location still includes insulating protection casing, insulating protection casing install in go up the casing with between the casing down and be located high voltage electric network's outside.

Preferably, the insulation shield is composed of a plurality of insulation strips, the insulation strips are installed between the upper shell and the lower shell at intervals and surround the high-voltage power grid, and a gap between every two adjacent insulation strips is 30-50 mm.

Further, multi-functional insecticidal lamp based on big dipper location still includes couple and connects the insect bag, the couple install in go up the higher authority of casing, connect the insect bag install in the lower of casing.

Specifically, the upper housing and the lower housing are plastic housings.

The beneficial effects of the utility model reside in that:

the utility model discloses an increase big dipper positioning circuit, this circuit is the maturation technology among the big dipper location finding technique, can carry out accurate real-time location to this multi-functional insecticidal lamp position, when the insecticidal lamp breaks down or looks over insecticidal lamp behavior, the staff can fix a position insecticidal lamp position fast, the improvement of the insecticidal lamp maintenance efficiency of being convenient for and the reduction of maintenance cost can know simultaneously whether the insecticidal lamp is still at original mounted position to and whether stolen wait the condition.

The utility model discloses still through increasing other multiple circuits and local structure, realize more functions in order to improve the wholeness ability of insecticidal lamp, concrete advantage as follows:

by adding the high-voltage electromagnetic inductor and the insect killing counting circuit, workers can know the insect killing quantity at any time;

by adding the photosensitive sensor, the rain sensor and the dumping sensor, the on-off of the insecticidal lamp can be reasonably controlled according to the factors such as illumination change, whether the insecticidal lamp is rainy or not, whether the insecticidal lamp is dumped or not and the like, so that the contact and other safety accidents are avoided while the reasonable insecticidal function is realized;

by adding the insecticidal lamp working state monitoring circuit, working personnel can know the working state of each circuit at any time, and the insecticidal lamp can be maintained in time when each circuit breaks down;

by adding the wireless communication circuit, the local data of the insecticidal lamp can be conveniently and timely sent to a remote user, and workers or users can conveniently know various conditions in time;

through increasing insulating protection casing, under the condition that does not hinder the pest to pass, effectively prevented the mistake and electrocute the condition and taken place.

Drawings

Fig. 1 is a schematic view of the structure of the multifunctional insecticidal lamp based on the big dipper positioning of the present invention;

fig. 2 is the utility model discloses a circuit block diagram of multi-functional insecticidal lamp based on big dipper location.

Detailed Description

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

as shown in figures 1 and 2, the utility model discloses a multi-functional insecticidal lamp based on big dipper location includes upper casing 4, lower casing 8, moth-killing lamp 5, high voltage electric network 6, controller, high frequency transformer, moth-killing lamp drive circuit, big dipper location circuit, high voltage electromagnetic inductor, insecticidal counting circuit, photosensitive sensor 1, rainwater sensor 3, empty sensor, insecticidal lamp operating condition monitoring circuit, wireless communication circuit, insulating protective cover 7, couple 2 and insect catching bag 9, moth-killing lamp 5 is arranged in high voltage electric network 6 and both are arranged between upper casing 4 and lower casing 8, the output of high voltage electromagnetic inductor for sensing the change of its peripheral magnetic field when high voltage electric network 6 produces high voltage is connected with the input of insecticidal counting circuit, photosensitive sensor 1 for detecting illumination intensity and rainwater sensor 3 for detecting rainwater are installed respectively on upper casing 4, the dumping sensor for detecting whether the multifunctional insecticidal lamp is dumped is a mercury switch and is arranged on the upper shell 4 or the lower shell 8, the insulating protective cover 7 is arranged between the upper shell 4 and the lower shell 8 and is positioned outside the high-voltage power grid 6, the insulating protective cover 7 is composed of a plurality of insulating strips, the insulating strips are arranged between the upper shell 4 and the lower shell 8 at intervals and surround the high-voltage power grid 6, the gap between every two adjacent insulating strips is 30-50mm, the hook 2 is arranged on the upper shell 4, the insect receiving bag 9 is arranged below the lower shell 8, and the upper shell 4 and the lower shell 8 are plastic shells; the output end of the Beidou positioning circuit, the output end of the insecticidal counting circuit, the signal output end of the photosensitive sensor 1, the signal output end of the rainwater sensor 3 and the signal output end of the dumping sensor are respectively and correspondingly connected with the input end of the controller, the insecticidal lamp working state monitoring circuit for detecting whether the working state of each circuit of the multifunctional insecticidal lamp is normal or not and the wireless communication circuit for performing remote wireless communication with a management server, a cloud platform server or a handheld terminal are respectively and correspondingly connected with the controller, the output end of the controller is respectively and correspondingly connected with the input end of the high-frequency transformer and the input end of the trap lamp driving circuit, the output end of the high-frequency transformer is connected with a high-voltage power grid 6, and the output end of the trap lamp driving circuit is connected with the input end of the trap lamp 5.

In the above structure, the controller, the high-frequency transformer, the trap lamp driving circuit, the Beidou positioning circuit, the high-voltage electromagnetic inductor, the insect killing counting circuit, the dumping sensor, the insect killing lamp working state monitoring circuit and the wireless communication circuit are installed inside the upper shell 4 of the insect killing lamp as required, and specific installation positions are not repeated herein; the utility model discloses still include the supply circuit who provides the power for each circuit or device after through voltage conversion, not shown in the figure.

In order to better understand the working principle of each partial structure of the present invention, the following description is made on each partial structure for specific structure and function:

upper case 4 and lower case 8: adopt centrum structure, have waterproof cavity in, go up the cavity of casing 4 and be used for placing circuit module, the lower extreme of going up casing 4 and the upper end of casing 8 down are equipped with the mounting hole that is used for installing high voltage electric network 6, and the lower extreme middle part of going up casing 4 is equipped with the mount pad that is used for installing the moth-killing lamp, is equipped with the hourglass worm hole of being connected with connecing worm bag 9 in the casing 8 down.

And 5, the trap lamp adopts a 12V power supply LED energy-saving purple light trap lamp, so that the power consumption is lower.

The high-voltage power grid 6: the double-layer high-voltage power grid made of stainless steel materials is connected with the two discharge output ends of the high-frequency transformer in two layers, so that the situation that the power grid is rusted to reduce the insecticidal efficiency is effectively prevented.

Insulating protective cover 7: the plastic insulating protective cover 7 is added outside the high-voltage power grid 6, so that the situation of electric shock by mistake is effectively prevented under the condition that pests are not hindered from passing through the protective cover.

The controller adopts an STM32 singlechip STM32F103R8T6 to control each circuit module to work normally, control the insect killing lamp to remotely or regularly start the trap lamp 5 and control the high-voltage power grid 6 to work; the received Beidou positioning data, insecticidal quantity detection data, insecticidal lamp working state data and the like are packaged and then are sent to an insecticidal lamp management platform or other remote equipment through a wireless communication circuit at regular time.

Big dipper positioning circuit: the Beidou positioning circuit adopts an ATK1218-BD and GPS and Beidou dual-mode positioning module, receives Beidou global positioning system satellite data, and is connected with the controller through a UART interface to output NMEA-0183 format positioning data to the controller for data analysis and packaging.

High-voltage electromagnetic inductor and insecticidal counting circuit: the counting of the insecticidal quantity is realized through high-voltage electromagnetic induction, when the insecticidal lamp is used for killing insects, instant high voltage of 4000V-5000V is generated, the insects are killed by electric shock, the magnetic field change around the high-voltage power grid 6 is caused at the moment of generating the high voltage, and the insecticidal quantity of the insecticidal lamp is counted through counting the change times of the magnetic field through the electromagnetic induction; the insecticidal counting circuit adopts an STM32 single chip microcomputer internal clock counter, and counts the number of electromagnetic induction pulses under the condition of not interfering normal operation of other functions.

Insecticidal lamp operating condition monitoring circuit: the current working state of the insecticidal lamp is read through the working state output port of the existing insecticidal lamp.

A wireless communication circuit: the intelligent control system can be a GPRS module, a 4G module, a 5G module, an NB-iot module and other communication circuits, is connected with the controller through a UART interface, and remotely sends the packaged Beidou positioning data, insecticidal quantity data of the insecticidal lamp and working state data of the insecticidal lamp to an insecticidal lamp management platform or other remote devices.

High-frequency transformer and high-voltage network 6: the primary end of the high-frequency transformer and the amplifier generate self-oscillation, the secondary end of the high-frequency transformer generates an instantaneous high-voltage power generation principle, and the two secondary ends of the high-frequency transformer are respectively connected with the high-voltage power grid 6, so that when pests touch the high-voltage power grid 6, the pests are killed at instantaneous high voltage.

Driving circuit of trap lamp: the automatic control is realized together with the controller, the trap lamp 5 can be controlled to be started by light control at regular time or manually started at long distance according to user definition, and the high-frequency transformer and the high-voltage power grid 6 are synchronously started or closed.

A rain sensor: adopt two electrodes and install on last casing 4, rainwater leads to two inter-electrode resistance to reduce when raining to whether detect rain, insecticidal lamp stop work when detecting rain, avoid the rainy day to cause the electric shock accident.

A dump sensor: adopt mercury switch and install on the insecticidal lamp, when the insecticidal lamp took place to empty, the mobility of mercury leads to the principle of mercury switch both ends switch-on to whether detect the insecticidal lamp and empty, insecticidal lamp stop work when the emergence is emptyd avoids taking place to electrocute the accident.

A photosensitive sensor: through at the photosensitive sensor of insecticidal lamp top installation, detect irradiant change, the insecticidal lamp detects illumination intensity simultaneously under the timing control mode, when the timing opening time arrived but illumination detects when very strong, stops to open moth-killing lamp and high-voltage discharge, has effectively avoided the day and night time difference problem in different seasons.

The utility model discloses be fit for using with insecticidal fluorescent tube reason platform cooperation, accessible cell-phone APP or computer visit insecticidal lamp management platform look over insecticidal lamp mounted position and operating condition, when insecticidal lamp work is unusual or the position removes and surpasss the settlement scope, management platform sends the warning, suggestion insecticidal lamp work unusual or have the stolen condition.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and is not to the limitation of the technical solution of the present invention, as long as the technical solution can be realized on the basis of the above-mentioned embodiment without creative work, all should be regarded as falling into the protection scope of the right of the present invention.

Claims (10)

1. A multifunctional insect killing lamp based on Beidou positioning comprises an upper shell, a lower shell, an insect trapping lamp, a high-voltage power grid, a controller, a high-frequency transformer and an insect trapping lamp driving circuit, wherein the insect trapping lamp is arranged in the high-voltage power grid and is arranged between the upper shell and the lower shell, the output end of the controller is correspondingly connected with the input end of the high-frequency transformer and the input end of the insect trapping lamp driving circuit respectively, the output end of the high-frequency transformer is connected with the high-voltage power grid, and the output end of the insect trapping lamp driving circuit is connected with the input end of the insect trapping lamp, and the multifunctional insect killing lamp is characterized in that: the multifunctional insecticidal lamp based on Beidou positioning further comprises a Beidou positioning circuit, and the output end of the Beidou positioning circuit is correspondingly connected with the input end of the controller.

2. The multifunctional insecticidal lamp based on Beidou positioning according to claim 1, characterized in that: the multifunctional insecticidal lamp based on Beidou positioning further comprises a high-voltage electromagnetic inductor and an insecticidal counting circuit, the high-voltage electromagnetic inductor is used for inducing the change of the peripheral magnetic field of the high-voltage electric network when the high voltage is generated, the output end of the high-voltage electromagnetic inductor is connected with the input end of the insecticidal counting circuit, and the output end of the insecticidal counting circuit is correspondingly connected with the input end of the controller.

3. The multifunctional insecticidal lamp based on Beidou positioning according to claim 1, characterized in that: the multifunctional insecticidal lamp based on Beidou positioning further comprises a photosensitive sensor for detecting illumination intensity, a rainwater sensor for detecting rainwater and a dumping sensor for detecting whether the multifunctional insecticidal lamp is dumped, wherein the signal output end of the photosensitive sensor, the signal output end of the rainwater sensor and the signal output end of the dumping sensor are respectively and correspondingly connected with the input end of the controller.

4. The multifunctional insecticidal lamp based on Beidou positioning as set forth in claim 3, characterized in that: the photosensitive sensor with the rainwater sensor is installed respectively on the upper casing, it is mercury switch and install to empty the sensor the upper casing or install down on the casing.

5. The multifunctional insecticidal lamp based on Beidou positioning according to claim 1, characterized in that: the multifunctional insecticidal lamp based on Beidou positioning further comprises an insecticidal lamp working state monitoring circuit used for detecting whether the working states of all circuits of the multifunctional insecticidal lamp are normal or not, and the insecticidal lamp working state monitoring circuit is correspondingly connected with the controller.

6. The multifunctional insecticidal lamp based on Beidou positioning according to claim 1, characterized in that: the multifunctional insecticidal lamp based on Beidou positioning further comprises a wireless communication circuit used for carrying out remote wireless communication with a management server, a cloud platform server or a handheld terminal, and the wireless communication circuit is correspondingly connected with the controller.

7. The multifunctional insecticidal lamp based on Beidou positioning according to any one of claims 1 to 6, characterized in that: the multifunctional insecticidal lamp based on Beidou positioning further comprises an insulating protective cover, wherein the insulating protective cover is installed between the upper shell and the lower shell and located outside the high-voltage power grid.

8. The multifunctional insecticidal lamp based on Beidou positioning according to claim 7, characterized in that: the insulating protective cover comprises a plurality of insulated strips, and is a plurality of the insulated strips are installed at intervals between the upper shell and the lower shell and around outside the high-voltage power grid, and the gap between every two adjacent insulated strips is 30-50 mm.

9. The multifunctional insecticidal lamp based on Beidou positioning according to any one of claims 1 to 6, characterized in that: the multifunctional insecticidal lamp based on Beidou positioning further comprises a hook and an insect receiving bag, wherein the hook is installed on the upper surface of the upper shell, and the insect receiving bag is installed below the lower shell.

10. The multifunctional insecticidal lamp based on Beidou positioning according to any one of claims 1 to 6, characterized in that: the upper shell and the lower shell are plastic shells.

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