CN211020645U

CN211020645U - Insecticidal lamp control system

Info

Publication number: CN211020645U
Application number: CN201921712859.XU
Authority: CN
Inventors: 易丙洪; 林耀奎
Original assignee: Airag Technology Ltd
Current assignee: Airag Technology Ltd
Priority date: 2019-10-12
Filing date: 2019-10-12
Publication date: 2020-07-17
Anticipated expiration: 2029-10-12

Abstract

The utility model discloses an insecticidal lamp control system, including insecticidal lamp equipment body, cloud ware and customer end, insecticidal lamp equipment body includes master control case, moth-killing lamp, high voltage electric network, camera, handheld structure, worm bucket and base, worm bucket top is located to the camera, the camera passes through the camera support arm and connects the base, the master control incasement is equipped with core processing unit. The utility model discloses can send light attraction pest through main control box control moth-killing lamp, then control high voltage electric network and electrocute the pest on the worm bucket, shoot the image on the worm bucket through core processing unit control camera after that to convey image information to cloud ware and customer end, the utility model discloses need not to add one set of image acquisition camera hardware equipment, the cost is lower, and has improved the functionality of moth-killing lamp, and the practicality is high, but wide application in agricultural equipment technical field.

Description

Insecticidal lamp control system

Technical Field

The utility model belongs to the technical field of the agricultural equipment technique and specifically relates to an insecticidal lamp control system.

Background

The application of the insecticidal lamp has important significance for agricultural safety production, and can play more and more important roles in producing pollution-free agricultural products, green foods and organic foods, especially, the living standard of people at present is improved, under the background of more importance on food safety, the pollution-free agricultural products and the green foods can be loved by consumers, more economic benefits can be brought to farmers, and meanwhile, the use of the insecticidal lamp can play a role in protecting the ecological environment, and is more favorable for agricultural sustainable development.

The existing traditional insecticidal lamp is characterized in that insects are attracted according to phototaxis of the insects, an insect attracting light source in a specific spectrum range sensitive to the insects is utilized to attract and collect the insects, a high-voltage power grid is utilized to effectively kill the insects, the insect pest index is reduced, and insect pests and insect-borne diseases are prevented and treated. The traditional insecticidal lamp only has an insecticidal function, does not have an integrated insect pest image acquisition function, and does not have an automatic triggering and photographing function after insecticidal. The scheme of prior art has through installing a traditional insecticidal lamp, installs one set of high definition again and takes night vision 4G camera, can realize gathering insect pest image function in real time through such constitution scheme equally, but this kind of scheme installation is complicated, and the integrated level is low, with high costs, and the unable insect barrel of just shooing is just taken a picture, and unable real time monitoring is by insecticidal pest quantity and insect pest type, does not have insecticidal tally function, triggers the function of shooing after unable realization insecticidal.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the utility model provides a control system of insecticidal lamp with low costs and abundant function.

The embodiment of the utility model provides an insecticidal lamp control system, including insecticidal lamp equipment body, cloud ware and customer end, insecticidal lamp equipment body includes master control case, moth-killing lamp, high voltage electric network, camera, handheld structure, worm bucket and base, worm bucket top is located to the camera, the camera passes through the camera support arm and connects the base, the master control incasement is equipped with core processing unit, core processing unit's input is connected to the output of camera, the input of high voltage electric network and the input of moth-killing lamp are connected to core processing unit's output, the customer end is connected to core processing unit through cloud ware.

Further, still be equipped with power management module, high-voltage circuit module, count changer module and wireless communication module in the master control case, core processing unit, high-voltage circuit module, count changer module and wireless communication module are connected respectively to power management module, the input of count changer module is connected to the output of high-voltage circuit module, the input of core processing unit is connected to the output of count changer module, wireless communication module connects core processing unit.

Further, an image processing module is further arranged in the main control box, the input end of the image processing module is connected with the output end of the camera, and the output end of the image processing module is connected with the input end of the core processing unit.

Further, the counting transmitter module comprises a current change monitoring circuit, a current-voltage conversion circuit, a voltage amplification circuit and a waveform conversion circuit.

Further, insecticidal lamp equipment body still includes rain sensor, the input of core processing unit is connected to rain sensor's output.

Above-mentioned the utility model discloses technical scheme in the embodiment has following advantage: the embodiment of the utility model discloses an embodiment includes insecticidal lamp equipment body, cloud ware and customer end, insecticidal lamp equipment body includes master control case, moth-killing lamp, high voltage electric network, camera, handheld structure, worm bucket and base, the utility model discloses can send light attraction pest through master control case control moth-killing lamp, then control high voltage electric network and die the pest electricity on the worm bucket, shoot the image on the worm bucket through core processing unit control camera after that to convey image information to cloud ware and customer end, the utility model discloses need not to add one set of image acquisition camera hardware equipment, the cost is lower, and has improved the functionality of insecticidal lamp, and the practicality is high.

Drawings

Fig. 1 is a schematic view of the overall structure of the insecticidal lamp device body of the present invention;

FIG. 2 is a block diagram of the module connection of the present invention;

fig. 3 is a schematic circuit diagram of a count transmitter module according to an embodiment of the present invention.

Detailed Description

Referring to fig. 2, the embodiment of the utility model provides an insecticidal lamp control system, including insecticidal lamp equipment body, cloud ware and customer end, insecticidal lamp equipment body includes master control case, moth-killing lamp, high voltage electric network, camera, handheld structure, worm bucket and base, the worm bucket top is located to the camera, the base is connected through the camera support arm to the camera, the master control incasement is equipped with core processing unit, core processing unit's input is connected to the output of camera, high voltage electric network's input and moth-killing lamp's input are connected to core processing unit's output, the customer end is connected to core processing unit through cloud ware.

Referring to fig. 2, as a preferred embodiment, a power management module, a high-voltage circuit module, a counting transmitter module and a wireless communication module are further arranged in the master control box, the power management module is respectively connected with the core processing unit, the high-voltage circuit module, the counting transmitter module and the wireless communication module, the output end of the high-voltage circuit module is connected with the input end of the counting transmitter module, the output end of the counting transmitter module is connected with the input end of the core processing unit, and the wireless communication module is connected with the core processing unit.

Referring to fig. 2, as a further preferred embodiment, an image processing module is further disposed in the master control box, an input end of the image processing module is connected to an output end of the camera, and an output end of the image processing module is connected to an input end of the core processing unit.

Further in a preferred embodiment, the count transmitter module includes a current change monitoring circuit, a current to voltage conversion circuit, a voltage amplification circuit, and a waveform conversion circuit.

Referring to fig. 2, in a further preferred embodiment, the insecticidal lamp device body further comprises a rain sensor, and an output end of the rain sensor is connected with an input end of the core processing unit.

As shown in the figure 1, the intelligent insect-killing system comprises a main control box 1, an insect-killing counting trigger circuit and a power management circuit, wherein the main control box comprises a high-voltage circuit, a system core processing unit, an image processor, an insect-killing counting trigger circuit and a power management circuit, a rain sensor 2 is used for detecting weather in rainy days so that the high-voltage circuit can be controlled to be closed through the core processing unit to prevent electric shock in rainy days, an insect-trapping lamp 3 is used for trapping insects at night, a 5000V high-voltage power grid 4 is used for high-voltage electric shock insect killing, a high-definition camera with L ED light supplement at night is connected with a base through a camera support arm, a lens of the camera is aligned with an insect barrel to shoot to collect insect pest image information in real time, a handheld steel pipe 6 is used for containing killed.

Referring to fig. 2, the insecticidal terminal device of the embodiment comprises a core processing unit, a power supply management module, a high-voltage circuit module, a counting transmitter module, a wireless communication module and a device main body, wherein the core processing unit is a brain of an intelligent insecticidal terminal, an STM32F091RCT6 microprocessor is adopted and is responsible for control management of a power supply circuit, on-off control of the high-voltage circuit, statistics of insecticidal counting, acquisition of image data, data comprehensive processing and linkage control among peripheral modules, and data are uploaded to a cloud terminal, the power supply management module mainly provides various voltage sources for the modules, the high-voltage circuit module provides a high-voltage power supply for a high-voltage power grid, the counting transmitter module is responsible for converting voltage and current fluctuation signals generated after electric shock and insect damage into digital signals which can be processed by the microprocessor, the image acquisition module mainly provides L ED lamp light supplement and high-definition image acquisition for night photographing, and the wireless communication module is responsible for uploading counting data, image data.

As shown in fig. 3, the insecticidal counting transmitter trigger circuit of the present embodiment is a basis for realizing automatic trigger image acquisition, and includes a current change monitoring circuit, a current-voltage conversion circuit, a voltage amplification circuit, and a waveform conversion circuit, and the specific working principle of the circuit shown in fig. 3 is as follows:

when the power grid is not discharged, the voltage of the high-voltage power grid and the current flowing through the R28 are in a balanced state, so that the current flowing through the R28 is basically constant, after the power grid is discharged, the voltage of the power grid drops, the power of the transformer is boosted, the voltage of the power grid is boosted, and therefore the current flowing through the R28 becomes large, and based on the characteristic, whether the high-voltage power grid has a discharge state or not is detected by monitoring the voltage change of the two ends of the R28, namely, one discharge period is one insect killing number. Firstly, the current change of discharge is converted into the change of voltage by utilizing R28, and because the voltage change is very small, the later-stage U9A is an operational amplifier, a negative feedback amplifying circuit is adopted, the amplification factor is 49.9 times, and C58 is a bypass capacitor, so that the amplifying circuit is prevented from forming self-excitation; when the power grid discharges, the voltage output by the amplifier rises greatly, and after the discharge is finished, the output voltage of the amplifier drops to the constant value of the principle. In order to accurately capture the change, the design converts the change into a rectangular square wave through a hysteresis comparator so as to enable an interrupt system of the MCU processor to capture the change. The hysteresis comparator is composed of U2A, R29, R1, R83 and R30, wherein R83 and R30 provide reference comparison voltage for the comparator in a voltage division mode, and R29 and R1 set upper and lower limit comparison voltage of the comparator. After the conversion of the whole circuit, the COUNT _ MCU outputs a corresponding counting pulse signal.

The utility model discloses an entire system is based on the start time parameter, start the moth-killing lamp through core processing unit, the high-voltage circuit module, then open and interrupt the detection function, real-time supervision insecticidal count pulse signal, obtain the insecticidal count, through core processing unit control light filling L ED lamp at night, open high definition digtal camera simultaneously and carry out image acquisition, open wireless communication module after image acquisition and upload count information and image data to cloud ware, provide data interface for the customer end by cloud ware, the user just can long-rangely look over on-the-spot insecticidal picture through the smart mobile phone, insecticidal count and insecticidal type.

To sum up, compare in prior art, the utility model discloses an insecticidal lamp control system has following advantage:

1. the high definition digtal camera of L ED light filling night is taken in intelligent insecticidal terminal integration area, realizes the function of shooing in real time, can shoot night.

2. The high definition digtal camera structural design aims at the worm bucket and shoots, what the control is that the insect that is killed, how many worms that can directly see have been killed, what type of worm.

3. After the insect killing, an insect killing event pulse signal can be automatically generated, and the intelligent linkage control camera carries out image acquisition.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims

1. An insecticidal lamp control system which characterized in that: including insecticidal lamp equipment body, cloud ware and customer end, insecticidal lamp equipment body includes master control case, moth-killing lamp, high voltage electric network, camera, handheld structure, worm bucket and base, worm bucket top is located to the camera, the camera passes through the camera support arm and connects the base, the master control incasement is equipped with core processing unit, core processing unit's input is connected to the output of camera, high voltage electric network's input and the input of moth-killing lamp are connected to core processing unit's output, the customer end is connected to core processing unit through cloud ware.

2. The insecticidal lamp control system according to claim 1, characterized in that: still be equipped with power management module, high-voltage circuit module, count changer module and wireless communication module in the master control case, core processing unit, high-voltage circuit module, count changer module and wireless communication module are connected respectively to power management module, the input of count changer module is connected to the output of high-voltage circuit module, the input of core processing unit is connected to the output of count changer module, wireless communication module connects core processing unit.

3. The insecticidal lamp control system according to claim 2, characterized in that: the main control box is internally provided with an image processing module, the input end of the image processing module is connected with the output end of the camera, and the output end of the image processing module is connected with the input end of the core processing unit.

4. The insecticidal lamp control system according to claim 2, characterized in that: the counting transmitter module comprises a current change monitoring circuit, a current-voltage conversion circuit, a voltage amplification circuit and a waveform conversion circuit.

5. The insecticidal lamp control system according to claim 1, characterized in that: the insecticidal lamp equipment body further comprises a rainwater sensor, and the output end of the rainwater sensor is connected with the input end of the core processing unit.