KR101278637B1 - Intake-type harmful insect grasping apparatus, and controlling method thereof - Google Patents

Abstract

By operating the pest trapping device variable according to time zones, weather conditions and battery voltages, there is provided an inhalation pest trapping device and a control method thereof, which can improve pest suction and capture efficiency and extend battery life. Suction pest trap device, the solar cell module for generating power from sunlight; A battery storing power supplied from a solar cell module; A pest induction lamp that is driven using battery power and provides lighting to induce pests; A suction fan which is driven using battery power and sucks pests induced along pest induction lamps; A GPS receiver for receiving location information and time information corresponding to the location where the pest trapping device is installed; Sensor unit for detecting rainfall, humidity and temperature to provide weather information around the pest trap device; Acquiring location information and time information from the GPS receiver, obtaining weather information according to the signal detected by the sensor unit, checking the voltage of the battery, corresponding to the location information and time information, weather information and battery voltage according to the time zone, A controller configured to vary the induction light control signal and the suction fan control signal for each weather and battery voltage; And a driving unit for outputting an induction light driving signal for driving a pest guide lamp and a suction fan driving signal for driving a suction fan, respectively. At this time, the controller controls the pest induction lamp and the suction fan to be driven strongly from 1 hour before sunrise to 30 minutes after sunrise and from 30 minutes before sunset to 10 pm on the basis of the time when the pests are active. It is controlled to drive weakly from the time point to just before 1 hour before sunrise.

Description

Insect-type harmful insect grasping apparatus, and controlling method

The present invention relates to a pest trapping device, and more particularly, to a pest trapping device and a control method of a pest induction lamp and a suction fan of the suction type pest trapping device for each time zone, weather and battery voltage.

Flying insects such as flies, mosquitoes and moths are called insect pests, and pest control devices that induce pests and capture them with sticky to control these insect pests and pests using electric insecticides that electrocut the insects using high voltage A capture device and an injector for spraying medicinal herbs to capture pests are used. In order to irradiate a favorite insect pests in the pest trapping device is equipped with a pest induction lamp (insect lamp), it is provided with an electric drive unit for driving it.

Figure 1a is a perspective view schematically showing a insect trapping device for trapping fly pests using a sticky according to the prior art, Figure 1b is a cross-sectional view showing its internal structure.

1A and 1B, the pest trapping apparatus 10 according to the related art includes: a pest induction lamp 12 for inducing pests; A sticky 14 provided below the pest induction light 12 to capture pests induced by the pest induction light 12; A motor unit 15 for winding the sticky body 14; A control unit 13 for transmitting a signal for controlling the motor unit 15; And a housing 11 attached to the wall W to which the pest induction lamp 12, the sticky 14, the motor unit 15, and the control unit 13 are mounted.

Pest capture device 10 according to the prior art is made of the power supply to the pest induction light 12 and the motor unit 15 collectively, during the day of the day due to strong sunlight, the pest induction of the pest induction light 12 role Despite this insignificant, there is no control device capable of turning off the pest induction lamp 12 and turning on the motor unit 15 only.

On the other hand, there is a pest trap device is installed in the open space to induce and capture the impact of the pest to kill or kill, such a pest trap device for inducing a pest to induce a pest; A suction fan for trapping pests crowded in the pest induction lamp; And a pest harvesting network for trapping pests captured from the suction fan.

2 is a diagram illustrating an inhalable repellent in accordance with the prior art.

Referring to FIG. 2, the suction insect repeller 20 according to the related art includes a pest induction lamp 22 disposed under the induction lamp shade 21, and a suction fan 23 and an inflow under the insect induction lamp 22. A passage 24 may be formed to induce and capture the pests into the pest collecting network 25 by the pest induction lamp 22 and the suction fan 3.

The suction insect repeller 20 according to the prior art includes a pest induction lamp 22, a suction fan 23 and a pest collecting net 25, and is used to remove pests in an open space where insecticides and the like are difficult to spray. .

On the other hand, Figure 3a is a block diagram of a pest capture device using a conventional AC220V commercial power source, Figure 3b is a block diagram of a pest capture device using a solar cell module according to the prior art, Figure 3c is a conventional It is a block diagram of a pest trap device using a solar cell module and a sensor according to the technology.

As shown in Figure 3a, the pest trap device using the AC220V commercial power source according to the prior art, AC220V commercial power supply, earth leakage breaker 31, light detection sensor 32, pest induction lamp 33 and suction fan 34 ), Which cannot be used where commercial power is not supplied, and there is a risk of electric leakage and electric shock when supplying commercial AC220V commercial power.

Therefore, as shown in Figure 3b, the pest capture device using a solar cell module has recently been developed and used, the pest capture device using a solar cell module according to the prior art, the solar cell module 41, the controller 42 ), A battery 43, a pest induction lamp 44 and a suction fan 45. In the case of the insect trap device using the solar cell module, there is a limit to use because of the size and weight of the solar cell module 41 and the storage battery 43. At this time, the pest capture device using the solar cell module 41 uses a controller 42 for controlling the generation of the solar cell module of 12V.

1) Republic of Korea Utility Model Registration No. 20-0166065 (Application Date: July 14, 1999), Designated Name: "Suction Repellent" 2) Republic of Korea Patent Registration No. 10-0372362 (application date: August 31, 2000), the title of the invention: "Pest collection device" 3) Republic of Korea Patent Registration No. 10-0659585 (application date: February 28, 2004), the title of the invention: "air pest capture and monitoring system" 4) Republic of Korea Patent Registration No. 10-0895487 (application date: June 08, 2007), the name of the invention: "fly insect insect repellent device using a temperature sensor"

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a suction-type pest trapping apparatus and a control method thereof capable of improving pest inhalation and trapping efficiency by variably driving the pest trapping apparatus for each time zone.

As a means for achieving the above-described technical problem, the suction pest capture device according to the present invention, the solar cell module for generating power from sunlight; A battery storing power supplied from the solar cell module; A pest induction lamp which is driven using the battery power and provides lighting to induce pests; A suction fan which is driven using the battery power and sucks pests induced along the pest induction lamps; A GPS receiver for receiving location information and time information corresponding to the location where the pest trapping device is installed; A controller configured to acquire position information and time information from the GPS receiver and vary the guide light control signal and the suction fan control signal to adjust driving intensity of the pest guide lamp and the suction fan based on the position information and time information; And a driving unit configured to output an induction light driving signal for driving the pest induction lamp and a suction fan driving signal for driving the suction fan according to the induction light control signal and the suction fan control signal.

In the above, the control unit strongly drives the pest induction lamp and the suction fan from 1 hour before sunrise to 30 minutes after sunrise and from 30 minutes before sunset to 10 o'clock at night, and at 10 o'clock at night, based on the time when the pest is active. It is preferable to vary the induction light control signal and the suction fan control signal for each time zone so as to weakly drive the pest induction lamp and the suction fan from the time point elapsed until 1 hour before sunrise.

In the above, the sensor unit is provided to provide weather information around the pest trap device, the control unit obtains weather information according to the signal detected by the sensor unit, the control unit based on the weather information When rain and rain falls, it is preferable to vary the induction light control signal and the suction fan control signal for each weather so as not to drive the pest induction lamp and the suction fan.

In the above description, the controller checks the battery voltage and varies the induction light control signal and the suction fan control signal for each battery voltage so as to drive the pest induction lamp and the suction fan in response to the battery voltage.

In another aspect of the invention, a) charging the battery of the pest trapping device from the solar cell module; b) receiving location information and time information of a location where the pest trapping device is installed through a GPS receiver; c) varying the pest control lamp control signal and the suction fan control signal for each time zone based on the position information and time information; And d) generating an induction light driving signal and a suction fan driving signal according to the pest induction light control signal and the suction fan control signal, and driving the pest induction light and the suction fan with the induction light driving signal and the suction fan driving signal. It is characterized by.

In the above, the step d) is based on the time the pest is active from 1 hour before sunrise to 30 minutes after sunrise and 30 minutes before sunset to 10 pm at night to drive the pest induction lamp and the suction fan strongly, night It is preferable to vary the induction light control signal and the suction fan control signal for each time zone so as to weakly drive the pest induction lamp and the suction fan from a time point after 10 o'clock to 1 hour before sunrise.

According to the present invention, the pest intake and capture efficiency can be improved by variably driving the pest trapping device for each time zone. In addition, the battery life can be extended by the variable driving.

Figure 1a is a perspective view schematically showing a insect trapping device for trapping fly pests using a sticky according to the prior art, Figure 1b is a cross-sectional view showing its internal structure.
2 is a diagram illustrating an inhalable repellent in accordance with the prior art.
Figure 3a is a block diagram of a pest capture device using a conventional AC220V commercial power source, Figure 3b is a block diagram of a pest capture device using a solar cell module according to the prior art.
4 is a block diagram of an inhalation pest capture device according to an embodiment of the present invention.
5 is a view for explaining that the driving of the pest guide lamp and the suction fan is controlled by the control unit of the suction-type pest capture device shown in FIG.
FIG. 6 is a diagram illustrating a signal input to a control unit and a signal output from the control unit of the inhalation type insect trap shown in FIG. 4.
FIG. 7 is a view illustrating a state displayed by the control unit of the suction-type pest trapping apparatus shown in FIG. 4 and controlling the opening and closing of the pest collecting network.
8 is a table illustrating that the pest trapping apparatus according to an embodiment of the present invention is controlled by time zone, weather, battery voltage.
9 is a flowchart illustrating a method of controlling a pest trapping apparatus according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

4 is a block diagram of an inhalation pest capture device according to an embodiment of the present invention.

Referring to FIG. 4, the suctioning insect trap device 100 according to the embodiment of the present invention includes a controller (Micro Processor) 110, a solar cell module 120, a battery 130, a pest induction lamp 140, and a suction fan. 150, a GPS receiver 160, a sensor unit 170, a driver 180, and a status display unit 190.

The controller 110 obtains location information and time information from the GPS receiver 160, obtains weather information according to the signal detected by the sensor unit 170, and checks the voltage of the battery 130. The induction lamp control signal and the suction fan control signal are varied according to the time zone, the weather, and the battery voltage in response to the position information, the time information, the weather information, and the battery voltage. At this time, the control unit 110 may be a microprocessor having a CPU, an A / D converter for converting the analog signal detected by the sensor unit 170 into digital data, a memory storing the received data and programs, and the like. Can be built into, but is not limited to. A detailed description of varying the induction light control signal and the suction fan control signal for each time zone, weather condition, and battery voltage will be described later.

The solar cell module 120 is connected to a plurality of solar cells in series or in parallel, generates a DC12V power from the sunlight to supply to the battery 130.

The battery 130 stores the power supplied from the solar cell module 120 and supplies the pest guide lamp 140 and the suction fan 150 to the suction type insect trap 100 according to the embodiment of the present invention.

The pest induction lamp 140 is driven using the battery 130 and provides lighting to induce pests.

The suction fan 150 is driven using the battery power and sucks the pests induced along the pest induction lamp toward the pest collecting network 220.

The GPS receiver 160 receives location information and time information corresponding to the location where the pest trapping device 100 is installed. That is, the inhalation pest capture device 100 according to the embodiment of the present invention is equipped with a GPS receiver 160 to operate by time zone, and the position of the inhalation pest capture device 100 received by the GPS receiver 160. And by the time and the sunset time and sunrise time calculated from the position information received by the GPS receiver 160, the driving of the pest guide lamp 140 and the driving of the suction fan 150 may be strongly or weakly adjusted.

The sensor unit 170 may include a plurality of rainfall sensors, humidity sensors, and temperature sensors, and detects rainfall, humidity, and temperature to provide weather information around the pest trap device 100. That is, the inhalation pest capture device 100 according to the embodiment of the present invention is provided with a rain sensor, a humidity sensor and a temperature sensor, for example, even at night when the humidity is high (when rain falls) pest activity amount Since it becomes less, it can block the operation of the pest induction light 140 and the suction fan 150.

The driver 180 outputs an induction light driving signal for driving the pest induction lamp 140 and a suction fan driving signal for driving the suction fan 150 according to the induction light control signal and the suction fan control signal, respectively.

The status display unit 190 displays whether the battery is operated, the voltage of the battery, the current temperature, the current humidity, the battery output voltage, and the cause of failure under the control of the controller 110. For example, the status display unit 190 may be implemented as a flexible numeric display (FND).

In addition, the pest collection network 220 is provided with a cover of the pest collection network that is controlled to be opened in the evening and closed in the morning, the electromagnet is attached, is installed under the suction fan 150 is sucked by the suction fan 150 Collect pests that have been harvested. At this time, the collecting network cover opening and closing portion 210 supplies power to the electromagnet so that the cover of the pest collecting network 220 can be opened in the evening and closed in the morning.

Specifically, the inhalation pest capture device 100 according to an embodiment of the present invention is composed of a pest induction light 140, suction fan 150, pest collection network 220, etc. The pests are captured by blowing them into the pest collection network 220 by the suction fan 150.

At this time, the pest is known to be most active from 30 minutes before sunset to 10 pm and from 1 hour before sunrise to 30 minutes after sunrise. Therefore, the controller 110 controls the induction lamp control signal to strongly drive the pest induction lamp and the suction fan from 1 hour before sunrise to 30 minutes after sunrise and from 30 minutes before sunset to 10 pm based on the time when the pest is active. And the suction fan control signal for each time zone.

In addition, the controller 110 changes the induction light control signal and the suction fan control signal for each weather so as not to drive the pest induction lamp and the suction fan during rainy weather and when the dew falls based on the weather information. In addition, the controller 110 checks the battery voltage and varies the induction light control signal and the suction fan control signal for each battery voltage to drive the pest induction lamp and the suction fan in response to the battery voltage.

Inhalation-type pest capture device 100 according to an embodiment of the present invention, the sunrise time and the latitude based on the location information, such as latitude / longitude / altitude of the location where the suction-type pest capture device 100 is installed using the GPS receiver 160 It is possible to accurately predict the sunset time, thereby lighting the pest induction light 140 most brightly during the time zone where the pest is most active, and also increase the rotation speed of the suction fan 150 to maximize the pest intake amount, accordingly Pest capture can be increased.

According to the inhalation-type pest capture device 100 according to an embodiment of the present invention, by driving the pest capture device variable by time zone, weather and battery voltage, it is possible to improve the pest intake and capture efficiency, to extend the battery life have.

On the other hand, Figure 5 is a view for explaining that the driving of the pest induction lamp and the suction fan is controlled by the controller of the suction type insect trap shown in Figure 4, Figure 6 is a control unit of the suction type insect trap shown in Figure 4 It is a figure which illustrates the signal input and the signal output from a control part.

As shown in FIG. 5, in the inhalation insect trap device 100 according to an embodiment of the present invention, the controller 110 may be a microprocessor having a CPU, and an overcharge control signal, a suction fan control signal, and an induction lamp control. Outputs a signal, and receives a power detection input signal, a charge / discharge detection signal, an induction lamp driving signal, and a suction fan driving signal. In this case, the driving unit 180 may be implemented as a plurality of field effect transistors (FETs), and drive the pest induction lamp 140 and the suction fan 150 under the control of the controller 110. In addition, the power generated by the solar cell module 120 stores DC12V in the battery 130, and the DC12V power stored in the battery 130 is supplied to the pest induction lamp 140 and the suction fan 150.

In addition, as shown in Figure 6, in the inhalation pest capture device 100 according to an embodiment of the present invention, the control unit 110 may include a plurality of analog to digital converters (ADC: 111 ~ 117), Converts the power detection input signal, the charge / discharge detection signal, the induction lamp driving signal and the suction fan driving signal into a digital signal, and also converts the rainfall detection signal, humidity detection signal and temperature detection signal detected by the sensor unit 170 into a digital signal. Will be converted.

On the other hand, Figure 7 is a diagram illustrating the state by the control unit of the suction-type pest trapping apparatus shown in Figure 4, illustrating that the opening and closing of the pest collection network is controlled.

As mentioned above, pests are known to be most active from 30 minutes before sunset to 10 pm and 1 hour before sunrise to 30 minutes after sunrise. In the pest capture device according to an embodiment of the present invention, as shown in Figure 7, the GPS receiver 160 receives the location information and time information, for example, the pest capture device according to an embodiment of the present invention Program the program to track the sun's position by preset date and time zone according to the latitude, longitude and altitude of the installed location, and control how the sun rises and falls during the month, date, and time zone. For example, the program is stored in the memory 118 of the controller 110.

The controller 110 controls the brightness of the pest induction lamp 140 to be maximized at the time when pest capture is most needed based on the time zone based on the control program stored in the built-in memory 118, and the suction power of the pest is maximum. Control to increase the rotational speed of the suction fan 150 to be.

On the other hand, pests are rarely active because they are difficult to fly in case of rain or dew. For example, moths that go straight ahead as the main culprit of cropping are inactive. However, since the time zone in which dew falls is different for each region where the pest capture device 100 is installed according to an embodiment of the present invention, turn off the pest capture device 100 according to the time zone in which dew falls, and turn on the time when dew does not fall. Can be. In addition, since the pests stop the activity when the rain falls, the pest capture device 100 according to an embodiment of the present invention detects this using a humidity sensor, when the rain falls off the operation of the pest capture device 100, the rain does not come Only when the operation of the pest trapping device 100 is turned on. Accordingly, the pest trapping apparatus 100 according to the embodiment of the present invention can be efficiently driven while suppressing the use of the battery 130 power.

In addition, in the pest capture device 100 according to an embodiment of the present invention, the status display unit 190 may be implemented with a plurality of FNDs 191 to 195, and battery operation 191, battery voltage 192, and current temperature. 193, the current humidity 194, and the cause of the failure 195. For example, in the case of the pest trapping apparatus 100 according to the embodiment of the present invention, since the burnout of the solar cell module 120 is greatest, it may be displayed on the status display unit when the solar cell module 120 fails. For example, it can be displayed as a number. If it is "0", the battery is bad, if it is "1", the battery cut-off voltage, if it is "2", the solar module is bad, if it is "3", the battery stops because it is rainy. It may indicate that the suction fan is stopped, but is not limited thereto.

In addition, when the battery 130 is charged in the pest capture device 100 according to an embodiment of the present invention, it is possible to capture a lot of pests by increasing the rotational speed of the suction fan 150 according to the activity time of the pest. In addition, when the pest trapping device 100 operates in the evening, the cover of the collecting net 220 is opened, and when the pest trapping device 100 is blocked in the morning, the pest is removed by closing the cover of the collecting net 220. You can not. At this time, the cover of the collecting network 220 can be opened and closed simply and safely using the principle of the electromagnet.

On the other hand, Figure 8 is a table illustrating that the driving of the pest capture device according to the embodiment of the present invention by time zone, weather, battery voltage.

The pest capture device 100 according to the embodiment of the present invention is, for example, in the case of control according to the time zone of the pest induction light 140, by supplying a current of 150 kW to the pest induction light 140 if the general time zone. The pest induction lamp 140 is turned on at a power of x 12V = 1.8 W, and if the pest is active, the pest induction lamp 140 is supplied with a current of 200 mW to supply 200 m of current. By turning on 140, the pest induction effect can be maximized, and the pest induction lamp 140 is turned off during the day time (30 minutes after sunrise to 30 minutes before sunset).

In addition, in the case of the control according to the time zone of the pest intake fan 150, if the normal time is supplied to the suction fan 150 by supplying a current of 200 회전, if the pest is the most active time is 250 in the suction fan 150 By supplying a current of 회전 and rotates to increase the pest capture amount, during the day time (30 minutes after sunrise to 30 minutes before sunset) to stop the operation of the pest intake fan 150.

In addition, the pest capture device 100 according to an embodiment of the present invention can control the rotational speed of the suction fan 150 according to the discharge state of the battery 130 by checking the state of the battery 130 in the control unit 110. have. That is, in order to prolong the life of the battery 130, when the battery 130 power is 11 V or less, the battery 130 power is not used, and the battery 130 power of 40% is used at 11 V to 12 V, and 12 V At 12.4V, 60% of battery 130 power is used, and at 12.4V or more, 100% of battery 130 power is normally used. For example, by operating the rotational speed of the suction fan 150 at 60% or more when driving the lowest power 40%, the efficiency is lowered compared to the maximum suction, but it can capture moths or small pests flying straight.

Pest capture device 100 according to an embodiment of the present invention, when using the solar cell module 120, when rain in rainy or rainy season during the day and does not rain at night, adjusts the operating time according to the battery charging voltage, the controller ( Discharge of the battery 120 may be prevented by controlling the amount of current at 110. In addition, when it rains at night and clear at night, the control unit 110 stops the operation of the pest induction lamp 140 and the suction fan 150 according to the rainfall detected by the rainfall sensor, or when it does not rain at dawn The controller 110 may determine the operation by checking the humidity detected by the humidity sensor. In addition, when it rains during the day and night, the control unit 110 stops the operation of the pest induction lamp 140 and the suction fan 150 according to the rainfall detected by the rainfall sensor, and transfers the daily charge amount to the next day as it is. You can.

In addition, when a cloudy day or fog, when both day and night cloudy, adjust the operating time according to the battery charging voltage, and calculates the operating time in the controller 110 of the pest induction lamp 140 and the suction fan 150 You can select whether or not to operate. In addition, in the case of charging the battery while cloudy day and night, as described above, the controller 110 may calculate the operation time and select whether the pest induction lamp 140 and the suction fan 150 are operated. In addition, when fog or cloudiness, the controller 110 may determine the operation of the pest induction lamp 140 and the suction fan 150 by comparing the ADC measurement with the activity of the pest.

In addition, during the day, when the solar cell module 120 starts to generate power in the morning, the pest induction lamp 140 is turned off and the battery voltage is checked to start charging, and at this time, the power generation voltage of the solar cell module 120 The state of the battery 130 is checked by time by comparing the charge voltage of the battery 130. If, on a rainy day or cloudy day, calculate the total time that can be used to turn on the evening pest induction lamp 140 in the evening, and on a clear day by checking the state of the battery 130 based on the battery voltage or not Check it. If the solar cell module 120 and the battery 130 are normal, a voltage that is excessively charged in the battery 130 is detected to cut off the power charged from the solar cell module 120 to the battery.

When the pest induction lamp 140 starts to light up, check whether the current battery 130 is charged above a certain voltage, check whether the rain is raining from the rainfall sensor, whether the current temperature is above an appropriate temperature, and satisfy the preset conditions. In case the pest induction lamp 140 starts to light up. When the pest induction lamp 140 is on, the rainfall and the temperature are continuously detected to check the consumption state of the battery 130, and the abnormality of the battery 130 is checked until the morning light is turned off. If the off condition occurs, pest induction lamp 140 is turned off. For example, when the pest induction lamp 140 is turned on, the charging voltage of the battery 130 is checked, and in the case of full charge, the pest trap device 100 is operated at the maximum driving condition until the morning pest induction lamp 140 is turned off. If the operation is about 50%, the pest is operated during the most active time zone, and during the quiet time it is possible to reduce the power consumption of the pest induction lamp 140 and the suction fan 150.

In addition, when the rain falls or the humidity is high, such as dew and fog, the pest is not active, so that the power supply to the pest induction light 140 and the suction fan 150 is cut off to save the power stored in the battery 130, or If the cloud is not completed in the rainy or rainy season, check the temperature and humidity to operate the pest induction light 140 and the suction fan 150 at the time of the most active pest activity.

On the other hand, Figure 9 is a flow chart of the control method of the pest capture device according to an embodiment of the present invention.

Referring to FIG. 9, in the method of controlling a pest trapping apparatus according to an embodiment of the present invention, first, the battery 130 of the pest trapping apparatus 100 is charged from the solar cell module 120 ( S110 ).

Next, through the GPS receiver 160 receives the location information and time information of the location where the pest capture device 100 is installed ( S120 ).

Next, to detect the rain, humidity and temperature through the sensor unit 170 to provide the weather information around the pest trap device (100) ( S130 ).

Next, the controller 110 checks whether the voltage of the battery 130 satisfies a preset condition ( S140 ). For example, when the battery voltage is less than 11V, the process returns to the above-described step S110.

Next, the location information, the time information, the weather information and the battery voltage are checked ( S150 ), and correspondingly, the pest control lamp control signal and the suction fan control signal are changed according to time zones, weather conditions, and battery voltages ( S150 ). S160 ). Specifically, the induction lamp to strongly drive the pest induction lamp 140 and the suction fan 150 from 1 hour before sunrise to 30 minutes after sunrise and from 30 minutes before sunset to 10 pm based on the time the pest is active. The control signal and the suction fan control signal are varied for each time zone. In addition, the induction light control signal and the suction fan control signal are varied for each weather so as not to drive the pest induction lamp 140 and the suction fan 150 at the time of rain and rain based on the weather information. In addition, the battery voltage is checked and the induction light control signal and the suction fan control signal are varied for each battery voltage so as to drive the pest induction lamp 140 and the suction fan 150 in response to the battery voltage.

Next, an induction light driving signal and a suction fan driving signal are generated according to the pest induction light control signal and the suction fan control signal, and the pest induction light 140 and the suction fan driving signal are driven by the induction light driving signal and the suction fan driving signal. ( S170 ).

Next, while detecting the change in the time zone, weather and battery voltage ( S180 ), the above-described steps S120 to S170 are repeatedly performed. That is, when the time zone, weather and battery voltage deviate from the preset conditions, the above-described steps S120 to S170 are repeated.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: inhalation pest trapping device
110: control unit (Micro Processor)
120: solar cell module
130: battery
140: pest induction light
150: Intake Fan
160: GPS receiver
170:
180: drive unit
190: status display unit
210: collection net cover opening and closing portion
220: pest gathering network

Claims (6)

Solar cell module for generating power from sunlight;
A battery storing power supplied from the solar cell module;
A pest induction lamp which is driven using the battery power and provides lighting to induce pests;
A suction fan which is driven using the battery power and sucks pests induced along the pest induction lamps;
A GPS receiver for receiving location information and time information corresponding to the location where the pest trapping device is installed;
A controller configured to acquire position information and time information from the GPS receiver and vary the guide light control signal and the suction fan control signal to adjust driving intensity of the pest guide lamp and the suction fan based on the position information and time information; And
A driving unit for outputting an induction light driving signal for driving the pest induction lamp and a suction fan driving signal for driving the suction fan according to the induction light control signal and the suction fan control signal, respectively.
Suction pest capture device comprising a. The method of claim 1,
The controller drives the pest induction lamp and the suction fan strongly from 1 hour before sunrise to 30 minutes after sunrise and from 30 minutes before sunset to 10 pm based on the time when the pests are active, and the time point after 10 pm has elapsed. And the induction light control signal and the suction fan control signal for varying time periods so as to drive the pest induction light and the suction fan weakly until 1 hour before sunrise. The method of claim 1,
The sensor unit is provided to provide weather information around the pest trap device,
The controller acquires weather information according to the signal detected by the sensor unit,
The controller may be configured to vary the induction light control signal and the suction fan control signal for each weather so as not to drive the pest induction lamp and the suction fan when the rain and rain falls on the basis of the weather information. The method of claim 1,
The control unit checks the battery voltage, and inhalation insect capture device, characterized in that for varying the induction light control signal and the suction fan control signal for each battery voltage to drive the pest induction light and the suction fan in response to the battery voltage. a) charging a battery of the pest trapping device from the solar cell module;
b) receiving location information and time information of a location where the pest trapping device is installed through a GPS receiver;
c) varying the pest control lamp control signal and the suction fan control signal for each time zone based on the position information and time information; And
d) generating an induction light driving signal and a suction fan driving signal according to the pest induction light control signal and the suction fan control signal, and driving the pest induction light and the suction fan with the induction light driving signal and the suction fan driving signal;
Control method of the inhalation pest capture device comprising a. The method of claim 5, wherein
In step d), the pest induction lamp and the suction fan are strongly driven from one hour before sunrise to thirty minutes after sunrise and from thirty minutes before sunset to ten o'clock at night, and elapsed at ten o'clock at night. And controlling the induction light control signal and the suction fan control signal for each time zone so as to drive the pest induction light and the suction fan weakly from one time point to one hour before sunrise.

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