KR101681702B1 - Apparatus for capturing vermin - Google Patents

Abstract

Disclosed is a pest catching apparatus capable of capturing a pest by setting a most efficient and effective mode for each pest which can be combined with an attractant and the like control element, more specifically, a pest catching apparatus according to an embodiment.
A pest catching apparatus according to an embodiment of the present invention includes a housing constituting a body, an attracting unit disposed in the housing, the attracting unit including an attractor capable of attracting a pest by irradiating light, And a control unit capable of controlling the wavelength or the lighting frequency of the attractor or the like.

Description

{APPARATUS FOR CAPTURING VERMIN}

Disclosed is a pest catching apparatus capable of capturing a pest by setting a most efficient and effective mode for each pest which can be combined with an attractant and the like control element, more specifically, a pest catching apparatus according to an embodiment.

Pests can harm human lives directly or indirectly. Typical pests such as cockroaches, dust mites, ants, ticks, centipedes, and mosquitoes can be found in spaces such as homes and offices. These pests can harm people by eating food or textiles, and they can also transport pathogens that are harmful to humans through feces.
Catchers or caterpillars are attracted to light by light to catch flying insects, such as flies, mosquitoes, or moths, and electrically attracted insects or captured by sticky.
For example, Patent Publication No. 10-2009-0009595 discloses a pest catching apparatus capable of attracting pests and capturing them by a suction method. The patent is characterized in that the insect attracted by the attracting unit is inhaled.

An object according to an embodiment is to provide a pest catching apparatus that combines a control element such as an attractant.
It is an object of the present invention to provide a pest catching device capable of setting an effective mode for each pest, time, and region.
An object of an embodiment is to provide a pest catching apparatus capable of providing a high pest catching power while reducing heat generation and power consumption.

The above object is achieved by providing a pest catching apparatus as described below.
A pest catching apparatus according to an embodiment of the present invention includes a housing constituting a body, an attracting unit disposed in the housing, the attracting unit including an attractor capable of attracting a pest by irradiating light, And a control unit capable of controlling the wavelength or the lighting frequency of the attractor or the like.
On one side, the control unit can control the duty ratio of the attractor or the like.
On one side, the control unit may increase the magnitude of the voltage applied to the lead or the like when the duty ratio is reduced.
On one side, the control unit can control the voltage or current applied to the lead or the like.
On one side, the control unit can control the lighting time of the lead or the like.
On one side, the control unit may repeatedly turn on and off the attractor and the like.
On one side, the control unit may periodically turn on and off the lead or the like.
In one side, the lead-in unit includes a plurality of leads or the like, and the control unit can respectively control lighting of the lead-in or the like.
Further comprising a mode setting unit capable of setting a device mode in one side, and the control unit can control lighting of the attracting unit in accordance with the device mode.
On one side, the mode setting unit may include storage means for storing the setting value of the device mode.
On one side, the set value may include wavelength, frequency, or duty ratio information of the attractor or the like.
On one side, the device mode may include a near mode or a remote mode.

The insect trapping apparatus according to one embodiment may include a control element such as an attractor.
The insect trapping apparatus according to one embodiment can set an effective mode for each pest, time, and region.
The pest catching apparatus according to one embodiment can provide a high pest catching power while reducing the heating value and the power consumption.
The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a view showing a pest catching apparatus according to an embodiment.
2 is a block diagram illustrating a control unit according to one embodiment.
3 is a diagram showing a form in which an attracting unit according to an embodiment operates individually.
4 is a block diagram illustrating a mode setting unit and an operation mode according to an embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, configurations and applications according to embodiments will be described in detail with reference to the accompanying drawings. The following description is one of many possible claims, and the following description forms part of the detailed description of the present invention.
In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather clear.
1 is a view showing a pest catching apparatus 1 according to an embodiment.
1, a pest catching apparatus 1 according to an embodiment may include a housing 110, an attracting unit 120, a capturing unit 130, and a control unit 140. [
The housing 110 may form the body of the insect trapping apparatus 1. [ The housing 110 may have an internal space. The housing 110 may have an opening through which insects may enter. The pest to be trapped can enter the interior of the housing 110 through the opening.
The attracting unit 120 may be disposed in the housing 110 and may include an attractor or the like capable of attracting insects by irradiating light. The attracting unit 120 may include one or more attractions. Light emitting diodes (LEDs) can be used as attractants.
Light emitting diodes are more efficient than other lamps and their power consumption may be low. In addition, it can be advantageous in terms of environmental aspects and stability than a fluorescent lamp. However, the types of incentives and the like are not limited thereto.
The capture unit 130 may be disposed within the housing 110 to capture attracted pests. For example, the capture unit 130 may include a sticky module, a collection case, a drowning module, and a pest control module. However, the type of the capturing unit 130 is not limited thereto.
2 is a block diagram of a control unit 140 according to one embodiment.
2, the control unit 140 may control the wavelength of the attracting unit 120 or the lighting frequency. The wavelength or lighting frequency of the attracted person etc. may be different for each pest. The control unit 140 may control the wavelength or the lighting frequency to improve the attractiveness of the pests.
The control unit 140 may control the light source unit 120 to generate light of various wavelengths. For example, the attracting unit 120 may include lamps having different wavelengths, and the wavelength of the irradiated light may be changed by mixing the light irradiated by the lamp. The wavelength of the light irradiated by the attracting unit 120 can be controlled in various ways.
The wavelengths of attracting and the like can be set in consideration of the pests to be captured. For example, flies may prefer light at 340 nm or 575 nm, moths and mosquitoes at 366 nm, and common insects at 340 nm to 380 nm, and can capture light at corresponding wavelengths to capture insects. The wavelength can be controlled by taking into consideration the kind of pests that are mainly distributed at the installation site.
The control unit 140 can control the lighting frequency of the attracting unit 120. [ The lighting frequency can be controlled by the PWM control method.
Alternatively, the wavelength of the light irradiated by the attracting unit 120 may be controlled. For example, the control unit 140 may generate a dimming signal including a frequency at which the attracting unit 120 is switched on and off, and transmit the signal to the attracting unit 120 to switch the attracting unit 120 have. The frequency value may be a pre-stored value or a value entered by the user.
The control unit 140 can control the duty ratio of the attracting unit 120. [ The PWM control method can be used to control the duty ratio. The control unit 140 may drive the attracting unit 120 by inputting a PWM (Pulse Width Modulation) signal to the attracting unit 120
The duty ratio is a ratio of time in which the attracting unit 120 is turned ON with respect to a time period corresponding to one period of the PWM signal. If the attracting unit 120 is continuously turned ON when the duty ratio is 100% State. ≪ / RTI > The ON / OFF ratio of the attracting unit 120 may be 50%.
The control unit 140 may increase the magnitude of the voltage applied to the attracting unit 120 when the duty ratio is reduced. The amount of ultraviolet radiation that is reduced by lowering the ON ratio of the attracting unit 120 can be compensated for by a high voltage.
By reducing the lighting ratio of the attracting unit 120, it is possible to reduce power consumption and heat generation. By applying a high voltage to maintain the ultraviolet ray emission amount, the insect capturing efficiency can be improved.
The control unit 140 can control the voltage or current applied to the attracting unit 120. [ The brightness of the attracting unit 120 can be adjusted by the change of the voltage or current value applied to the attracting unit 120. [ And can be controlled depending on the installation place or installation environment of the pest catching device 1. [
The voltage or current may be controlled through a converter, a PWM control method, or the like. The control method is not limited.
The control unit 140 can control the lighting time of the attracting unit 120. [ The control unit 140 can set the time at which the attracting unit 120 is lit, and can light the attracting unit 120 only at a predetermined time.
For example, the attracting unit 120 may be turned off during the day, the attracting unit 120 may be turned on during the day, or the attracting unit 120 may be turned off after a specific time.
The control unit 140 may repeatedly turn the attracting unit 120 on and off. The attracting unit 120 may repeatedly blink without continuously irradiating light. Repeated blinking lights can have a large pest inducing effect.
The control unit 140 may periodically turn the attracting unit 120 on and off. The on-off of the attracting unit 120 may be periodically performed at regular time intervals. The on-off operation of the attracting unit 120 can be determined in consideration of the installation place of the pest catching apparatus 1 and the surrounding environments. The attracting unit 120 may be turned on and off at irregular intervals.
FIG. 3 is a diagram showing a form in which the attracting unit 120 according to one embodiment operates individually.
Referring to FIG. 3, the attracting unit 120 may include a plurality of attracting lights 121 and 122. The control unit 140 can respectively control lighting of the induction lamp and the like.
Attractors, etc. can illuminate light with different wavelengths, frequencies, or duty ratios, respectively. The control unit 140 can individually control the attractor and the like to irradiate light having different properties.
The incendiary light can illuminate light of other wavelengths. For example, the wavelength of the light irradiated by the first illuminating lamp 121 may be greater than the wavelength of the light illuminated by the second illuminating lamp 122. Different kinds of insects can be attracted by irradiating various lights having different wavelengths.
The incentive can illuminate the light with different brightness. For example, the second induction lamps 122 may be set to be darker than the first induction lamps 121.
The duty ratio, the voltage, the current, the lighting time, and the like of the attraction can be controlled, respectively, and the kind of the control value is not limited.
The insects 121 and 122 can be respectively controlled to attract various kinds of insects simultaneously. It is possible to reduce the heat generation amount or power consumption.
4 is a block diagram illustrating a mode setting unit 150 and an operation mode according to an embodiment.
Referring to Fig. 4, the pest catching device 1 may further include a mode setting unit 150 that can set the device mode. The control unit 140 can control lighting of the attracting unit 120 according to the device mode.
The wavelength, the frequency, or the duty ratio of the attracting unit 120 may be changed depending on the apparatus mode. The device mode may include a pest mode, a time mode, and a regional mode. The mode is not limited to the above, and may include a user mode capable of changing wavelength, frequency, or duty ratio values such as attractiveness. The value changed depending on the operation mode is not limited to the above, and the lighting time and the like may be changed.
The pest mode may change the wavelength, frequency, duty ratio, etc. of the light irradiated by the attracting unit 120 according to the insect to be captured since the light responding to the insect may be different.
For example, you can set the moth mode, the mosquito mode, or the fly mode, and you can investigate the preferred light of each insect. It is possible to improve the pest capture efficiency by irradiating the light with the setting suitable for the capture target.
The hourly mode may include day and night modes. It is possible to set the light irradiated by the attracting unit 120 to be suitable for daytime and nighttime. You can also adjust the amount of light for day and night.
The regional mode can provide a function to change the setting of the light to be illuminated according to the installation place. For example, it can include an indoor mode and an outdoor mode, and can illuminate light suitable for indoor and outdoor situations. In order to capture insects distributed outdoors and indoors, light suitable for the pests can be irradiated.
The device mode may include a near mode or a far mode.
The near mode may include a mode for increasing the duty ratio. The ON ratio of the attracting unit 120 can be increased. The duty ratio may be increased and the magnitude of the voltage applied to the attracting unit 120 may be reduced.
The remote mode may include a mode of decreasing the duty ratio and increasing the magnitude of the voltage applied to the attracting unit 120. [
The ON rate of the attracting unit 120 may be lowered and a high voltage may be applied to the attracting unit 120 to emit strong ultraviolet rays instantaneously. Since the distant pests are far from the attracting unit 120, a strong ultraviolet ray may be required. The insect can be reacted by spraying strong ultraviolet rays.
The mode depending on the distance may include a mode for attracting medium-distance pests by making the ON / OFF ratio the same. In addition, a portion of the attracting unit 120 may include a mode that reduces the duty ratio and some that increases the duty ratio. In this mode, some of the attracting units 120 instantaneously emit strong ultraviolet rays to attract remote pests, and some attracting units 120 can increase the duty ratio to attract nearby pests.
The mode is illustrative and the device mode is not limited thereto. And a mode in which the wavelength, frequency, and duty ratio of the attracting unit 120 can be arbitrarily set.
While one embodiment has been described in conjunction with the accompanying drawings, it is to be understood that such embodiments are for the purpose of facilitating understanding of the invention and are not intended to limit or limit the scope of the invention. Those of ordinary skill in the art will be able to modify or adapt the invention according to one embodiment, and such modifications or applications will fall within the scope of the invention. Accordingly, the scope of the invention should not be limited to the specific embodiments described herein.

1 Pest capture device
110 housing
120 incentive units
130 Capture unit
140 control unit
150 mode setting unit

Claims (12)

A housing forming a body;
An attracting unit disposed in the housing, the attracting unit including an attractor capable of attracting insects by irradiating light;
A capture unit disposed in the housing and capable of capturing the attracted pest;
A control unit capable of controlling the wavelength, the lighting frequency, or the duty ratio of the attractor; And
And a mode setting unit capable of setting a device mode,
Wherein the device mode includes a short mode for increasing the duty ratio and a long mode for reducing the duty ratio,
Wherein the control unit increases the magnitude of the voltage applied to the lead-in unit when the duty ratio decreases, decreases the magnitude of the voltage applied to the lead-in unit when the duty ratio increases,
Wherein the attracting unit includes a plurality of attractors or the like having different wavelengths,
Wherein the control unit controls the wavelength and the frequency of the plurality of attractors to change the mixed wavelength of the light irradiated from the attracting unit.
delete The method according to claim 1,
Wherein the control unit is capable of increasing a magnitude of a voltage applied to the attractor when the duty ratio is reduced.
The method according to claim 1,
Wherein the control unit is capable of controlling a voltage or a current applied to the induction person or the like.
The method according to claim 1,
Wherein the control unit is capable of controlling the lighting time of the attractor or the like.
The method according to claim 1,
Wherein the control unit is capable of repeatedly turning on and off the attractor and the like.
The method according to claim 6,
Wherein the control unit is capable of periodically turning on and off the lead and the like.
delete The method according to claim 1,
Wherein the control unit is capable of controlling lighting of the attracting unit in accordance with the device mode.
The method according to claim 1,
Wherein the mode setting unit includes storage means for storing a set value of the device mode.
11. The method of claim 10,
Wherein the set value includes wavelength, frequency, or duty ratio information of the attractor or the like.
delete

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