KR101774554B1 - Apparatus for capturing vermin - Google Patents

Abstract

A pest capture device is disclosed. The pest catching apparatus includes a capturing unit disposed at the lower end such as an attractor capable of attracting a pest by irradiating light, a light emitting unit arranged at the upper end of the capturing unit and irradiating infrared rays, A light receiving unit disposed at a predetermined distance apart from the light emitting unit so as to correspond to the light receiving unit and corresponding to the light receiving unit, an antireflective unit provided on both sides of the light receiving unit to prevent reflected light of the received infrared light from being reflected, Wherein the antireflection unit is formed of a material that does not reflect the infrared rays so that the detection unit can accurately count the insect number.

Description

{APPARATUS FOR CAPTURING VERMIN}

The present invention relates to a trapping apparatus, and more particularly to a pest catching apparatus for accurately counting pest counts.

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 insect pests 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. However, there is a problem that it is difficult to accurately count the pest count even if the pest is captured.

Therefore, it is necessary to develop a device for capturing pests and accurately counting pests.

An object of the present invention is to provide a pest catching device which is disposed around a light receiving portion and is configured so as not to reflect the irradiated infrared ray reflected light, and blocks infrared rays reflected from the incident angle to the light receiving portion.

It is another object of the present invention to provide a pest catching device capable of accurately counting insect pests by not reflecting reflected light.

A pest catching apparatus according to embodiments of the present invention will be described. The pest catching device is disposed at the lower end such as an incinerator capable of attracting insects by irradiating light and is provided at a lower end such as a capturing portion for capturing pests and a light emitting portion disposed at the upper end of the capturing portion for irradiating infrared light, An antireflection unit provided on both sides of the light receiving unit for detecting infrared rays transmitted from the light emitting unit, the antireflection unit being formed so as not to reflect the reflected light of the received infrared rays, And a detection unit for counting the number of pests falling on the capturing unit, wherein the antireflection unit is formed of a material that does not reflect infrared rays, so that the detection unit can be configured to accurately count the pest count.

According to one aspect, the inner surface of the capturing part may be formed of a sticky material to which a pest can be attached.

According to one aspect of the present invention, the anti-reflection portion may be provided in the form of a sidewall on both sides of the light receiving portion, the anti-reflection portion may be formed in a " C "

According to one aspect, the anti-reflection portion may be made of aluminum, and the anti-reflection portion may be configured to block the infrared ray reflected from the incident angle to the light receiving portion, and to transmit the infrared ray from the light emitting portion to the light receiving portion.

According to one aspect of the present invention, a shielding plate in the form of an eave may be provided on the upper end of the light receiving unit so as to prevent reflected light from an attractor or the like from being received.

 According to one aspect, at the upper end of the capturing part, there may be provided a lightning part for providing high pressure electricity to the pest, and by the operation of the lightning part, the sensing unit counts the number of pests captured in the capturing part.

According to one aspect of the present invention, a suction fan is provided at the upper end of the capturing part, and the suction fan can attract the insect pests, thereby allowing the sensing unit to count the number of pests contained in the capturing part.

A pest catching apparatus according to another embodiment of the present invention will be described. The pest trapping device is disposed at the periphery of the incinerator such as an attractor capable of irradiating light and attracting insects, and is disposed at the lower end such as a reflecting portion for reflecting light and an attractor, and forms a space inside, A light receiving portion disposed at the upper end of the capturing portion for catching the insect, a light emitting portion for irradiating infrared rays, a light receiving portion disposed at a predetermined distance in correspondence with the light emitting portion and detecting infrared rays transmitted from the light emitting portion, An antireflection unit formed in the infrared ray receiving unit for receiving the signal detected from the insect pest from the light receiving unit and counting the number of pests falling into the capturing unit, So that the detection unit can accurately count the pest water.

According to one aspect of the present invention, the anti-reflection portion may be provided in the form of a sidewall on both sides of the light receiving portion, the anti-reflection portion may be formed in a " C "

According to one aspect, the anti-reflection portion may be made of aluminum, and the anti-reflection portion may be configured to block the infrared ray reflected from the incident angle to the light receiving portion, and to transmit the infrared ray from the light emitting portion to the light receiving portion.

According to one aspect of the present invention, a shielding plate in the form of an eave may be provided on the upper end of the light receiving unit so as to prevent reflected light from an attractor or the like from being received.

According to the present invention, the antireflection portion can block the infrared ray reflected from the incident angle and incident on the light receiving portion.

Also, by not reflecting the reflected light, the pest count can be accurately counted.

1 is a perspective view of a pest catching apparatus according to an embodiment of the present invention.
2 is a state diagram showing an operation of a sensing unit for detecting infrared rays emitted from a light emitting unit to a light receiving unit.
3 is a state diagram showing that the detection unit counts pests by infrared rays.

1 is a perspective view of a pest catching apparatus according to an embodiment. The insect trapping apparatus 300 may include an attractant lamp 110, a reflector 120, a capturing unit 130, and a sensing unit 200.

The incendiary lamp 110 provided in the insect trapping apparatus 300 can irradiate light to attract insects and light emitting diodes (LEDs) that emit light in an ultraviolet ray region effective for insect induction can be emitted. The light emitting diodes have advantages in that they are more efficient than other lamps and have lower power consumption, which is advantageous in terms of environmental aspects and stability as compared with fluorescent lamps. At least one induction lamp 110 may be provided in the interior, and one embodiment may include two induction lamps 110, but the number of the induction lamps 110 is not limited thereto. A desired number of manpower lights 110 may be provided in consideration of the size or power consumption of the pest catching device.

The attracting light 110 may be provided at a predetermined distance from the inner surface of the insect capturing device and the reflector 120 may be provided between the attracting light 110 and the inner wall surface of the insect capturing device to diffuse light . The reflector 120 may be configured to be disposed close to the guide light 110.

The reflector 120 may be configured to attract more insects by the attractor 110 and the reflector 120 may be formed of any material that diffuses the light of the attractant 110.

The capture unit 130 is provided at the lower end of the attraction unit 110 and the reflection unit 120 to capture attracted insects.

The capturing part 130 may be formed in a box shape capable of receiving pests therein, and may have a sticky or insecticide having an adhesive surface coated with an adhesive on its inner surface.

The sensing unit 200 may be disposed around the capturing unit 130. The sensing unit 200 may include a light emitting unit 210 that emits infrared light and an antireflection unit that does not reflect the reflected light of the infrared light 230, a light receiving unit 220 that receives infrared rays, and a light receiving sensor.

A light emitting portion 210 may be provided at one end of the capturing portion, and a light receiving portion 220 and an antireflection portion 230 may be provided at the other end of the capturing portion.

Here, the reflection preventing part 230 may be provided on both sides of the light receiving part 220, and the reflection preventing part 230 may be a lid.

The reflection preventing part 230 is configured to block the infrared rays incident on the light receiving part 220 by being reflected from the incident angle and configured to receive only infrared rays received by the light receiving part 220 from the light emitting part 210 .

The light emitting unit 210 and the light receiving unit 220 may be provided at the upper ends of both ends in the width direction of the capturing unit 130. The light receiving unit 220 may correspond to the light emitting unit 210, They can be arranged with a certain distance therebetween.

The shielding plate 270 may be provided on the upper end of the light receiving unit 220 so that the shielding plate 270 does not receive light from the light source 110 and the reflector 120 disposed at the upper end. . The shielding plate 270 may be made of aluminum.

The capturing unit 130 may be formed in a form of being pulled out or drawn out from the case. The capturing unit 130 may include a light emitting unit 210, a light receiving unit 220, an anti-reflection unit 230 ), And the sensing unit 240 is mounted in a fixed form.

The detection unit 240 receives a signal from the light receiving unit 220 to detect a pest and can count the number of pests captured by the capturing unit 130 so that it can be configured to know how much pests have been captured Do.

When the light emitting unit 210 irradiates the infrared ray to the light receiving unit 220 and the insect pest is irradiated to the infrared ray, the infrared ray irradiated from the light emitting unit 210 is not received by the light receiving unit 220 The infrared ray is cut off, and the detection unit 240 counts the broken signal so that it is possible to know how much the insect is trapped in the capturing unit.

Meanwhile, although not shown in the drawing, a flash unit (not shown) may be provided at the upper end of the capturing unit 130.

(Not shown) may be in the form of applying high-voltage electricity to the pest, and the catching part 130 disposed at the lower end of the electric firing part may be configured to receive dead insects from the electric firing part.

The light emitting unit 210 provided at the upper end of the capturing unit 130 irradiates infrared rays to the light receiving unit 220 and irradiates infrared rays irradiated from the light emitting unit 210 to the light receiving unit 220 The infrared rays are cut off and the detection unit 240 counts the broken signal so that it is possible to know how much the insect is trapped in the capturing unit 130. [ It is possible to construct a structure in which a sticky material is adhered to the inner surface of the capturing part.

In another embodiment, a suction fan (not shown) may be provided at the upper end of the capturing unit 130.

Although not shown in the drawing, a suction fan (not shown) is provided between the attracting light 110 and the capturing unit 130 so that the fan wind is directed toward the attracting light 110, The insect can be configured to attract the insect to the trapping part 130 by operating a suction fan (not shown).

 The light emitting unit 210 provided at the upper end of the suction fan irradiates the infrared ray to the light receiving unit 220 so that the infrared ray irradiated from the light emitting unit 210 is received by the light receiving unit 220 The infrared ray is broken and the detection unit 240 counts the broken signal so that the capturing unit 130 disposed at the lower end of the suction fan can know how many pests are present.

A sticky adhesive is attached to the inner surface of the capturing part, so that the pest attracted by the suction fan can be prevented from coming out again.

FIG. 2 is a state view showing an operation of a sensing unit for detecting infrared rays emitted from a light emitting unit to a light receiving unit, and FIG. 3 is a state diagram showing a sensing unit counting insects by infrared rays.

The sensing unit 200 of the present invention includes a light emitting unit 210 that emits infrared rays 210a, an anti-reflection unit 230 that does not reflect the reflected light of the irradiated infrared rays 210a, and an infrared ray 210a And a light receiving unit 220 having a light receiving sensor.

Here, the reflection preventing part 230 may be provided on both sides of the light receiving part 220, and the reflection preventing part 230 may be a lid.

The antireflection unit 230 may be configured to block the infrared rays incident on the light receiving unit 220 by being reflected from the incident angle and to receive only the infrared rays received in a linear form from the light emitting unit 210 to the light receiving unit 220 .

The antireflection unit 230 may be configured to receive infrared rays only at an angle of about 180 degrees from the light emitting unit 210 to the light receiving unit 220 so as to prevent the increase of infrared rays due to the reflected light. The light receiving unit 220 may be configured to detect only the infrared ray transmitted from the corresponding light emitting unit 210.

The reflection preventing part 230 may be provided on both sides of the light receiving part 220. The reflection preventing part 230 and the light receiving part 220 are arranged so as to be close to each other as far as the distance between the reflection preventing part 230 and the light receiving part 220 is larger, As shown in FIG.

In addition, the reflection preventing part 230 may be formed in a " C "shape, and includes a light receiving part 220 inside thereof and a sidewall on both sides of the received light receiving part, It is possible. The reflection preventing part 230 may be arranged on both sides of the light receiving part 220 in the form of long side walls.

Meanwhile, when the light emitting unit 210 irradiates the infrared ray 210a to the light receiving unit 220, the detection unit 240 may detect that the insect is irradiated The infrared ray 210a irradiated by the light emitting unit 210 is not received by the light receiving unit 220 so that the infrared ray is cut off and the broken signal is counted by the detection unit 240, It can be configured to know exactly how trapped the pest is.

The capturing unit 130 may be formed in a form of being pulled out or pulled out into the supporting unit. The capturing unit 130 may include a light emitting unit 210, a light receiving unit 220, The prevention unit 230, and the sensing unit 240 may be provided in a fixed form.

The reflection preventing part 230 may be formed in a side wall shape on both sides of the light receiving part 220 and may be formed of a material that does not reflect infrared light.

Here, the anti-reflection portion 230 may be made of aluminum.

The length of the reflection preventing part 230 may be longer than the length of the light receiving part 220 and may be formed to cover the side surface of the light receiving part 220. This may be for blocking infra-red rays that are bent.

A shielding plate 270 may be provided on the upper end of the light receiving unit 220. The shielding plate 270 may receive light from the illuminating unit 110 and the reflecting unit 120 disposed at the upper end ≪ / RTI > The shielding plate 270 may be made of aluminum.

The antireflective portion 230 and the shielding plate are formed on both sides and upper ends of the light receiving portion 220 in the form of a covering wall so as to block infrared rays that do not enter straight ahead and prevent the reflected light from being recognized by the light receiving portion 220, Can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. In addition, the present invention is not limited to the above-described embodiments, and various modifications and changes may be made thereto by those skilled in the art to which the present invention belongs. Therefore, the spirit of the present invention should not be construed as being limited to the above-described embodiments, and all of the equivalents or equivalents of the claims, as well as the following claims, are included in the scope of the present invention.

110: attracted person etc. 130: capturing unit
210: light emitting portion 220:
230: antireflection unit 240: sensing unit
200: sensing unit 300: pest capture device

Claims (16)

Incentives that can attract insects by irradiating light;
A capturing unit disposed at the lower end of the attractor and capturing the insect;
A plurality of light emitting units arranged at one end of the capturing unit on the upper side thereof for irradiating infrared rays;
A plurality of light-receiving portions provided on the upper end of the capturing portion so as to correspond to the plurality of light-emitting portions in one-to-one correspondence, respectively, for sensing infrared rays radiated from the plurality of light-emitting portions;
And is formed in a shape of a "" -shaped sidewall surrounding each of the light-receiving portions so as to receive the plurality of light-receiving portions therein, and the infrared rays emitted from the plurality of light- A plurality of antireflective portions to be incident at a predetermined angle or less;
A detection unit for receiving a signal indicating that a pest is detected from the light receiving unit and counting the number of pests falling into the capturing unit; And
A shielding plate of an eave shape provided on the upper side of the plurality of light receiving units so as not to receive light of the attractor or the like;
/ RTI >
Wherein the plurality of reflection preventing portions shield infrared rays irradiated from the light emitting portions which are not in one-to-one correspondence with the light receiving portions from entering, so that only the infrared rays irradiated from the light emitting portions corresponding to one- And the pest count is accurately counted. The method according to claim 1,
Wherein the trapping part forms a space for receiving insect pests and the inner surface is adhered with a sticky material to which a pest can be attached. delete delete The method according to claim 1,
Wherein the plurality of antireflection parts are made of aluminum. delete The method according to claim 1,
And a reflector disposed around the attractor or the like and formed of a material for diffusing light of the attractor or the like. delete The method according to claim 1,
Wherein the capturing unit further includes a lightning part for providing high-voltage electricity to the insect pest, and the sensing unit counts the number of pests trapped in the capturing part by the operation of the lightning bolt, . The method according to claim 1,
Further comprising a suction fan at an upper end of the capturing part, the suction fan attracting the insect so that the sensing unit counts the number of insects contained in the capturing part. Attracting insects by irradiating light;
A reflector disposed around the attractor or the like for reflecting the light;
A capturing part disposed at the lower end of the attractor or the like to form a space therein and to be affixed to the inner space to capture the insect;
A plurality of light-emitting units provided at one end of the capturing unit at an upper side thereof for irradiating infrared rays;
A plurality of light-receiving portions provided on the upper end of the capturing portion so as to correspond to the plurality of light-emitting portions in one-to-one correspondence, respectively, for sensing infrared rays radiated from the plurality of light-emitting portions;
And is formed in a shape of a "" -shaped sidewall that surrounds the side surfaces of the plurality of light-receiving portions so as to receive the plurality of light-receiving portions, and the infrared ray emitted from the plurality of light- A plurality of antireflective portions that are incident at a predetermined angle or less;
A detection unit for receiving a signal indicating that a pest is detected from the light receiving unit and counting the number of pests falling into the capturing unit; And
A shielding plate on the upper side of the plurality of light receiving units so as not to receive reflected light from the attraction light or the reflection unit;
/ RTI >
The plurality of reflection preventing portions may block the infrared rays irradiated from the light emitting portions which do not correspond one-to-one with the light receiving portions, so that only the infrared rays irradiated from the light emitting portions corresponding to one- And the pest count is accurately counted. delete delete 12. The method of claim 11,
Wherein the plurality of antireflection parts are made of aluminum.

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