KR100924074B1 - Harmful Insect Capturing Device - Google Patents

Abstract

PURPOSE: A harmful insect capturing device is provided, which minimizes frequent maintenance and repair and facilitates installation and use. CONSTITUTION: A harmful insect capturing device comprises a back panel; a case equipped with a front cover plate which covers the front side and unites with the back panel; an optical source section(120) which is formed to be adjacent to the opening of the front cover plate and irradiates the light of the fixed wavelength which allures an insect; a cylindrical rotating unit(130) which rotates around the rotation axis at a specific speed; a driving part which turns the cylinder rotating unit at a specific speed; a heat source supply part(150) which supplies the heating source to the cylinder rotating unit; a controller which controls the insect collection storage(160), optical source section, driving part and heat source supply part.

Description

Harmful Insect Capturing Device

The present invention relates to an insect repellent device, and more particularly, to effectively capture and remove the decomposed products of pests and the by-products of pests or the debris caused by the decay of the captured pests, and frequent maintenance and replacement The present invention relates to an insect repellent device that can be minimized to facilitate installation and use.

In general, in order to combat pests harmful to humans or livestock, insecticides are sprayed, insecticides are used to extinguish the insects, or ultraviolet light is used to attract pests to electrocution of high voltage electricity.

However, the use of pesticides or insecticide smoke in the conventional pest control method is harmful to the human body because it contains toxic chemicals, there is a problem causing side effects.

In addition, the electrical method generates noise by incineration when the pest is electrocuted at high voltage, smoke is emitted when disassembling the pest due to electric shock, and odor is generated. There is also a problem that can contaminate the passage and the interior of the room.

Furthermore, when used to install fixed to the top of the wall, there was a need to visually identify the cause of the failure or failure, and to maintain and replace each time for maintenance and replacement repair.

On the other hand, in order to minimize noise and keep smoke free from being smoked and to prevent it from being polluted by debris, there is a method of attracting pests with an ultraviolet light source and inhaling them with a suction fan, but there is a safety accident caused by the wing of the suction fan. May occur. In addition, when attracting pests by the ultraviolet light source there is also a problem that the high energy ultraviolet rays are directly radiated to the outside to harm the skin or eyes.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and can effectively capture and remove the decomposed products of the pests and the by-products of the pests that are attracted and captured, or the fines generated by the decay of the captured pests. It is an object of the present invention to provide a capture device.

In addition, an object of the present invention is to provide a capture device that can facilitate the installation and use by minimizing frequent replacement and maintenance of the pest collection and storage unit to remove and possess the captured pests.

In order to achieve the above object, according to a preferred embodiment of the present invention, a case having a rear plate, and an opening formed in the upper side and having a front cover plate coupled to the rear plate to cover the front; A light source unit formed adjacent to the opening of the front cover plate to irradiate light of a predetermined wavelength to attract pests; A cylindrical rotating part formed in a cylindrical shape adjacent to the lower side of the opening of the light source part and the front cover plate, and having at least two wings having a predetermined shape on an outer circumferential surface thereof and rotating at a constant speed about a rotation axis; A driving unit for rotating the cylindrical rotating unit at a constant speed; A heat source supply part formed between the rear plate and a rear surface of the cylindrical rotation part and supplying a heat source to the cylindrical rotation part; A pest collection and storage unit which is formed adjacent to the lower side of the cylindrical rotation part and has an opening in a direction of the cylindrical rotation part; And a control unit controlling the light source unit, the driving unit, and the heat source supply unit.

Preferably, the case further includes a reflector formed between the light source unit and the back plate and reflecting the light source of the light source unit in a direction substantially perpendicular to the back plate, wherein the light source unit protrudes outside the opening of the case. And a reflection portion reflecting the primary reflection light by the reflection plate or the primary light source by the light source portion may be formed on the upper outer surface of the front cover plate on which the opening is formed.

Preferably, the blade of the cylindrical rotating portion is formed to be curved in the shape of a bow, the outer surface of the outer surface between the wings provided in the cylindrical rotating portion is applied with a pest attraction material, the pest attraction material is a pheromone hormone or titanium oxide ( TiO ₂ ) may be included.

Preferably, the driving unit may be a DC motor that rotates the cylindrical rotation unit in the forward or reverse rotation at a rotation speed of substantially 0.1rpm to 0.5rpm.

Preferably, the heat source supply unit may substantially generate far infrared rays of 110 ℃ to 130 ℃.

Preferably, the control unit further comprises a sensor for detecting the torque generated during the forward rotation or reverse rotation of the cylindrical rotation, and if the torque is greater than the threshold value preset by the sensor is opposite to the rotation direction It may be rotated for a predetermined time in the reverse direction.

Preferably, the case further comprises a sliding plate protruding obliquely in a diagonal direction between the rear plate and the lower portion of the cylindrical rotating portion obliquely toward the opening of the pest collecting and storage portion, one end of the sliding plate substantially in the diagonal direction It may be formed bent in a direction orthogonal to the lower side.

Preferably, the upper outer surface of the front cover plate may be formed to form an inclination angle with the ground at a downward angle of substantially 6 ° to 9 °.

According to the present invention, it effectively captures and removes the decomposition products of the captured pests and by-products of the pests or the debris caused by the decay of the pests, and realizes cost reduction by minimizing the frequency of frequent maintenance and pest collection and storage. There is an effect that can facilitate the installation and use.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 1a is a schematic perspective view of the insect trapping apparatus according to an embodiment of the present invention, Figure 1b is a schematic rear perspective view of the insect trapping apparatus of Figure 1a, Figure 2a is an open state of the front cover plate of the case of the insect trapping apparatus of Figure 1a 2b is a schematic exploded perspective view of the insect trapping apparatus of FIG. 1a.

1A to 2B, the insect repellent device 100 according to the embodiment of the present invention includes a case 110, a light source unit 120, a cylindrical rotating unit 130, a driving unit 140, a heat source supply unit 150, and Pest collection and storage unit 160.

The case 110 includes a rear cover plate 112 that hinges the insect repellent device 100 to the rear plate 111 and one side of the rear plate 111 and the hinge shaft 115. The front cover plate 112 may be opened upward or closed downward with respect to the hinge shaft 115 to facilitate maintenance and replacement of components or components included in the case 110. Here, the back plate 111 is provided with a catching portion 111a for installing the insect repellent device 100 on a desired position, for example, a wall. The hook-shaped hole may be formed as substantially as possible. In addition, the back plate 111 may be formed to be substantially flat to closely adhere to the wall. An opening 112a is formed in a predetermined shape on the upper side of the front cover plate 112, and defines a substantial outline of the insect trapping device 100 in a shape that covers the front surface, for example, to cover detailed components of the insect trapping device 100.

The light source unit 120 is formed adjacent to the opening 112a of the front cover plate 112 and includes an ultraviolet lamp for irradiating a light source having an ultraviolet wavelength to attract pests. That is, the light source unit 120 is configured to protrude outside the opening 112a formed in the front cover plate 112 of the case 110.

On the other hand, between the light source unit 120 and the back plate 111 is formed a reflecting plate 116 that can first reflect the light source emitted from the light source unit 120 in a direction (A) substantially perpendicular to the back plate 111 Can be. Here, the reflective plate 116 may be made of or include a material that can reflect the light source.

In addition, the upper cover 112 of the front cover plate 112 with the opening 112a formed thereon receives the primary reflected light by the reflector 116 or the primary light source, that is, the light source directly irradiated from the light source 120. It is preferable to form a reflecting portion reflecting to B) or the upper outer surface 112b of the front cover plate 112 to be made of a material capable of reflecting the light source. Here, the upper outer surface 112b of the front cover plate 112 maintains the inclination angle α at a downward angle of 6 ° to 9 ° with the ground. In the present embodiment, it is preferable to maintain the inclination angle α of 7.5 °, which will be described later in detail with reference to FIG.

As shown in the figure, the cylindrical rotating part 130 is formed in a cylindrical shape adjacent to the lower side of the opening 112a formed in the light source part 120 and the front cover plate 112. The cylindrical rotation part 130 is formed to rotate at a constant speed about the rotation shaft 131 inserted into both sides of the front cover plate 112 of the case 110.

On the other hand, the outer circumferential surface of the cylindrical rotating part 130 is provided with at least two wings of a predetermined shape, the cylindrical rotating part by isolating each of the pests introduced through the opening 112a by the space divided by the wing 132. It can be moved to the pest collection and storage unit 160 by the rotation of (130). The wing 132 may be formed to protrude outward from the outer circumferential surface of the cylindrical rotation part 130, and preferably bent in a bow shape in the forward rotation direction C of the cylindrical rotation part 130.

In addition, a pest attraction material 133 is applied to the outer circumferential surface between the wings 132 provided on the cylindrical rotating part 130, and the pest attraction material 133 includes a pheromone-based hormone or titanium oxide (TiO ₂ ). can do. Here, the titanium oxide may be naturally occurring by oxidizing the excretion of the introduced pest while attracting the pest.

The driving unit 140 rotates the cylindrical rotating unit 130 at a constant speed. On the other hand, in the present embodiment, the drive unit 140 includes a DC motor 141 for rotating the cylindrical portion 130 at a forward speed (C) or reverse rotation (D) at a rotation speed of substantially 0.1rpm to 0.5rpm. Here, when the cylindrical rotating unit 130 is rotated at a rotational speed of substantially less than 0.1rpm by the driving unit 140, the efficiency of attracting and removing pests can be extremely reduced, and the cylindrical rotating unit by the driving unit 140 When the 130 is rotated at a rotational speed of substantially more than 0.5rpm, the pest attracted to the cylindrical rotating portion 130 is to leave the cylindrical rotating portion 130 in response to the rapid rotation of the cylindrical rotating portion 130. Therefore, in the present embodiment, preferably, the driving unit 140 rotates the cylindrical rotating unit 130 at a rotational speed of substantially 0.25 rpm. That is, the rotational speed of 0.25rpm, while improving the removal efficiency of the pest attracted to the cylindrical rotation unit 130, while the attracted pest is not surprised to the rotation of the cylindrical rotation unit 130, the optimum rotation speed to be. Here, the insects attracted to the cylindrical rotating part 130 takes substantially one minute to pass through the heat source supply part 150.

Here, the configuration or rotational speed of the driving unit 140 that provides the rotational force to the cylindrical rotating unit 130 is not particularly limited.

The heat source supply unit 150 (see FIG. 3) is formed between the rear plate 111 and the rear surface of the cylindrical rotating unit 130 to supply a heat source, such as far infrared rays of 110 ° C. to 130 ° C., to the cylindrical rotating unit 130. do. The pests attracted by the light source unit 120 or the pest attractant material 133 may be killed by the pests introduced into the space between the wings 132 of the cylindrical rotating unit 130. Accordingly, since the captured pests are killed by high temperature, it is possible to solve various problems caused by decay.

The pest collection and storage unit 160 is formed adjacent to the lower side of the cylindrical rotating unit 130 as shown, the opening 160a may be formed in the upper direction, that is, the direction of the cylindrical rotating unit 130. Accordingly, when the pests killed by the heat source supply unit 150 fall downward by gravity, they may be stored in the pest collection storage unit 160 through the openings 160a. Here, the pest collection storage 160 may be formed to have a length substantially the same as the length of the cylindrical rotating part 130, a pair of guide pieces formed in the upper direction on both sides of the bottom plate 113 of the case 110 ( It is guided by 113a) and can be detached in the longitudinal direction E of the cylindrical rotation part 130, so that it can be inserted into the case 110 or easily removed to the outside of the case 110. Since the pest collection and storage unit 160 is easy to replace, it is possible to prevent the corruption of the pest that occurs during long-term storage in advance.

For example, in the present embodiment, the pest collection storage unit 160 is a box having a substantially rectangular shape, and the upper surface of the box may be opened and closed, and may include a paper material to reduce the cost of maintenance and replacement.

The controller (not shown) controls the light source unit 120, the driving unit 140, or the heat source supply unit 150. That is, the controller controls the on-off operation of the light source unit 120, the forward rotation and the reverse rotation of the driving unit 140, or the on-off operation of the heat source supply unit 150.

On the other hand, the control unit further includes a sensor (not shown) for detecting the torque generated during the forward rotation or reverse rotation of the cylindrical rotation unit 130. Accordingly, when the controller detects a torque equal to or greater than a predetermined threshold value by the sensor during forward rotation or reverse rotation of the cylindrical rotation unit 130, the controller controls the driving unit 140 to change the rotation direction of the cylindrical rotation unit 130 to the initial rotation direction. Rotate in reverse direction for a certain time.

For example, when a pest having a large size or a hard shell is introduced, the rotation of the cylindrical rotating unit 130 is disturbed, and when a torque of a predetermined threshold or more is detected by the driving unit 140, the controller rotates the cylindrical rotating unit 130. In order to normalize the rotation of the cylindrical rotating unit 130 in the reverse direction for a predetermined time, substantially one minute, and then rotates the cylindrical rotating unit 130 in the initial rotation direction again. Here, during the reverse rotation of the cylindrical rotation part 130 for one minute, the cause which hindered the rotation of the cylindrical rotation part 130 can be easily removed. Accordingly, the failure or failure of the cylindrical rotating unit 130 or the driving unit 140 caused by the aforementioned factors can be solved by the controller itself without using manpower, so that the cost of maintenance or replacement can be easily realized. have.

3 is a schematic cross-sectional view of the front cover plate of the case of the insect trapping apparatus of FIG. 2A in an open state.

The pest collection and storage unit 160 may be guided and inserted or removed by a pair of guide pieces 113a formed in an upward direction on both sides of the bottom plate 113 of the case 110. Here, as shown, the upper surface 161 of the pest collection and storage unit 160 may be formed substantially adjacent to the outer circumferential surface of the cylindrical rotating unit 130 in the open state.

As a result, the pests introduced into the cylindrical rotating part 130 by the attracting material applied to the light source part 120 or the cylindrical rotating part 130 are brought close to the heat source supply part 150 by rotating the cylindrical rotating part 130. do. On the other hand, since the heat source supply unit 150 radiates substantially 110 to 130 ° C. heat source with radiant heat, the cylindrical rotating unit 130 maintains a sufficient temperature for killing the introduced pests, for example, a temperature of substantially 75 ° C. Can be. Here, when the heat source supply unit 150 radiates a heat source substantially less than 110 ° C. with radiant heat, the cylindrical rotating unit 130 may not maintain a sufficient temperature for killing the introduced pests, and the heat source supply unit 150 may substantially Radiating heat source of more than 130 ℃ by radiant heat, it is not preferable because it has a negative impact on the operation of the components of the insect repellent device 100 including the cylindrical rotating portion 130 or these components. For reference, through the well-known fact that the farther away from the heat source supply unit 150, the pest introduced into the cylindrical rotating unit 130 through the opening 112a of the front cover plate 112 is substantially 75 ℃ or more. As a result, it does not immediately react to the rising temperature and dies.

In addition, a sliding plate 114 may be formed between the rear plate 111 and the lower portion of the cylindrical rotating part 130 to protrude diagonally diagonally toward the opening 160a of the pest collection and storage unit 160. That is, the sliding plate 114 is preferably formed so that the pests killed by the cylindrical rotating part 130 may fall into the opening 160a of the pest collection storage 160. Here, one end of the sliding plate 114 adjacent to the opening 160a of the pest collection storage 160 may be bent in a 'b' shape to facilitate the fall of the pest. For example, by the sliding plate 114 of the bent shape, the dead pests dropped by the rotation of the cylindrical rotating unit 130 can be smoothly slipped.

4 is a schematic cross-sectional view showing an installation embodiment of the insect trapping apparatus of FIG. 1A.

As shown, the upper outer surface 112b of the front cover plate 112 maintains a downward angle of substantially 6 ° to 9 ° with the ground, preferably a downward angle of 7.5 ° in this embodiment. Here, when the upper outer surface 112b of the front cover plate 112 has a downward angle of substantially less than 6 ° with the ground, the irradiation range of the ultraviolet light emitted from the light source unit 120 is limited, so that the efficiency of attracting pests is extremely high. When lowered and the upper outer surface 112b of the front cover plate 112 has a downward angle substantially greater than 9 ° with the ground, ultraviolet rays emitted from the light source unit 120 may directly affect the eyes or the skin. As described above, as the upper outer surface 112b of the front cover plate 112 makes a downward angle of 6 ° to 9 ° with the ground, the ultraviolet ray is extended while extending the irradiation range of the ultraviolet light emitted from the light source unit 120. This can directly suppress the effect on the eyes or skin. For example, when the insect repellent device 100 is installed at a height of 2 m or more from the ground, due to the inclination of 6 ° to 9 °, preferably 7.5 ° of the upper outer surface 112b of the front cover plate 112, The ultraviolet light of the light source unit 120 does not directly affect the human body within a distance of 3 m from the wall on which the insect trapping device 100 is installed. In addition, at a distance of 3 m or more from the wall, as is well known, the transmittance of ultraviolet rays in the air medium is low, so that harm to the human body can be minimized even when directly exposed to ultraviolet rays.

In the above description of the embodiments of the present invention with reference to the accompanying drawings, but described the insect repellent device having a specific shape and structure, the present invention can be variously modified and changed by those skilled in the art, such modifications and changes It should be interpreted as falling within the protection scope of the invention.

Figure 1a is a schematic front perspective view of the insect trapping apparatus according to an embodiment of the present invention.

FIG. 1B is a schematic rear perspective view of the insect trapping apparatus of FIG. 1A.

FIG. 2A is a schematic perspective view of an open state of the front cover plate of the case of the insect trapping apparatus of FIG. 1A. FIG.

2B is a schematic exploded perspective view of the insect trapping apparatus of FIG. 1A.

3 is a schematic cross-sectional view of the front cover plate of the case of the insect trapping apparatus of FIG. 2A in an open state.

4 is a schematic cross-sectional view showing an installation embodiment of the insect trapping apparatus of FIG. 1A.

Claims (8)

A case having a rear plate and an opening formed at an upper side thereof and having a front cover plate coupled to the rear plate to cover the front surface; A light source unit formed adjacent to the opening of the front cover plate to irradiate light of a predetermined wavelength to attract pests; A cylindrical rotating part formed in a cylindrical shape adjacent to the lower side of the opening of the light source part and the front cover plate, and having at least two wings having a predetermined shape on an outer circumferential surface thereof and rotating at a constant speed about a rotation axis; A driving unit for rotating the cylindrical rotating unit at a constant speed; A heat source supply part formed between the rear plate and a rear surface of the cylindrical rotation part and supplying a heat source to the cylindrical rotation part; A pest collection and storage unit which is formed adjacent to the lower side of the cylindrical rotating part, and has an opening in a direction of the cylindrical rotating part, and is detachable from the case; And A control unit for controlling the light source unit, the driving unit and the heat source supply unit, The case may further include a reflector formed between the light source unit and the back plate and reflecting the light source of the light source unit in a direction substantially perpendicular to the back plate, wherein the light source unit is formed to protrude outside the opening of the case. A reflection portion reflecting the primary reflection light by the reflection plate or the primary light source by the light source part is formed on the upper outer surface of the upper cover plate having the opening; Insect pest attracting material is applied to the outer circumferential surface between the blades provided in the cylindrical rotating part, The control unit may further include a sensor for detecting torque generated during forward or reverse rotation of the cylindrical rotation unit, and when a torque greater than or equal to a predetermined threshold is generated by the sensor, the cylindrical rotation unit may be rotated in a direction opposite to the rotation direction. An insect repellent device that rotates for a certain time. delete delete delete delete delete The method of claim 1, The case, Between the rear plate and the lower portion of the cylindrical rotating portion further comprises a sliding plate protruding diagonally in an oblique direction toward the opening of the pest collecting and storage portion, one end of the sliding plate is bent in a direction substantially perpendicular to the diagonal direction downward The insect repellent device, characterized in that formed. The method of claim 1, The front cover plate upper outer surface is formed to form an inclination angle with the ground at a downward angle of substantially 6 ° to 9 °.

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