KR20080107919A

KR20080107919A - Apparatus for capturing vermin

Info

Publication number: KR20080107919A
Application number: KR1020070056312A
Authority: KR
Inventors: 전찬혁
Original assignee: 주식회사 세스코
Priority date: 2007-06-08
Filing date: 2007-06-08
Publication date: 2008-12-11

Abstract

A harmful insect capturing apparatus is provided to capture more insects by inducing insects entered the main body inner structure of a housing toward the capturing apparatus. A harmful insect capturing apparatus(100) comprises: a body housing(110) in which the inlet port through which insect enter is formed; an induction unit(120) decoying an insect into the main body inner structure of the housing by irradiating the light to the outer side of the body housing; a capture unit(130) which is equipped in the body housing and catches the insect induced to the main body inner structure of the housing by the induction unit; and a reflective unit(140) which is equipped in the rear end of the induction unit, reflects the light irradiated from the induction unit, and is formed of the inclined surface inclined to the capture unit.

Description

Pest trapping device {Apparatus for Capturing Vermin}

1 is a perspective view showing a conventional general pest trap device:

2 is a cross-sectional view of FIG. 1;

3 is a cross-sectional view showing a pest capture device according to a first embodiment of the present invention;

4 is a perspective view illustrating a reflecting unit in which an angle of an inclined surface according to a modification of FIG. 3 is adjustable;

5 is a perspective view illustrating a detachable reflection unit according to another modification of FIG. 3;

6 is a perspective view illustrating a sliding unit that is slidingly moved according to another modification of FIG. 3;

7 is a sectional view of a pest trapping apparatus according to a second embodiment of the present invention;

8 is a sectional view of a pest trapping apparatus according to a third embodiment of the present invention;

9 is a sectional view of a pest trapping apparatus according to a fourth embodiment of the present invention;

10 is a sectional view of a pest trapping apparatus according to a fifth embodiment of the present invention;

11 is a sectional view of a pest trapping apparatus according to a sixth embodiment of the present invention;

12 is a sectional view of a pest trapping apparatus according to a seventh embodiment of the present invention;

13 is a sectional view of a pest trapping apparatus according to an eighth embodiment of the present invention;

14 is a sectional view of a pest trapping apparatus according to a ninth embodiment of the present invention;

100: pest capture device 110: body housing

112: doorway 120: decoy unit

130: capture unit 132: feed roll

134: recovery roll 136: capture adhesive surface

140: reflection unit 142: inclined portion

144: flat part 150: control panel

The present invention relates to a pest trapping device, and more particularly, to a pest trapping device that can improve the attraction and capture of pests by improving the structure.

Generally, pests refer to insects or animals that harm humans and domestic animals. Common types of pests found in confined spaces such as homes and offices include rats, cockroaches, dusters, ants, ticks, centipedes, and mosquitoes. These pests devour food and fabrics, causing considerable damage to people's lives. The feces also carry pathogens that are harmful to the body. In recent years, as these pests increase as the environment becomes more polluted, eliminating pests has become a big problem. Therefore, ordinary homes, companies or communities try to eliminate pests in various ways.

Among these pests, in order to remove flying pests such as flies, mosquitoes, moths, a device for capturing pests by attracting the pests with light and electrically attracting the attracted pests or by adhering to the sticky ones is widely used. Such pest trapping devices are particularly referred to by the term "reposer" or "insect".

With reference to Figures 1 to 2, an example of a conventional general pest capture device for removing the adventitious pests are as follows.

Conventional pest trapping device 10, the attracting lamp 13 is provided in the main body housing 11 to attract pests, the lower portion of the main housing 11 is provided with a string 15 is attracted by the attracting lamp 13 Attracted pests are configured to be caught. A plurality of inlets 12 are formed in the front upper portion of the body housing 11 through which pests are introduced into the body housing 11. In addition, a lower portion of the main housing 11 is provided with a control panel 17 for controlling the overall operation of the pest trapping device 10 such as the operation of the attraction lamp.

The pest trapping device may be placed on the floor or mounted on the wall W of the building as shown in FIGS. 1 and 2.

At this time, the attraction lamp 13 for attracting the pest is made of glass pesticides used in the interior, using the characteristics of the insect pests like the ultraviolet wavelength band of 340 ~ 380 nm wavelength range, so that the ultraviolet rays can be better transmitted It is common to manufacture by improving the case. Therefore, the general fluorescent lamp and the manufacturing method and materials are almost the same, and the electrical characteristics are also similar, so that a general lighting ballast having the same tube voltage and output power is used as a lighting device.

However, the conventional pest trapping device 10 has the following problems. First, generally, the string 15 is located below the attraction lamp 13, but in order to actually capture the pests, the insects should be attracted around the strap 15, but the insects are mainly attracted to the attraction lamp ( 13) I often fly around and go out. Second, the space on the back side of the attracting lamp 13 is wide, so that the pests that enter the main body housing 11 often roam the space on the back side and often exit through the road inlet 12, and eventually, The catch rate is lowered. Third, the attraction lamp 13 emits light not only in the front but also in the rear, and the inner surface of the main body 11 is located behind the attraction lamp 13. Light emitted backward from the attraction lamp 13 is absorbed or scattered on the inner surface of the main housing 11, and as a result, all the light energy emitted from the attraction lamp 13 is not used to attract pests. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide a pest trapping device capable of capturing more pests by actively attracting pests entering the body housing toward the trapping device.

Another object of the present invention is to reduce the remaining space except for the capture of the space inside the main body housing, a pest trapping device that can prevent the pests entered into the main body housing is not captured to go out through the inlet occurs In providing.

Still another object of the present invention is to provide a pest trapping device capable of changing the direction of light for use in attracting pests even after the light emitted through the attraction lamp is emitted to the rear.

In order to achieve the above object, the pest trapping apparatus of the present invention includes a main body housing, an attraction unit, a capture unit and a reflection unit.

The main body housing constitutes an appearance of the device, and an entrance through which a pest enters and exits may be formed at one side. Here, the doorway may be formed of at least one.

The attraction unit is provided inside the main body housing, and may radiate light attracting the pest to the outside. In addition, the attraction unit is preferably irradiated with light in the ultraviolet region, which is effective in attracting pests, and as the attracting unit, it is preferable to use a light emitting diode that emits light in the ultraviolet region and has good brightness and lifetime. good.

The capture unit is provided inside the main body housing, and may capture pests attracted into the main body housing by the attracting unit. The capture unit may generally be located below the attracting unit, but the location thereof is not limited.

The reflection unit may be provided on the rear side of the attraction unit to reflect the light emitted from the attraction unit, and may include an inclined surface that is inclined toward the capture unit.

On the other hand, the attraction unit may be formed in plural number and spaced apart from each other by a predetermined interval. In addition, a plurality of reflection units may be formed to correspond to each of the spaced attracting units.

The reflection unit may be arranged in various ways. Specifically, the reflection unit may be such that the inclined surface is located between the attracting units disposed adjacent to each other. Pests may enter the interior of the main housing through gaps between the attracting units spaced apart from each other, and the pests contacting the inclined surface of the reflective unit may change its path or hit the inclined surface of the reflective unit. It may fall to the capture unit.

The reflection units may be spaced apart from each other in front and rear. As a result, in the case of reflecting light from each of the reflection units toward the capture unit, the light may not be disturbed by other adjacent reflection units.

In addition, the reflection unit may be disposed at regular intervals from the attraction unit. That is, the attracting units may be arranged in a vertical direction, and may be arranged in various forms such as radial or zigzag shapes. The reflective unit maintains a constant distance from the rear even if the attracting units are arranged in any form. Can be arranged.

On the other hand, the reflection units may be formed to be different from the inclination angle of the inclined surface. In the present invention, the reflection unit is formed such that the angle of inclination gradually decreases downward. This is to allow the light reflected on the inclined surface of each of the reflection units to move to the capture unit without being disturbed by other reflection units when the capture unit is located below the attracting unit.

In addition, the reflection unit may be arranged in a multiple structure of the front and rear. That is, by arranging at least one other reflecting unit to the rear of the reflecting unit arranged in the vertical direction, it is possible to reflect the remaining light that is not reflected by the reflecting unit located in the front, whereby most of the light traveling backward from the attraction Can be sent to the capture device side.

On the other hand, the reflector may have a plane extending from the inclined surface. The plane may reflect most of the light irradiated backward from the attraction unit back toward the attraction unit.

The inclined surface may be formed as a flat surface, and may also be formed as a curved surface having a curvature. The center of each curvature may be formed on the capture unit side so that a large amount of light reflected from the inclined surface formed as the curved surface may travel toward the capture unit side.

The reflection unit may be rotatably coupled to adjust the inclination angle arbitrarily, and the reflection unit may be detachably coupled to the body housing.

In addition, the reflection unit may be coupled to be movable within the body housing, and in particular, the reflection unit and the body housing may allow relative sliding movement.

There is no limitation on the form of the capture unit, the capture unit may be configured to include, for example, sticky one side is made of an adhesive material. And, the capture unit includes a supply roll for supplying the sticky and a recovery roll for recovering the sticky feed supplied from the supply roll, the supply roll and the recovery roll is spaced apart a predetermined interval between the supply roll and the recovery roll It may have a configuration in which the capture adhesive surface is formed.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of the present embodiments, the same configuration and the same reference numerals are used for the same configuration and additional description thereof will be omitted.

First, referring to Figure 3, the basic configuration of the pest trapping apparatus according to the first embodiment of the present invention will be described. 3 is a cross-sectional view showing a pest capture device according to a first embodiment of the present invention.

As shown in the drawing, the pest trapping apparatus 100 of the present invention includes a main body housing 110, a attracting unit 120, a catching unit 130, and a reflecting unit 140.

The main body housing 110 is formed in the form of a box to form the appearance of the device, one side is formed with a plurality of entrances and exits 112 which are spaces attracting pests. In this embodiment, as shown in FIG. 3, a total of three entrances and exits 112 are formed on the front surface of the body housing 110 at regular intervals.

The body housing 110 may be appropriately mounted at a target position to be captured, such as placed on the floor or mounted on the wall (w) of the building, as shown in FIG. 3.

The attraction unit 120 may attract pests to the inside of the body housing 110 by irradiating light to the outside of the body housing 110. The attraction unit 120 is formed in plural, and are aligned at regular intervals in the vertical direction. In the present embodiment, it is preferable to use a light emitting diode (LED) capable of irradiating light to the ultraviolet region as the attracting unit 120, but is not limited thereto.

Here, the light emitting diode has an advantage of relatively high efficiency compared to other lamps to save power consumption. In addition, the fluorescent and mercury substances caused by using the fluorescent lamp as the attracting unit 120 may be exposed to the outside, causing environmental problems, and also safety risks such as explosion risk, fire risk due to heat generation There is no problem, and the service life is long and maintenance cost is reduced, and the trouble of lamp replacement is eliminated.

In addition, by applying a light emitting diode to the attraction unit 120, it is possible to miniaturize the device.

Meanwhile, when the attracting unit 120 includes the light emitting diode, the attracting unit 120 may further include a base board having a plate shape for supplying power by mounting the light emitting diode.

The capture unit 130 may be located under the attracting unit 120, and may capture pests attracted into the body housing 110 by light emitted from the attracting unit 120. In FIG. 3, the capture unit 130 is configured to be installed at the lower portion of the attraction unit 120, but is not limited thereto, and may vary in the rear space of the attraction unit 120 and other internal spaces of the main body housing 110. Of course, it can be installed.

In this embodiment, as an example of the capture unit 130, it is possible to use a sticky is formed with an adhesive surface to capture pests on one surface.

That is, the capture unit 130, when applying the sticky, the supply roll 132 for supplying the sticky, recovery roll 134 for recovering the sticky supplied from the supply roll 132, The supply roll 132 and the recovery roll 134 may be configured to include a capture adhesive surface 136 formed between the supply roll 132 and the recovery roll 134 spaced apart at a predetermined interval.

In this embodiment, by configuring the capture unit 130 in a roll manner to continuously provide the sticking in this way, a certain amount of the sticky used is wound around the recovery roll 134, the new capture adhesive surface 136 The new sticky may be unwound from the supply roll 132 to supply the continually retaining ability.

Meanwhile, in the present embodiment, as shown in FIG. 3, the capture unit 130 is illustrated below the attracting unit 120. However, the capturing unit 130 is disposed at the rear of the attracting unit 120. Etc. may be disposed at various positions within the body housing 110.

In addition, the capture unit 130 is not limited to the sticky form of the roll form described above, it can be configured through a variety of capture means such as an electric shock or drug injector by a high pressure current.

The reflection unit 140 is located at the rear of the attraction unit 120 and reflects a part of the light emitted from the attraction unit 120. The reflection unit 140 is formed in plurality in correspondence with the attracting unit 120 composed of a plurality of.

The reflection unit 140 includes an inclined portion 142 having an inclined surface 143 inclined toward the capture unit 130.

The reflection unit 140 is preferably formed corresponding to the attraction unit. That is, the reflection unit 140 is located at the rear between one of the attraction unit 120 and another adjacent attraction unit.

In the reflective unit 140, the inclined portion 142 forms an inclined surface 143 inclined toward the capture unit 130, and the flat portion 144 extending from the lower side of the inclined portion 142 is A flat surface 145 facing the doorway 112 is formed.

The light irradiated from the attracting unit 120 may travel in all directions, but among the lights irradiated backward, a part of the light is reflected by the reflection unit 140 in response to the incident angle. That is, the path of the light reflected from the inclination surface 143 among the light irradiated from the attracting unit 120 changes the traveling path according to the inclination angle of the inclination surface 143, and in this embodiment, the capture unit 130 It reflects light downwards.

Here, by irradiating light toward the capture unit 130, the pests introduced into the body housing 110 may be attracted to the capture unit 130, which is a brighter area.

In addition, the light incident on the plane 145 of the light irradiated from the attracting unit 120 may be irradiated to the outside through the entrance 112 formed in front of the main body housing 110.

When configured in this way, the pests attracted through the light irradiated from the attracting unit 120 is the main housing 110 through a gap formed between the one attracting unit 120 and the other attracting unit 120 adjacent. It comes in deep inside. By the way, the insect pests are blocked by the reflection unit 140 changes the progress path or hit the inclined surface 143 falls down. Pests having changed the progress path may proceed to the inner bottom side of the main body housing 110, or may proceed to the inner rear side. Here, the pests that proceed to the inner bottom side of the main body housing 110 or fall downward by hitting the inclined surface 143 may be captured by the capture unit 130. In FIG. 3, the capture unit 130 is installed below the attraction unit 120, but the capture unit 130 is also installed at the rear of the attraction unit 120, that is, at the inner rear side of the main housing 110. It is possible to capture pests traveling to the back side inside the housing 100.

In this embodiment, by minimizing the space between the reflective unit 140 and the inner surface of the body housing 110 can contribute to the miniaturization of the device, by eliminating the space for the attracted pests can fly, the capture The capture rate by the unit 130 can be increased.

On the other hand, the front of the pest capture device according to the present embodiment is provided with a control panel 150, the lighting of the attracting unit 120, the operation of the capture unit 130 or adjusting the inclination angle of the reflection unit 140. Etc. can be controlled.

4, a modification of the reflection unit used in the present invention will be described. 4 is a perspective view illustrating a reflection unit in which an angle of an inclined surface according to the modification of FIG. 3 is adjusted.

As shown in the drawing, the reflection unit 160 of the pest trapping apparatus 100 of the present invention includes an inclined portion 162 and a flat portion 164. The inclined portion 162 is rotated by one side coupled to the flat portion 164, the inclined portion 162 may increase or decrease the inclination angle with respect to the flat portion 164. Here, all the inclined portions 162 of the reflective unit 160 can be rotated integrally or individually to adjust the inclination angle of the inclined surface 163.

Meanwhile, the inclination angle θ means an angle between the plane of the flat portion 164 and the inclined surface of the inclined portion 162.

An inclination adjustment unit 141 for changing + changing the inclination angle θ of the inclination unit 162 may be provided separately, and the inclination adjustment unit 141 may be driven by a driving force or manually operated. have. The inclination adjustment unit 141 may be applied to a hinge device including a hinge axis, but is not limited thereto.

Here, the inclined portion 162 of each of the reflection unit 160 may be formed to be inclined at different inclination angles, respectively, and capture the light irradiated from the attracting unit 120 through the inclined surface 163 ( In order to reflect toward 160, the inclined surface of the inclined portion 162 may be further inclined toward the flat portion 164 as the upper portion of the reflective unit 160 is positioned upward. This is to transmit a large amount of light to the capture unit 130 through the inclined surface as the reflection unit 160 located on the upper side.

5, another modification of the reflection unit used in the present invention will be described. 5 is a perspective view illustrating a sliding unit that is slidingly moved according to another modification of FIG. 3.

As shown in the drawing, the reflection unit 170 may be formed of one plate, and a plurality of inclined portions 172 are formed on the plate. Specifically, the inclined portion 172 is formed in a square shape, one side is fixed on the plate and the other portion can be rotated around the one side is fixed and separated.

Here, the inclined portion 172 is formed at a predetermined interval, the plate forms a flat portion 174 in a portion corresponding between the inclined portion 172 and the other inclined portion 172 adjacent.

As such, a plurality of the inclined portion 172 and the flat portion 174 is formed on one plate and installed at the rear of the attracting unit of the pest trapping device so that the user can reflect light in a desired direction.

On the other hand, the plate is formed on the side of the first guide 176 to be slidable, and correspondingly coupled to the first guide 176 on the inner surface of the main body housing 110 for relative sliding The second guide 178 is formed.

Reflecting unit 170 of the present invention through the first guide 176 and the second guide 178 can be moved up and down in the body housing 110 to arbitrarily route the path of light irradiated from the attracting unit Adjustable In addition, the reflective unit 170 may be easily detached from the body housing 110 through a sliding guide.

With reference to FIG. 6, another modification of the reflection unit used by this invention is demonstrated. 6 is a perspective view illustrating a detachable reflection unit according to another modification of FIG. 3.

As shown in the drawing, a coupling part 186 is formed at the side of the reflection unit 180 to be coupled to the body housing 110. That is, the coupling part 186 is a coupling protrusion 187 formed at the side of the reflection unit 180 and the coupling groove 189 formed in the main body housing 110 to receive and couple the coupling protrusion 187. It is formed, including.

As such, the reflection unit 180 may be coupled to the body housing 110 according to a user's selection, and thus may be easily installed.

In the present embodiment, the coupling part 186 is configured as a protrusion and a groove, but is not limited thereto. In addition, the reflection unit 180 may be connected to the body housing through various coupling methods such as a hook method, a slide method, and an interference fitting method. Of course, it can be coupled to 110.

In addition, in the present invention, the reflective unit 180 is individually configured, but in another embodiment, each of the reflective units may be integrally configured to be connected to each other by one frame. In this case, the entire frame may be coupled to the main body housing through the various coupling methods described above.

Hereinafter, with reference to Figures 7 to 13, in various other embodiments of the present invention, a cross-sectional view showing a variety of reflecting units. Here, in order to clearly describe the features of each of the other embodiments, description of overlapping contents among the above-described first embodiment will be omitted.

Referring to Figure 7, the configuration of the pest capture device according to a second embodiment of the present invention will be described. The pest trapping apparatus 200 according to the present embodiment includes a body housing 210 that forms an appearance similar to the first embodiment described above, and a light provided to the inside of the body housing 210 to attract pests. Attracting unit 220 and irradiating the capture unit 230 and the attracting unit 220 which is provided inside the main body housing 2100 and positioned below the attracting unit 220 to capture the attracted pests Located at the rear of the and comprises a reflection unit 240 for irradiating the light irradiated to the rear from the attracting unit 220 toward the capture unit 230 side.

The reflection unit 240 in the present embodiment is formed in a plurality, it may be mounted on the rear of the attracting unit 220 in a zigzag shape. The reflection unit 240 includes an inclined portion 242 formed to be inclined toward the capture unit 230 and a flat portion 240 extending from the inclined portion 243.

The pest capture device 200 of the present embodiment is configured in this way, and the light reflected from one reflective unit 240 installed above is not blocked by the other reflective unit positioned below the capture unit ( 230) a large amount is investigated.

In addition, the pest capture device 200 of the present embodiment changes the path of the pest introduced into the body housing 210 by the inclined surface 243 of the inclined portion 242 toward the capture unit 230, Higher catch rates can be obtained by impacting flying pests so that they fall onto the capture adhesive surface 236.

Referring to Figure 8, when explaining the configuration of the pest trapping apparatus according to a third embodiment of the present invention. The pest capture device 300 of the present embodiment includes a plurality of reflection units 340, each of the reflection units 340 is formed in the step shape is mounted to the rear of the attraction unit 330. That is, the reflection unit 340 is formed so that the distance from the attracting unit 320, the lower the installation unit.

In this way, it is reflected from each of the reflection unit 340 is less disturbed in the way to move it can be irradiated with a large amount of light toward the capture unit 330.

Referring to Figure 9, the configuration of the pest capture device according to a fourth embodiment of the present invention will be described. The pest capture device 400 according to the present embodiment includes a body housing 410, a attracting unit 420, a catching unit 430, and a plurality of reflecting units 440, similar to the above-described embodiments. The reflection unit 440 is located closer to the attracting unit 430 as the lower side. In addition, the inclination angle of the inclined portion 442 is made smaller as the reflection unit 440 positioned below the plurality of reflection units 440.

Through this, the light irradiated from the attracting unit 420 is reflected on the inclined surface 443 of the inclined portion 442, but the inclination angle becomes smaller as the reflective unit 440 located below (θ ₁ > θ). ₂ > θ ₃ > θ ₄ ), and consequently can be irradiated to the capture adhesive surface 436 of the sticky whole.

Here, the inclination angle of each inclined portion 442 may be optimized according to the distance between the reflection units 440 adjacent to each other.

Referring to Figure 10, the configuration of the pest capture device according to a fifth embodiment of the present invention will be described. Example insect trapping device 500 of this embodiment, similar to the embodiments described above, includes a main housing 510, the attraction unit 520, capturing unit 530 and the reflection unit 540, the reflecting unit 540 is composed of a plurality, it is formed only of the inclined portion 146 without a flat portion.

The reflection unit 540 may be installed at the rear of each attracting unit 520 composed of a plurality, the inclination angle of each inclined portion 542 is the same.

The reflection unit 540 is composed of all the inclined portion 543 so that all the light irradiated backward from the attracting unit 520 is mostly irradiated toward the capture unit 520, thereby the capture unit 520 It is possible to shine brighter than this, which is advantageous for attracting pests.

In FIG. 10, the reflection units 540 are arranged in a line, but are not limited thereto. The reflection units 540 may be spaced apart from each other in the horizontal and vertical directions.

Referring to Figure 11, the configuration of the pest capture device according to a sixth embodiment of the present invention will be described. The pest trapping device 600 according to the present embodiment includes a body housing 610, a attracting unit 620, a catching unit 630, and a reflecting unit 640, similarly to the above-described embodiments. 640 includes an inclined portion 642 in which the inclined surface 643 forms a curved surface and a flat portion 644 extending downward from the inclined portion 642.

The inclined surface 643 is formed to have a predetermined curvature, and the center of each curvature is located at the capture unit 630 side. As a result, the light irradiated from the attracting unit 620 is reflected on the inclined portion 642 and then proceeds toward the center of each curvature. The reflected light eventually captures the adhesive surface of the capture unit 630. Is examined 636.

Here, by narrowing the distance between the rear surface of the flat portion 644 and the inner surface of the main body housing 610, it is preferable not to provide a space for roaming pests.

Referring to Figure 12, the configuration of the pest capture device according to a seventh embodiment of the present invention will be described. The pest trapping apparatus 700 of the present embodiment includes a body housing 710, a attracting unit 720, a catching unit 730, and a reflecting unit 740, similar to the above-described embodiments. 740 is composed of one inclined portion 742.

The reflection unit 740 is located at the rear of the attraction unit 720, the inclination angle of the inclined portion 742 is kept constant. The inclination angle of the inclined portion 742 is kept constant so that the light irradiated from each attracting unit 720 is reflected on the inclined surface 743 of the inclined portion 742, and then proceeds in a similar direction.

That is, the inclined portion 742 is formed to be inclined at a predetermined angle so that the light irradiated backward from the attracting unit 720 is mostly irradiated to the capture adhesive surface 736 of the capture unit 730 to attract the pests attracted. It can be directed to the capture adhesive surface 736.

In addition, the pest introduced through the inlet 712 of the body housing 710 by the inclined surface of the inclined portion 742 is changed to the progress path to the capture unit 730 side or hit the inclined surface after the It falls to the capture adhesion surface 736, and is captured.

Referring to Figure 13, the configuration of the pest capture device according to an eighth embodiment of the present invention will be described. The pest trapping device 800 according to the present embodiment includes a body housing 810, a attracting unit 820, a catching unit 830, and a reflecting unit 840, similar to the above-described embodiments. The 840 is formed in a multiple structure including a plurality of first reflecting units 842 and a second reflecting unit 844 positioned behind the first reflecting unit 842.

The first reflecting unit 842 is composed of a plurality, so as to come by a height corresponding to the attraction unit 820 formed spaced apart from each other at a predetermined interval. The second reflecting unit 844 is located at the rear of the first reflecting unit 842, and the upper side is formed in a curved surface, and the lower side is formed in a flat surface.

Since the reflection unit 840 is composed of two, some of the light irradiated from the attracting unit 820 is first reflected by the first reflection unit 842, and then reflected by the first reflection unit 842 The light continues to the rear without being reflected by the second reflecting unit 844.

As such, the reflection unit 840 is configured to double to reflect most of the light irradiated backward from the attracting unit 820 toward the capture unit 830, or the doorway of the main body housing 810. 812 can be irradiated to the outside.

Referring to Figure 14, the configuration of the pest capture device according to a ninth embodiment of the present invention will be described. The pest trapping device 900 of the present embodiment includes a body housing 910, a attracting unit 920, a catching unit 930, and a reflecting unit 940 similarly to the above-described embodiments.

On the other hand, the present embodiment shows that it can be composed of a plurality of the capture unit 930. That is, the capture unit 930 may be composed of a first capture unit 932 and a second capture unit 934, the first capture unit 932 as described in the various embodiments, attracted Although configured to be located below the unit, the second capture unit 934 is configured to be located behind the attracting unit 920.

The light irradiated from the attracting unit 920 may pass through the plurality of reflection units 940 spaced apart from each other, as shown in the drawing, and then proceed to the second capture unit 934.

In addition, when all surfaces of the reflection unit 940 are formed as reflection surfaces, the light reflected on the reflection surface inclined toward the second capture unit 934 may travel toward the second capture unit 934. have.

In this way, a higher capture rate can be obtained by providing a plurality of capture units on the path of the light reflected by the reflection unit 940.

Having described the preferred embodiments according to the present invention as described above, the fact that the present invention can be embodied in other specific forms in addition to the embodiments described above without departing from the spirit or scope of the present invention It is obvious to those who have it.

Therefore, the above-described embodiments are to be considered as illustrative and not restrictive, and thus, the invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

Pest capture device according to the present invention having the above configuration has the following effects.

Firstly, a reflection unit having an inclined surface inclined toward the capture unit is installed at the rear of the attraction unit to attract the pest, and some of the light emitted from the attraction unit can be reflected to the capture unit to induce the pest to the capture unit. In addition, the flying insects can be changed to the catching unit side to move closer to the catching radius of the pests, and after the insects hit the inclined surface, the pests can fall to the catching adhesive surface of the catching unit to catch. There is.

Second, by minimizing the space between the attracting unit and the inner surface of the main body housing, the pests attracted into the main body housing can be prevented from going out through the doorway without being trapped, but rather flying to the catching unit. There is an effect that can improve the rate.

Third, by reflecting the light irradiated to the rear from the attracting unit to proceed to the outside of the device through the entrance to reinforce the brightness of the light irradiated to the outside, and also to be irradiated to the capture unit side installed inside the main body housing It can be used to guide the pest attracted into the housing to the capture unit side, there is an effect that can be used to attract pests as much as possible without wasted light.

Fourth, the inclined portion of the reflection unit is located at the height corresponding to the attraction unit and other adjacent attracting units so that the pests attracted by the light irradiated from the attracting unit hit the inclined surface of the inclined portion, and as a result The silver has an effect that can be captured to the capture adhesive surface of the capture unit by falling down as it is attracted.

Claims

A main body housing formed with an entrance through which a pest enters and exits;

A attracting unit mounted inside the main housing and attracting the pest to the outside to attract the pest into the main housing;

A capture unit provided inside the main body housing to capture pests attracted by the attracting unit; And

A reflection unit provided on a rear side of the attraction unit to reflect light emitted from the attraction unit and having an inclined surface formed to be inclined toward the capture unit;

Pest capture device comprising a.

The method of claim 1,

The attraction unit is formed of a plurality of spaced apart from each other at a predetermined interval, and the plurality of reflection units are formed to correspond to each of the attracting unit spaced apart from each other, characterized in that the pest capture device.

The method of claim 2,

And the inclined surfaces of the reflection unit are disposed between the attraction units located adjacent to each other.

The method of claim 2,

The reflecting unit is a pest capture device, characterized in that arranged in multiple over the front and rear.

The method of claim 2,

The reflecting unit is a pest trap device, characterized in that arranged to be kept at a certain distance from the attraction unit.

The method of claim 2,

Each of the reflecting unit is a pest trap device, characterized in that having a different inclined surface.

The method of claim 1,

And the reflection unit has a plane extending from the inclined surface.

The method of claim 1,

The inclined surface is a pest trap device, characterized in that formed in a curved surface having a curvature.

The method of claim 1,

And the reflection unit rotates to adjust an inclination angle of the inclined surface.

The method of claim 1,

And the reflective unit is detachably coupled to the body housing.

The method of claim 1,

The reflecting unit is a pest trap device, characterized in that coupled to the body housing to be movable.

The method of claim 11,

The pest capture device, characterized in that the reflective unit and the main body housing relative sliding movement.

The method of claim 1,

The capture unit is a pest capture device, characterized in that the capture unit is provided on the lower side of the attraction unit.

The method of claim 1,

The capture unit is a pest capture device, characterized in that it comprises a sticky one side formed of an adhesive surface.

The method of claim 14,

The capture unit includes a supply roll for supplying the sticky stick and a recovery roll for recovering the sticky stick supplied from the feed roll;

The feed roll and the recovery roll is spaced apart a predetermined interval pest capture device, characterized in that the capture adhesive surface is formed between the supply roll and the recovery roll.

The method of claim 1,

The attraction unit is a pest trap device, characterized in that for irradiating light in the ultraviolet region.

The method of claim 16,

The attraction unit is a pest trap device, characterized in that it comprises a light emitting diode (LED).