WO2024053482A1 - Insect trap - Google Patents

Abstract

Provided is a small-sized insect trap (1) that expels pests such as drosophilae.　An insect trap (1) of the present invention comprises: a housing (5) having an opening (7) on an upper portion thereof; an LED module (60) that is arranged inside the housing (5) and emits irradiation light toward the opening (7); and an insect-trapping sheet (90) that is arranged in the vicinity of the LED module (60) inside the housing (5). The housing (5) is assembled such that inner sides of a front side housing (3) and a rear side housing (4) face each other. The LED module (60) comprises a plurality of surface-mounted LEDs (65), and includes at least an LED (65) that emits light attracting phototactic pests.

Description

insect trap

The present invention relates to an insect trap.

In general, a fly is a general term for small flies with a body length of about 2-3 mm, and includes fruit flies, flea flies, butterflies, mushroom flies, house flies, etc. Traditionally, fly flies do not transmit pathogenic bacteria, but they remain on the surfaces of tableware and food, enter the interior of containers, get on plants and excrement, and are unpleasant to look at.

For general households and restaurants, it is an important issue to exterminate pests such as flies to prevent them from flying around and to give a sense of cleanliness. Furthermore, for health reasons, it is desirable to avoid using insecticides as much as possible, and it is desirable to use methods other than insecticides to exterminate pests.

In addition, once a large number of small flies appear, it is difficult to completely exterminate them because they are large in number and small.Furthermore, small flies can enter even the slightest gap, and they can occur even with a small amount of food. It is possible.

Traditionally, fly paper that is hung from the ceiling has been used as a method for exterminating pests such as fly flies. However, many people find this fly paper uncomfortable because the sticky side is exposed and the trapped flies can be seen directly. Particularly in home kitchens and restaurants, pests such as flies can be seen and cause discomfort. In addition, there was also a hygiene problem as the adhesive surface was left with flies and the like attached to it. Furthermore, since it may come into contact with people's clothes or hands, there are also problems in that the user feels uncomfortable and the adhesive strength of the adhesive surface decreases, reducing the capture ability.

For this reason, it is known that flypaper is placed inside the housing by folding the inside of the paper with an adhesive surface so that people cannot directly see the flypaper (for example, , see Patent Document 1).

In addition, it is widely known that insect pests such as fly flies are phototactic when stimulated by light, and the flies are attracted with an ultraviolet light source that exhibits phototaxis, and then captured using an insect-trapping film placed inside an insect trap. A device is known (for example, see Patent Document 2).

Japanese Patent Application Publication No. 2004-113081 Japanese Patent Application Publication No. 2010-279254

Therefore, the present invention takes advantage of the fact that flies and the like have phototactic properties and effectively utilizes ultraviolet rays to guide flies and the like to insect trapping paper and trap them. To provide an insect trap that is hygienic, causes little discomfort, is small and easy to handle, even when used in the field.

In order to achieve the above object, the insect trap of the present invention includes a casing having an opening at the top, an LED module disposed inside the casing and emitting irradiation light toward the opening; In an insect trap including an insect trap disposed inside and below the LED module,
The casing is assembled in such a way that the front casing and the back casing are aligned on the inside,
The LED module has a plurality of surface-mounted LEDs, and is characterized in that it includes at least an LED that emits light that attracts phototactic pests.

According to the present invention, by using a small and easy-to-handle insect trap that irradiates ultraviolet rays or the like to attract flies and other insects, it is possible to effectively trap pests such as flies and maintain a sanitary environment. Can be done.

1 is a schematic perspective view of an insect trap in Example 1. FIG. 3 is a top view and a bottom view of the insect trap in Example 1. FIG. 3 is a front view and a left side view of the insect trap in Example 1. FIG. FIG. 3 is a right side view and a rear view of the insect trap in Example 1. FIG. (A) An enlarged perspective view of the rear view of FIG. 2 near mark A, and (B) and (C) a schematic diagram showing a state in which the connectors are connected. (A) A plan view of an example of the LED module, and (B) a plan view of another example of the LED module. 3 is a top view, a front view, a side view, and a bottom view of the attachment in Example 1. FIG. (A) An explanatory diagram showing a procedure for attaching insect-trapping paper to an attachment in Example 1, and (B) an explanatory diagram showing a state in which insect-trapping paper is attached to an attachment in Example 1. FIG. 2 is a schematic perspective view of an insect trap in Example 2. (A) A top view, (B) a front view, (C) a bottom view, and (D) a right side view of the insect trap in Example 2. FIG. 7 is a schematic perspective view showing a state in which a lid portion is opened in Example 2. FIG. (A) An explanatory diagram showing the initial state in which the insect-trapping paper is attached to the guide in Example 2, (B) An explanatory diagram showing the state in which the insect-trapping paper is attached to the guide, (C) An explanatory diagram showing the state in which the insect-trapping paper is attached to the same guide. It is an explanatory diagram.

As mentioned above, it has been widely known to exterminate pests such as fly flies by adsorbing them to adhesive sheets. It is also known that

In the present invention, an LED module 60 that emits light such as ultraviolet rays is arranged near the opening 7 of the insect trap 1, and pests such as flies that are attracted to the ultraviolet rays are efficiently guided into the housing 5. To provide an insect trap 1 that exterminates insects by trapping them on insect trapping paper 90 arranged in a casing 5.

The insect trap 1 of the present invention is small and can be easily placed in a kitchen or a wall in a kitchen where flies and the like tend to gather, and can guide and trap flies and the like into the insect trap 1. This allows pests such as flies to be efficiently exterminated.

Next, an insect trap 1 according to an embodiment of the present invention will be described with reference to the drawings. The embodiments described below show specific examples of the present invention, so the arrangement, functions, numerical values, etc. of the components described in the embodiments are just examples, and the present invention is not limited to these embodiments. The scope of the above shall not be construed as being limited. Furthermore, in the present invention, a direction (plane) parallel to the ground (floor surface) is referred to as a horizontal direction (horizontal surface), and a direction (plane) perpendicular to the ground (floor surface) is referred to as a vertical direction (vertical surface).

FIG. 1 shows a schematic perspective view of the entire insect trap 1 in Example 1.

As shown in FIG. 1, the housing 5 has a substantially rectangular parallelepiped shape and has an opening 7 at the top. The casings 5 are assembled in such a manner that the front casing 3 and the back casing 4, which are substantially rectangular parallelepiped in shape and have substantially similar shapes, are aligned on the inside. Both the front side housing 3 and the back side housing 4 have a substantially rectangular parallelepiped shape with four corner portions formed into curved surfaces.

The front casing 3 and the back casing 4 are both made of plate-shaped members molded from synthetic resin, etc., and have a substantially U-shaped cross-sectional shape in the horizontal direction, and an approximately L-shaped cross-sectional shape in the vertical direction. It is letter-shaped.

As shown in FIG. 1, a plurality of ribs 21 are provided in the vertical direction inside the back case 4, and serve to maintain the structural strength of the back case 4. Although not clearly shown in the figure, similar ribs are also provided inside the front casing 3. A plurality of ribs 21 are provided not only in the vertical direction but also in the horizontal direction intersecting the vertical direction, and together with the ribs 21 in the horizontal direction, the ribs 21 are formed in a grid shape as a whole.

A substantially rectangular opening 7 is formed in the upper part of the housing 5. Inside the opening 7 , two LED module mounting stands 67 for supporting both ends of the LED module 60 are provided on the inner surface of the back housing 4 . Further, a board cover 50 is arranged adjacent to one LED module mounting base 67. The board cover 50 covers a power supply board (not shown) that supplies power to the LED module 60. Moreover, insect-catching paper 90 is arranged near the LED module 60.

Although not shown, a vertical, substantially I-shaped notch is formed near the center of the front housing 3, and a substantially rectangular parallelepiped-shaped attachment 40 is removably attached to this notch. be done.

In the first embodiment, the housing 5 has a substantially rectangular parallelepiped shape, but may have any other suitable shape such as a cube, a triangular prism, a truncated pyramid, a cylinder, a cone, a hemisphere, or the like.

2A is a top view and a bottom view of the insect trap in Example 1, FIG. 2B is a left side view and a front view of the insect trap in the same example, and FIG. 2C is a right side view and a bottom view of the insect trap in the same example. FIG.

As shown in the top view of FIG. 2A, a plurality of guide portions 20 are provided on the inner wall of the front flat portion 10 of the front housing 3 in a vertically aligned manner. The guide section 20 is a guide for guiding the insect-trapping paper 90 into the casing 5 through the opening 7 and setting it at a predetermined location. The guide portion 20 has a substantially triangular pyramid shape, and its horizontal cross section is an isosceles triangle. The base side of the isosceles triangle constituting the guide section 20 forms a vertical surface of a triangular pyramid, and this vertical surface extends inside the front housing 3 along the vertical direction of the inner wall of the front flat section 10. They are placed in close contact. The apex of the triangular pyramid is placed close to the inside of the front housing 3 on the side of the opening 7 of the front housing 3, and the isosceles triangle having a horizontal cross-sectional shape becomes relatively larger toward the bottom of the front side. It is a form that changes to In addition, in the first embodiment, an example was shown in which the guide portions 20 are arranged at four locations inside the front housing 3, but the guide portions 20 are not limited to four locations, but may be arranged at two to eight locations depending on the size of the housing 5, etc. It can be increased or decreased as appropriate.

As shown in the front view and left side view of FIG. 2B, a power switch 22 for turning on/off the LED module 60 is provided on the back side surface portion 17 of the back case 4.

As shown in the rear view of FIG. 2C, substantially circular foot portions 25 are provided at four locations on the surface of the back side flat portion 15 of the back side housing 4. The foot portion 25 secures a certain gap so that when the insect trap 1 is installed on a wall, the wall and the insect trap 1 do not come into close contact with each other, and the installation state is stable. It functions as a protective part to prevent damage to the product. In addition, wall mounting holes (daruma holes) 27 are provided in two foot portions 25 provided on the upper side (opening 7 side) of the back side flat portion 15. The insect trap 1 can be easily placed by hooking a hook placed on the wall into the wall mounting hole (daruma hole) 27.

In order to make it easier to mount the casing 5 on a wall, the feet 25 of the casing 5 are made of anti-slip material such as rubber, and the installation surface that has the property of attracting magnets, such as a steel plate, is equipped with a rubber magnet. An adhesive member such as adhesive tape may be placed thereon.

Further, a light color changeover switch 24 for switching the light color of the LED module 60 is provided above the recess 29 in the back plane portion 15.

The size of the housing 5 is approximately 100 mm to 450 mm in width, preferably 200 mm to 350 mm, and more preferably 250 mm to 300 mm. Further, the depth of the housing 5 is about 20 mm to 150 mm, preferably 30 to 100 mm, more preferably 40 to 60 mm, and the height is about 50 mm to 200 mm, preferably 80 mm to 160 mm, and more preferably about 100 mm to 140 mm.

FIG. 3 is an enlarged view of the area around mark A in the rear view of FIG. 2C. As shown in FIG. 2A, the lower right corner of the back surface 15 of the back case 4 includes a recess 29, a horizontal cable introduction groove 30 connected to the recess 29, and a vertical cable introduction groove 30. A cable introduction groove 31 is recessed. An insertion port 32 is arranged within the recess 29 . The socket 32 has a power input terminal, and when the connector 36 of the cable 37 is electrically connected to the socket 32, external power is input to the housing 5.

FIG. 3(B) is a schematic diagram showing a state in which the connector 36 is connected to the insertion port 32. The cable 37 is fixed by fitting into the horizontal cable introduction groove 30, and when extending the cable 37 in the vertical direction, the cable 37 is fixed by fitting into the cable introduction groove 30 in the horizontal direction. It can be fixed by fitting 37. Further, since the cables 37 do not protrude outside from the cable introduction grooves 30, 31 on the back surface portion 15, the cables 37 can be organized safely and visually.

As for the socket 32, a socket 32 for a USB terminal (Type-C) is arranged as a standard, but it is a USB terminal such as Type-A or Type-B, and a predetermined power is supplied to the housing. Any device that can supply power to 5 is sufficient. Moreover, the insertion port 32 may be provided with an insertion port 32 that is compatible with a power plug (not shown) for a DC power source provided in a power adapter. Further, by providing an AC/DC converter device inside the housing 5, a power outlet for directly inputting commercial power may be provided.

Moreover, by mounting a small battery such as a lithium-ion rechargeable battery or a nickel-metal hydride battery in the housing 5 so that the LED module 60 and the like can operate without being connected to an external power source, further improvements can be made. Convenience may be improved. Further, as a battery other than a rechargeable battery, a dry battery such as an AA alkaline battery may be used.

FIG. 4(A) is a plan view of an example of the LED module 60, and FIG. 4(B) is a plan view of another example of the LED module 60.

As shown in FIGS. 4A and 4B, the LED module 60 includes a substrate 63, an LED 65 surface-mounted on the substrate 63, and an LED module mounting base 67 near both ends of the approximately rectangular LED module 60. A screw hole 64 is provided through which a screw (not shown) for fixing is passed.

FIG. 4(A) shows an LED module 60 in which three LEDs 65 are arranged in a row along the longitudinal direction on the surface of a substrate 63. The LEDs 65 include, in order from the left side of the figure, a white LED (W-LED) 65w that emits white light, an ultraviolet light emitting LED (UV-LED) 65uv that emits ultraviolet light, and a white LED (W-LED) 65w that emits white light. It is located. Further, in FIG. 4B, UV-LEDs 65uv, W-LEDs 65w, W-LEDs 65w, and UV-LEDs 65uv are arranged along the longitudinal direction on the surface of the substrate 63 in order from the left side. By combining W-LED65w and UV-LED65uv, it is possible to efficiently collect phototactic pests.

Here, an example is shown in which three or four LEDs 65 are arranged linearly in a row along the longitudinal direction on the surface of the substrate 63, but in FIGS. 1 and 2A, six LEDs 65 are arranged linearly in a row. The number of LEDs 65 may be plural. Furthermore, the LEDs 65 may be arranged in a single linear row as in the first embodiment, but may also be arranged in multiple rows or in a combination of multiple rows and a single row.

In addition, regarding the number of white LEDs (W-LEDs) 65w and ultraviolet light emitting LEDs (UV-LEDs) 65uv and how they are arranged, one UV- In addition to lining up LED65uv, lining up multiple W-LED65w near the center of the board 63 and lining up UV-LED65 on the outside as shown in FIG. 4(B), it is also possible to line up multiple W-LED65w and UV-LED65uv. They may be arranged alternately, or the number of W-LEDs 65w and UV-LEDs 65uv may be increased or decreased.

The UV-LED 65uv preferably emits ultraviolet light in the near ultraviolet region such as 365 nm, but it may also emit ultraviolet light in other wavelength regions such as UV-B of 280-315 nm and UV-A of 315-400 nm.

Also, since the types of insects that can be captured differ depending on the switching of the light color, it is a good idea to switch the light color depending on the type of insect. For example, instead of the W-LED65w, use a visible light emitting LED that emits each color, such as a blue LED (B) that emits blue light, a red LED (R) that emits red light, and a green LED (G) that emits green light. Alternatively, visible light emitting LEDs of various colors may be mixed. These light colors are switched by operating a light color changeover switch 24 provided above the recess 29 in the back plane portion 15. In addition, if necessary, you can turn on the visible light emitting LED and the UV-LED65uv at the same time, turn on the visible light emitting LED and turn off the UV-LED65uv, turn off the visible light emitting LED and turn on the UV-LED65uv, etc. The switching is performed by operating the light color changeover switch 24.

Further, the housing 5 may be provided with an indicator or the like that displays the lighting state of the LED module 60 so that it lights up at the same time when the LED module 60 lights up, and goes out at the same time when the LED module 60 goes out. Further, an overheat prevention device may be built in to turn off the power when the LED module 60 becomes overheated. As the indicator, in addition to a white LED, an appropriate LED such as a blue LED or a red LED may be used.

The surface of the substrate 63 on which the LEDs 65 are surface-mounted is coated with a white resist ink that highly reflects ultraviolet rays so that the ultraviolet rays emitted from the LEDs 65 such as UV-LEDs 65uv and W-LEDs 65w are efficiently irradiated onto the surface side of the substrate 63. A reflective surface is formed of a white resist layer coated with In addition to the above, the reflective surface may be formed of a material that efficiently reflects ultraviolet rays, such as by adhering or coating an aluminum material or the like.

In addition to the LED module 60, the upper surface of the board cover 50, the part of the housing 5 that is irradiated with light from the LED module 60, etc. are covered with a white resist layer that highly reflects ultraviolet rays and aluminum, as well as the surface side of the board 63. Preferably, the reflective surface is formed of a coating of material.

FIG. 5 is a top view, a front view, a side view, and a bottom view of the attachment 40 in Example 1.

As shown in the front view of FIG. 5, the attachment 40 has a substantially rectangular cross-sectional shape and has a claw portion 42 near the top. As shown in the top and bottom views, the attachment 40 has a substantially rectangular cross-sectional shape. As shown in the side view, the claw portion 42 has a clip shape that is inclined toward the front side. By inserting the insect-trapping paper 90 into this clip-shaped portion, the insect-trapping paper 90 is held by the claw portion 42.

FIG. 6(A) is an explanatory diagram showing the procedure for attaching the insect-trapping paper 90 to the attachment 40 in Example 1, and FIG. 6(B) is an explanatory diagram showing the state in which the insect-trapping paper 90 is attached to the attachment 40 in Example 1. It is.

The insect-trapping paper 90 is a substantially rectangular sheet, and the central portion is pre-folded along the vertical direction. The front surface of the insect-catching paper 90 is an adhesive surface for trapping insect pests such as flies, and the back surface is a normal sheet that does not have adhesive properties.

To set the insect-trapping paper 90 in the casing 5, it is first necessary to set the insect-trapping paper 90 on the attachment 40 that has been removed from the casing 5. As a first preparation, first, as shown in FIG. 6(B), the center portion of the insect-trapping paper 90 is folded vertically into a V shape. Next, as shown in FIG. 6(A), while holding the attachment 40, insert the center portion of the insect-trapping paper 90 from diagonally downward into the gap between the clip-shaped portions of the claws 42 of the attachment 40. By performing this procedure, the insect trapping paper 90 is held by the attachment 40.

Next, as shown in FIG. 2A, the lower corners of the sides of the insect-trapping paper 90 are inserted into the slits of the pair of insect-trapping paper insertion guides 19 arranged on the inner surface of the front side surface part 12 of the front housing 3. Insert. Next, when the attachment 40 is inserted into a slit (not shown) in the front side surface portion 12, the insect-catching paper 90 is guided into the housing 5 along the guide portion 20. By completely inserting the attachment 40 into the front case 3, the insect-trapping paper 90 is set in the case 5. Furthermore, if a release paper is pasted on the adhesive surface of the insect trapping paper 90, the setting of the insect trapping paper 90 is completed by peeling off the release paper.

When insect trapping is completed by operating the insect trap 1, the operation for attaching the insect trapping paper 90 can be performed in the reverse order. By lifting the attachment 40 slightly and then pulling it toward you, the insect paper is removed from the front casing 3 in a folded state. The adhesive surface on the front side of the insect trapping paper 90 is folded inward, and the pests such as flies caught on the insect trapping paper 90 can be disposed of without being visible, so it can be disposed of cleanly without causing any discomfort. The insect trapping paper 90 can be disposed of.

FIG. 7 is a schematic perspective view of the insect trap in Example 2.

As shown in FIG. 7, the housing 105 has a substantially rectangular parallelepiped shape and has an opening 107 on the top surface, similar to the first embodiment. The casings 105 are assembled in such a manner that the front casing 103 and the back casing 104, which are substantially similar in shape and have a substantially rectangular parallelepiped shape, are aligned on the inside. Both the front side housing 103 and the back side housing 104 have substantially rectangular parallelepiped shapes with four corner portions formed into curved shapes.

Both the front side casing 103 and the back side casing 104 are made of plate-like members molded from synthetic resin, etc., and have a substantially U-shaped cross-sectional shape in the horizontal plane direction, and an approximately L-shaped cross-sectional shape in the vertical plane direction. It is letter-shaped.

The insect trap 101 in the second embodiment basically has almost the same shape as the casing 5 in the first embodiment, but does not use the attachment 40 and has a lid part 130 on the side of the casing 105 for putting in and taking out the insect trapping paper 90. However, the other configurations are almost the same as in the first embodiment.

The lid portion 130 includes a cutout portion 132 at the top. The cutout portion 132 is a groove into which a finger or the like is placed when opening the lid portion 130.

FIG. 8(A) is a top view of the insect trap in Example 2, FIG. 8(B) is a front view, FIG. 8(C) is a bottom view, and FIG. 8(D) is a right side view.

As shown in the right side view of FIG. 8(D), a lid section 130 and a hinge section 140 for opening and closing the lid section 130 are provided on the side surface between the front side casing 103 and the back side casing 104. There is.

FIG. 9 is a schematic perspective view showing a state in which the lid part 130 provided on the side surface of the casing 105 in the second embodiment is opened.

As shown in FIG. 9 and the like, the lid section 130 is provided so as to be openable and closable by a hinge section 140 provided on the bottom surface of the casing 105. Further, the lid 130 is configured to stop when the housing 105 is closed and when the lid 130 is fully opened. Further, a spring may be disposed in the hinge portion 140 so that the lid portion 130 is always urged in the closing direction by the spring.

Inside the lid 130, a pair of guides 145 for guiding the insect-trapping paper 90 when inserting the insect-trapping paper 90 are provided near the lid 130 of the front casing 103 and the back casing 104, respectively. The pair of guides 145 hold the insect-catching paper 90 folded into a V-shape between the guides 145 .

FIG. 10(A) is an explanatory diagram showing the initial state in which the insect-trapping paper 90 is attached to the guide 145 in the second embodiment, and FIG. 10(B) is an explanatory diagram showing the state in which the insect-trapping paper 90 is attached to the guide 145 in the same embodiment. , and FIG. 3(C) is an explanatory diagram showing a state in which the insect-catching paper 90 is attached to the guide 145 in the same embodiment.

In FIG. 10, the lid 130 is removed to facilitate the explanation of how to attach the insect trapping paper 90 to the guide 145. However, in actual operation, the user can move the housing 105 without removing the lid 130. The insect trapping paper 90 can be easily attached and replaced by replacing the insect trapping paper 90 while being lifted with one hand.

As shown in FIG. 10(A), a V-shaped insect trapping paper 90 is inserted into the inside of the lid 130 of the casing 105 from the lid 130 side, and as shown in FIG. 10(B), Then, the insect trapping paper 90 is inserted between the pair of guides 145 and fixed as shown in FIG.

After insect trapping is completed, when removing the insect trapping paper 90, the procedure for attaching the insect trapping paper 90 may be reversed. After opening the lid part 130 and folding the adhesive part on the front side of the insect-trapping paper 90 inward so that the pests caught on the insect-trapping paper 90 cannot be seen, the insect-trapping paper 90 is removed from the casing 105 and discarded. By these operations, the insect trapping paper 90 can be disposed of cleanly without causing any discomfort.

Although the present invention has been described above with reference to Examples, the present invention is not limited to the above Examples. The configuration and details of the present invention may be modified in various ways within the scope of the present invention by those skilled in the art.

This application claims priority based on Japanese Patent Application No. 2022-143859 filed on September 9, 2022, and the entire disclosure thereof is incorporated herein.

According to the present invention, by using a small and easy-to-handle insect trap that attracts and captures pests such as flies by irradiating them with ultraviolet rays, etc., pests such as flies are effectively captured and a sanitary environment is maintained. can do.

1 Insect trap 3 Front side housing 4 Back side housing 5 Housing 7 Opening 10 Front side flat part 12 Front side side part 15 Back side flat part 17 Back side side part 19 Insect trap paper insertion guide 20 Guide part 21 Rib 22 Power switch 24 Light color Selector switch 25 Foot section 27 Wall mounting hole (daruma hole)
29 Recesses 30, 31 Cable introduction groove 32 Inlet 36 Connector 37 Cable 40 Attachment 42 Claw 50 Board cover 60 LED module 63 Board 64 Screw hole 65 LED
65w white LED (W-LED)
65uv ultraviolet light emitting LED (UV-LED)
67 LED module mounting base 90 Insect paper 101 Insect trap 103 Front side housing 104 Back side housing 105 Housing 107 Opening 130 Lid part 132 Notch part 140 Hinge part 145 Guide

Claims (16)

1. An insect trap comprising a casing having an opening at the top, an LED module disposed inside the casing and emitting irradiated light toward the opening, and an insect-trapping paper disposed inside the casing,
   The casing is assembled in such a way that the front casing and the back casing are aligned on the inside,
   The insect trap is characterized in that the LED module has a plurality of surface-mounted LEDs, and includes at least an LED that emits light that attracts phototactic pests.
2. The front casing has a rectangular cutout,
   comprising a substantially rectangular parallelepiped-shaped attachment that is removably attached to the notch,
   The attachment has a claw portion that holds the insect-trapping paper, and is attached to the notch portion with the insect-trapping paper held in the claw portion,
   2. The insect trap according to claim 1, wherein the insect trapping paper is housed within the casing.
3. The casing has a lid that can be opened and closed on a side surface,
   2. The insect trap according to claim 1, wherein the insect trapping paper is placed on a pair of guides provided within the housing.
4. The insect trap according to claim 1, wherein the LED module emits light that attracts at least phototactic pests, and includes an LED whose light color can be switched.
5. 2. The insect trap according to claim 1, wherein the back side casing has a plurality of legs, and at least two of the legs are provided with holes for wall mounting.
6. The insect trap according to claim 1, wherein the LED module includes an LED that emits ultraviolet light.
7. The insect trap according to claim 1, further comprising a power switch that turns on/off the LED module.
8. The insect trap according to claim 1, wherein the interior of the housing and the surface of the irradiation side of the LED module are coated.
9. The insect trap according to claim 1, wherein the back side housing is provided with a light color changeover switch that changes the light color of the LED module.
10. The back side housing is provided with a recess, a horizontal cable introduction groove connected to the recess, and a vertical cable introduction groove,
    An insertion port is arranged in the recess,
    2. The power outlet according to claim 1, wherein the outlet has a power input terminal, and when a connector of a cable is electrically connected to the outlet, external power is supplied to the housing. Insect trap.
11. 2. The insect trap according to claim 1, wherein each of the LED modules includes a plurality of white LEDs and a plurality of ultraviolet light emitting LEDs.
12. The insect trap according to claim 11, wherein the ultraviolet light emitting LED emits ultraviolet light in the near ultraviolet region.
13. The insect trap according to claim 10, wherein the insertion port is an insertion port for a USB terminal that can supply power to the casing.
14. The insect trap according to claim 10, wherein the outlet is an outlet compatible with a power plug for a DC power source.
15. The insect trap according to claim 10, wherein the outlet is a power outlet into which commercial power is directly input.
16. The insect trap according to claim 1, wherein the housing is equipped with a small battery.
    
    

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