JP3877593B2 - Insect trap - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an insect trap, and more particularly to an insect trap for capturing harmful insects using an ultraviolet light emission source.
[0002]
[Prior art]
Conventionally, as an insect trap, the one described in JP-A-8-33444 is known, and this trap has an isosceles triangle shape in cross section, an opening is formed on the bottom surface thereof, and an isosceles triangle isosceles shape in cross section. A fluorescent pressure-sensitive adhesive sheet for capturing insects is provided on the inner surface corresponding to the above, and a lamp that emits a predetermined ultraviolet wavelength is provided in the vertical direction at the inner center of the triangular prismatic rectangular shape.
[0003]
In such an insect trap, when the lamp is turned on, harmful insects jump into the inside from the opening on the bottom of the trap, and the fluorescent adhesive sheet is colored by the ultraviolet rays from the lamp, so the harmful insects gathered inside the fluorescent adhesive sheet It approaches and is captured with a fluorescent adhesive sheet.
After the pest is captured by the fluorescent adhesive sheet, it is captured by a new fluorescent adhesive sheet by removing and replacing the fluorescent adhesive sheet inside the insect trap.
[0004]
[Problems to be solved by the invention]
In such an insect trap, after the harmful insects are captured by the fluorescent adhesive sheet, the fluorescent adhesive sheet is replaced by removing the fluorescent adhesive sheet inside the trap, so the inside of the narrow trap It is difficult to replace the fluorescent adhesive sheet at
[0005]
In addition, since the fluorescent adhesive sheet is provided inside the insect trap, it is inconvenient to check the state of the insect trap when looking at whether the insect trap is captured by the fluorescent adhesive sheet. was.
[0006]
In addition, since the lamp and the fluorescent adhesive sheet are provided inside the insect trap, there is a possibility that the insects gather inside the dirt due to the insects gathered inside, and the performance of the lamp may be deteriorated.
[0007]
The present invention has been made in view of the above points, and aims to provide an insect trap capable of easily exchanging a fluorescent adhesive sheet and easily confirming the state of capturing pests and maintaining lamp performance. To do.
[0008]
[Means for Solving the Problems]
In order to achieve such an object, an insect trap according to the present invention comprises a frame body provided with an ultraviolet light emission source therein and an insect trap film covering the outer surface of the frame body. A base material through which a wavelength from the light emission source passes, a phosphor layer provided on the ultraviolet light source side of the base material and emitting fluorescence by ultraviolet rays from the ultraviolet light source, provided on the outside of the base material, and fluorescent Is formed from an adhesive layer through which water passes, and insects are captured by this adhesive layer.
[0009]
In this insect trap, the phosphor layer provided on the ultraviolet light source side of the substrate is colored by the ultraviolet light by the ultraviolet light from the ultraviolet light source in the frame, so that the wavelength from the ultraviolet light source is transparent. The pests can fly to the adhesive layer provided on the outside of the substrate to be touched and captured by touching the adhesive layer.
[0010]
Moreover, it is preferable to provide the adhesive layer in a peelable manner on the substrate, and the adhesive layer that captures the pests can be replaced, so that an economical insect trapping film can be used.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
[0012]
An embodiment according to the present invention will be described with reference to FIGS.
As shown in FIG. 1, an insect trap according to the present invention comprises a frame body 2 provided with an ultraviolet light source 1 inside, and an insect trap film 3 covering the outer surface of the frame body 2. A transparent base material 4 through which a wavelength from the ultraviolet light emission source 1 passes, and a phosphor layer 5 provided on the ultraviolet light emission source side of the base material 4 and emitting fluorescence by the ultraviolet light from the ultraviolet light emission source 1; The adhesive layer 6 is formed on the outside of the base material 4 and allows the fluorescence to pass through. The adhesive layer 6 catches insects.
[0013]
The frame 2 includes disc portions 2a and 2a each having a circular shape on the left and right sides, connecting portions 2b and 2b connecting the disc portions 2a and 2a, and a lamp 1 which is an ultraviolet light source inside the disc portions 2a and 2a. Holding plates 2c and 2c.
[0014]
The disk portion 2a is formed with a mounting surface portion 2d for mounting the insect capturing film 3 on its peripheral surface.
[0015]
The connecting portions 2b and 2b are provided with both ends of the connecting portions 2b and 2b fixed on the inner surface side of the disc portion 2a so that the mounting surface portions 2d of the disc portions 2a and 2a are flush with each other.
Further, the connecting portions 2b and 2b are formed to be curved similarly to the curved shape of the mounting surface portion 2d of the disk portions 2a and 2a.
The connecting portions 2b and 2b are provided to reinforce the connection between the disk portions 2a and 2a. In the present embodiment, two connecting portions 2b and 2b are provided above and below the disk portions 2a and 2a. Only one lower part may be sufficient, and the disk parts 2a and 2a may be connected by a plurality of fine wires.
[0016]
The lamp 1 is held between the holding plates 2c and 2c so as to be positioned at the center between the disk portions 2a and 2a, and is provided to emit a predetermined ultraviolet wavelength by a lighting switch (not shown) of the lamp 1. It is done.
The lamp 1 uses, for example, a black light that emits a wavelength of 254 nm.
The lamp 1 is positioned at the center between the disk portions 2a and 2a so that the distance from the lamp 1 to the insect trapping film 3 that covers the outer surface of the frame 2 is the same.
[0017]
Next, the insect trap film 3 will be described.
The insect trapping film 3 includes a transparent base material 4 through which the wavelength from the lamp 1 passes, a phosphor layer 5 provided on the lamp 1 side of the base material 4 and fluorescently developing by ultraviolet rays from the lamp 1, and a base material It consists of 3 layers with the adhesion layer 6 provided in the outer side.
[0018]
The base material 4 is not particularly limited as long as it is transparent so that the wavelength from the lamp 1 can pass through.
[0019]
The phosphor layer 5 is a material that is applied on the lamp 1 side of the substrate 4 and emits fluorescence by the ultraviolet rays from the lamp 1. In this embodiment, the phosphor layer 5 is made of a phosphor that emits a wavelength of 365 nm by the ultraviolet rays from the lamp 1. Become.
Although the phosphor layer 5 has been described as being applied to the lamp 1 side of the substrate 4, the phosphor layer 5 may be formed into a sheet shape and the sheet-like phosphor layer 5 may be fixed to the substrate 4. good.
[0020]
Next, the adhesive layer 6 will be described. The adhesive layer 6 is formed directly on the outside of the substrate 4 and has adhesiveness that can capture pests.
The adhesive layer 6 may be directly formed on the outside of the base material 4 as described above, or the adhesive layer 6 is formed into a sheet shape, and the sheet-like adhesive layer 6 is detachably adhered to the base material 4. Also good.
When the sheet-like adhesive layer 6 is detachably bonded to the base material 4, when the insect pest capture in the adhesive layer 6 is finished, only the adhesive layer 6 can be replaced, and only the adhesive layer 6 needs to be replaced. Once again, pests can be captured.
The adhesive layer 6 is preferably composed of a layer through which fluorescence passes. This is to prevent the fluorescent color of the phosphor layer 5 from being blocked.
[0021]
Moreover, although the adhesive layer 6 is uniformly formed on the outside of the base material 4, the base material 4 may be formed in a mesh shape, a mottled shape, a plurality of fine line shapes, or the like.
That is, the adhesive layer 6 and a portion without the adhesive layer 6 are formed on the base material 4.
In such a case, the fluorescent color of the phosphor layer 5 is further emitted, and the effect of attracting pests is improved.
[0022]
The insect trapping film 3 formed in this way is attached to the attachment surface portions 2d and 2d of the disc portions 2a and 2a along the attachment surface portions 2d and 2d of the disc portions 2a and 2a. Fixed.
Since the connecting portions 2b and 2b connecting the disk portions 2a and 2a are formed in a curved shape similar to the curved shape of the mounting surface portion 2d of the disk portions 2a and 2a, both end portions 3a and 3a of the insect trapping film 3 are formed. Is fixed to the mounting surface portions 2d and 2d of the disk portions 2a and 2a, the alignment of the insect capturing film 3 is simple if the mounting surface portions 2d and the connecting portions 2b and 2b of the disk portions 2a and 2a are aligned. The fixing operation of the insect trapping film 3 to the mounting surface portions 2d and 2d of the disk portions 2a and 2a can be easily performed.
[0023]
In such an insect trap, as shown in FIG. 4, a lighting switch (not shown) for the lamp 1 is turned on to light the lamp 1.
Then, ultraviolet rays are emitted from the lamp 1, whereby the phosphor layer 5 on the lamp 1 side of the insect trapping film 3 is excited by the ultraviolet rays from the lamp 1 to generate a fluorescent color.
Therefore, the pests approach the fluorescent material layer 5 that is fluorescently colored and touch the adhesive layer 6 of the insect capturing film 3 to be captured.
[0024]
Since the lamp 1 is located at the center between the disk portions 2a and 2a, the phosphor layer 5 of the insect trapping film 3 is uniformly illuminated at any portion.
Therefore, the phosphor layer 5 emits light uniformly, and pests can be captured uniformly by the adhesive layer 6.
[0025]
The lamp 1 is covered with the disk portions 2a and 2a of the frame body 2 and the insect capturing film 3 and is located inside the frame body 2. Therefore, when capturing the insects, the lamp 1 is not contaminated by the insects, and the UV color development performance is deteriorated. Without this, UV color development performance can be maintained.
[0026]
Since the adhesive layer 6 of the insect trapping film 3 is located on the outside, it is possible to easily see the pest trapping situation.
[0027]
As shown in FIG. 5, when the adhesive layer 6 of the insect trapping film 3 is formed into a sheet shape and the sheet-like adhesive layer 6 is detachably adhered to the base material 4, when pest capturing in the adhesive layer 6 is finished, Only the adhesive layer 6 can be exchanged, and pest capture can be performed again only by exchanging the adhesive layer 6.
[0028]
Also, as shown in FIGS. 5 and 6, if the adhesive layer 6 of the insect trapping film 3 is formed into a plurality of sheets, a new adhesive layer can be obtained simply by peeling the sheet-like adhesive layer 6 one by one after capturing the pests. 6 can catch pests.
[0029]
If this insect trap is covered with a mesh-patterned film into which pests can invade, humans will not contact the adhesive layer 6 of the insect trap film 3, which is preferable.
[0030]
Moreover, in the said description, although demonstrated about the case where the insect trap film 3 was fixed to the frame 2, the insect trap film 3 can also be fixed to the frame 2 so that removal is possible.
[0031]
【The invention's effect】
According to the insect trap according to the present invention, it comprises a frame body provided with an ultraviolet light source inside, and an insect trap film covering the outer surface of the frame body. The insect trap film is transparent and has a wavelength from the ultraviolet light source. A substrate through which the substrate passes, a phosphor layer which is provided on the ultraviolet light source side of the substrate and emits fluorescent light by ultraviolet rays from the ultraviolet light source, and an adhesive layer which is provided outside the substrate and through which the fluorescence passes The phosphor layer provided on the ultraviolet light source side of the substrate is fluorescently colored by the ultraviolet light from the ultraviolet light source inside the frame. Thus, the pests can fly to the adhesive layer provided on the outside of the substrate that is transparent and through which the wavelength from the ultraviolet light source passes, and can be captured by touching the adhesive layer.
[0032]
Moreover, it is preferable to provide the adhesive layer in a peelable manner on the substrate, and the adhesive layer that captures the pests can be replaced, so that an economical insect trapping film can be used. .
[Brief description of the drawings]
FIG. 1 is a perspective view of an insect trap according to the present invention.
2 is a partial cross-sectional view of a portion A shown in FIG. 2 of the insect trap shown in FIG. 1;
4 is a perspective view of the insect trap shown in FIG. 1. FIG.
FIG. 5 is a perspective view of an insect trap according to another embodiment of the present invention.
6 is a partial cross-sectional view of the insect trap shown in FIG. 5. FIG.
[Explanation of symbols]
1 is an ultraviolet light emitting source 2, a frame 3 is a trapping film 4, a base material 5 is a phosphor layer 6 is an adhesive layer

Claims (2)

It consists of a frame body provided with an ultraviolet light source inside, and an insect trapping film that covers the outer surface of the frame body. The insect trapping film is transparent and allows the wavelength from the ultraviolet light source to pass through, and this base material. Formed on a fluorescent material layer that is provided on the ultraviolet light source side and that emits fluorescence when exposed to ultraviolet light from the ultraviolet light source, and an adhesive layer that is provided on the outer side of the substrate and through which fluorescence passes. An insect trap, characterized by The insect trap according to claim 1, wherein the adhesive layer is detachably provided on the substrate.

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