KR20200144947A - vermin trap with air cleaning function - Google Patents

Abstract

The present invention relates to an insect trap having an air purifying function. Flying harmful insects such as mosquitoes and flies can be effectively attracted and captured by light and fragrances. At the same time, deodorization is performed, and various harmful materials such as fine dust, heavy metals, and harmful gases are removed. Accordingly, a clean indoor environment can be composed. An insect trap having an air purifying function of the present invention comprises: a body part having an upper portion and a front surface which are opened; a front surface cover coupled to the front surface of the body part; a lamp installed inside the body part to emit light to the outside through the opened upper portion of the body part to attract flying harmful insects; an air purifying unit installed inside the body part to remove harmful substances in the air; and glue paper installed at the inner bottom of the body part to attract flying harmful insects by fragrances.

Description

Vermin trap with air cleaning function

The present invention relates to an insect repellent having an air cleaning function, and can effectively attract and capture flying pests such as mosquitoes and flies with light and incense, and at the same time, various harmful substances such as deodorization, fine dust in the indoor air, heavy metals, and harmful gases. It relates to an insect repellent that can create a pleasant indoor environment by removing the material.

In general, due to all insects or pests that are harmful to humans or livestock, and pests that interfere with the growth of various plants, such as livestock, fruit trees, grass, etc., especially in the summer season, as humans and livestock activities and various plant growth are affected. In order to remove these pests, various insecticide means are being developed.

As such insecticidal means, drugs sprayed in the form of mist and liquid mist, and a trap that sucks and traps pests clustered in a certain place by lighting and irradiating light favored by pests have been put into practice.

The drug spraying method has a wide range of insecticides and a rapid effect, but has the disadvantage of contaminating the surrounding air, water, food, agricultural and marine products by the drug.

In contrast, the method of attracting and collecting pests with light consists of a structure in which pests such as mosquitoes are attracted with light and then captured by a suction fan that rotates with the rotational force of a motor. This has the advantage of not polluting the surrounding air, water, or crops compared to the pharmaceutical method, but there is a problem that it is not effective during the day because it attracts pests using light.

Republic of Korea Patent Publication No. 10-2008-0057391 discloses a suction-type pest collecting device.

The disclosed invention comprises a case in which a certain space is formed therein and an inlet is formed in the front side, an induction lamp provided in front of the inlet to induce pests, an inlet duct installed inside the case and communicating with the inlet, , A suction fan installed inside the inlet duct to forcibly suck the pests induced by the induction lamp, and a cutter net provided at the rear side of the suction fan inside the inlet duct to cause the pests to collide and die, the It is provided at the rear end of the inlet duct and consists of a collecting net through which pests passing through the cutter net are captured.

The suction-type pest collecting device is a situation in which not much effect is obtained during the day as the inducing means for attracting the pest is limited only to the light emitted by the induction lamp. In addition, the inhalation type pest collector using a fan as described above has a problem in that it is possible to collect mosquitoes, but not flies. This is because the flies do not approach the inlet of the case where the suction force acts.

In addition, since the conventional pest trapping apparatus focuses only on capturing pests, there is a limitation in not having various functions.

Republic of Korea Patent Publication No. 10-2008-0057391: Inhalation type pest collecting device

The present invention has been created to improve the above problems, and can effectively attract and capture flying pests such as mosquitoes and flies with light and incense, and at the same time, various harmful substances such as deodorization, fine dust in the indoor air, heavy metals, and harmful gases. Its purpose is to provide an insect repellent with an air cleaning function that can create a pleasant indoor environment by removing the material.

In order to achieve the above object, the insect repellent having the air cleaning function of the present invention comprises: a body portion having an open top and a front surface; A front cover coupled to the front surface of the body portion; A lamp installed inside the body portion to emit light to the outside through an open upper portion of the body portion to attract flying pests; An air cleaning unit installed inside the body to remove harmful substances in the air; It is installed in the lower portion of the inner side of the body portion, and a glue paper for attracting the flying insects to the fragrance; and includes.

A partition installed in the body part so as to be located under the lamp to divide the internal space of the body part into a mosquito attraction space and a fly attraction space, and a mosquito attraction space installed in the mosquito attracting space to suck air from the upper part of the body part. A suction fan for discharging air to the inside of the body portion, and an air outlet formed at a side corresponding to the mosquito attraction space among left and right sides of the body portion are further provided.

The air cleaning unit includes a housing in which a plurality of ventilation slits are formed on front and rear surfaces, and ceramic balls that are accommodated in a plurality of inside of the housing.

The ceramic ball is formed by molding a dough obtained by mixing ocher powder and goethite powder, followed by firing.

The light generated from the lamp is ultraviolet light, and a photocatalyst layer activated by the ultraviolet light is formed on the surface of the ceramic ball.

The air cleaning unit is a light transmission means for introducing the ultraviolet light generated from the lamp into the ceramic balls accommodated in the housing so as to increase the contact efficiency between the ultraviolet light generated from the lamp and the ceramic ball. It has more.

As described above, the present invention attracts mosquitoes and flies by using light and fragrance, so that the trapping effect of pests is excellent. In addition, by dividing the internal space into a partition, it is separated into a space where mosquitoes are attracted and a space where flies are attracted, so that mosquitoes and flies can be captured at the same time.

In addition, the strong adhesion of the glue paper coated with the attractant traps pests and prevents escape, so it is possible to safely and hygienic eradication without the dead bodies, debris, and debris of pests.

In addition, by installing an air cleaning unit inside, it is possible to create a pleasant indoor environment by removing and deodorizing various harmful substances such as fine dust, heavy metals, and harmful gases in the indoor air in which the insect repellent is installed.

1 is an exploded perspective view of an insect repellent according to a preferred embodiment of the present invention,
Figure 2 is a cross-sectional view of Figure 1,
3 is a partially cut-away perspective view for showing the interior of the air cleaning unit applied to FIG. 1,
4 is a cross-sectional view illustrating the interior of an air cleaning unit applied to an insect repellent according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an insect repellent having an air cleaning function according to a preferred embodiment of the present invention.

1 to 3, the insect repellent having an air cleaning function according to an embodiment of the present invention includes a body part 10 with an open upper and a front, and a front cover 15 coupled to the front of the body part 10. ), a lamp 20 installed inside the body part 10 to emit light to the outside through the open upper part of the body part 10 to attract flying insects such as mosquitoes and flies, and the body part ( 10) is provided with an air cleaning unit 60 for removing harmful substances in the air, and a glue paper 40 for attracting mosquitoes and flies to the inside and below the body 10 do.

The body portion 10 has a structure in which upper and front surfaces are open. The rear of the body 10 is a part attached to the interior wall. An adhesive tape may be installed on the rear surface of the body part 10 and attached to the wall, or the body part may be attached to the wall by nails or screws installed on the wall.

The inner space of the body part 10 is divided into two left and right spaces, that is, a mosquito attraction space 12 and a fly attraction space 13 by a partition 30. The partition 30 is installed under the lamp 20. It is installed to be detachably attached to the body portion 10 of the partition 30. The internal space of the body portion 10 is formed by separating a mosquito attraction space 12 in which mosquitoes are introduced and captured by the partition 30 and a fly attraction space 13 in which flies are introduced and captured. In the illustrated example, a mosquito attraction space 12 is formed on the left side of the partition 30, and a fly attraction space 13 is formed on the right side of the partition 30.

The front cover 15 is coupled to the front of the body 10 so as to be detachable. The front cover 15 is coupled to the front surface of the body portion 10 so that a space for capturing pests is formed inside the body portion 10. Although not shown, the front cover 15 may be coupled to the body portion 10 using a magnet. In addition, of course, the front cover 15 can be coupled to the body portion 10 by screws or bolts.

The lamp 20 is installed on the inner and upper portions of the body 10. The lamp 20 serves to attract mosquitoes and flies by emitting light to the outside through the open upper part of the body part 10. An ultraviolet lamp that emits ultraviolet light as the lamp 20 may be used. The UV lamp uses a positive daylight property that likes light due to the nature of pests, and irradiates light in the UV wavelength range of 350 nm to 400 nm, which is the most favorite wavelength range of pests, so that it can smoothly attract pests without harming the human body. . The lamp 20 is mounted on a socket and electrically connected to a power source.

The glue paper 40 is installed in the lower portion of the body portion 10 and serves to attract mosquitoes and flies to the fragrance.

The glue paper 40 is a composition obtained by mixing a pressure-sensitive adhesive and an attractant on one side of a thin substrate made of paper or synthetic resin. For example, a composition obtained by mixing 1 to 10 parts by weight of an attractant with respect to 100 parts by weight of an adhesive may be used.

As an adhesive, a conventional synthetic resin adhesive material may be used.

And as an example of an attractant, moisture 81.5 wt%, gelatin powder 11 wt%, ethanol 5 wt%, lactic acid 0.6 wt%, octanol 1 wt%, antioxidant (Grapefruit Seed Extract) 0.8 wt%, fragrance sustaining agent (Dipropylene glycol) 0.1 wt. It can be composed in %. These attractants are harmless to the human body and contain lactic acid, so the attraction effect of pests is very high. In addition, since it attracts pests with light and incense, the attracting effect can be improved.

The glue paper 40 may be installed one by one in the mosquito attraction space 12 and the fly attraction space 13, respectively. For example, one glue paper 40 may be installed under the mosquito attraction space 12, and another glue paper 40 may be installed under the fly attraction space 13.

Pests that have entered the body part by the strong adhesive force of the glue paper 40 to which the attractant is applied are attached to the glue paper 40.

As described above, the partition 30 is installed inside the body portion 10 to divide the inner space of the body portion 10 into a mosquito attraction space 12 and a fly attraction space 13.

A suction fan 70 is installed in the mosquito attraction space 12. The suction fan 70 sucks air from the upper portion of the body portion 10 and discharges the air into the body portion 10. Mosquitoes attracted by light and fragrance are trapped inside the body part 10 by the suction force of the suction fan 70.

The suction fan 70 is installed in the fan case 71 installed on the upper part of the mosquito attraction space 12. A motor cover 75 on which a motor (not shown) is mounted is provided under the fan case 71.

An air outlet 11 is formed in the body 10 so that air can be discharged to the outside when the suction fan 70 is operated. The air outlet 11 is formed on a side corresponding to the mosquito attraction space 12 among the left and right sides of the body 10.

In the illustrated example, since the mosquito attraction space 12 is formed on the left side of the body part 100, the air outlet 11 is also formed on the left side of the body part 10. The air discharge port 11 has a long hole shape that is elongated back and forth. It is made, and a plurality is formed at regular intervals. A net may be attached to the inner surface of the body portion 10 where the air outlet 11 is located so as to prevent mosquitoes from exiting through the air outlet 11 Of course.

Flies have a characteristic that they do not approach the surroundings where suction force acts. Accordingly, the present invention divides the inner space of the body part 10 into two spaces by the partition 30 so that the fly attraction space 13 is not affected by wind.

The air cleaning unit 60 is installed inside the body 10. The air cleaning unit 60 adds the functionality of the present invention. The air cleaning unit 60 creates a pleasant indoor environment by removing and deodorizing various harmful substances such as fine dust, heavy metals, and harmful gases in the indoor air in which the insect repellent is installed.

The air cleaning unit 60 is installed in the body so as to be located under the lamp 20. The air cleaning unit 60 is installed to be detachably attached to the body part 10. The air cleaning unit 60 is formed over the mosquito attraction space 12 and the fly attraction space 13. Unlike illustrated, two air cleaning units may be provided in each of the mosquito attraction space 12 and the fly attraction space 13.

The air cleaning unit 60 includes a housing 61 in which a plurality of ventilation slits 65 are formed on the front and rear surfaces, and ceramic balls 67 that are accommodated in a plurality of the inside of the housing 61.

The housing 61 is formed of a metal or synthetic resin material. The housing 61 has a space for accommodating the ceramic balls 67 therein. A plurality of ventilation slits 65 are formed on the front and rear surfaces of the housing 61. A lid for inserting and withdrawing the ceramic ball 67 may be coupled to the front or the rear of the housing 61.

The ceramic ball 67 may be formed in a porous structure in which many pores are formed on a surface and inside. The ceramic ball 67 is in contact with air and removes harmful substances in the air by adsorption or absorption and filtration.

For example, ceramic balls can be made by kneading ocher powder with water, molding, and then firing. For example, after adding water to ocher powder and kneading, the dough is molded into a ball shape having a diameter of 2 to 10 mm, dried, and then calcined at a high temperature of 800 to 1000° C. to manufacture ceramic balls.

Ocher is a yellow mineral composed primarily of silt particles. Ocher emits far-infrared rays, has sterilization effect and ability to remove toxicity, is excellent in neutralizing harmful substances, and has the ability to purify and deodorize with its unique honeycomb structure.

Another example of a ceramic ball can be made by molding a dough obtained by mixing ocher powder and goethite powder and then firing. For example, after mixing 10 to 30 parts by weight of goethite powder with respect to 100 parts by weight of loess powder, water is added and kneaded. Further, the dough is molded into a ball shape having a diameter of 2 to 10 mm, dried, and then calcined at a high temperature of 800 to 1000° C. to manufacture a ceramic ball.

Goethite is a kind of iron oxide mineral belonging to the orthorhombic system, and has excellent ability to adsorb harmful substances. Goethite has a large surface area and excellent adsorption ability, so it can effectively remove various harmful substances such as fine dust, heavy metals, and harmful gases in a short time. Therefore, ceramic balls made by mixing goethite and loess have more excellent effects.

Another example of a ceramic ball can be made by molding a dough obtained by mixing loess powder, goethite powder, kaolinite powder, and silicate powder and then firing. For example, 10 to 30 parts by weight of goethite powder, 5 to 10 parts by weight of kaolinite powder, and 5 to 10 parts by weight of silica powder are mixed with respect to 100 parts by weight of loess powder, and then water is added to knead. Further, the dough is molded into a ball shape having a diameter of 2 to 10 mm, dried, and then calcined at a high temperature of 800 to 1000° C. to manufacture a ceramic ball.

Kaolinite is a mass formed by decomposition of feldspar of kaolin by heat and infiltration of carbonate-containing water, and it contains kaolinite as its main component. Kaolinite, a clay mineral that constitutes kaolinite, adsorbs a large amount of metal ions because of its high specific surface area, surface charge, and cation exchange ability, and this adsorption property has the effect of reducing or removing the concentration of heavy metals. Has.

Silica is a kind of silicate mineral mainly composed of quartz, and has deodorizing and antibacterial effects.

The ceramic ball 67 may have a photocatalytic layer activated by ultraviolet light on its surface.

A photocatalyst is a material that is photoactivated by ultraviolet light generated from a lamp and has a strong redox ability. Examples of photocatalysts that can be used include ZnO, CdS, WO ₃ and TiO ₂ . Among them, ZnO and CdS absorb light, so that the catalyst itself is decomposed to light, and WO ₃ has a high efficiency as a photocatalyst only for specific substances, and other than that, the efficiency is not as good as titanium dioxide. On the other hand, titanium dioxide does not change itself even when exposed to light, so it can be used semi-permanently. In addition, titanium dioxide has much stronger oxidizing power of holes than the reducing power of excitation electrons. Therefore, it is preferable to use titanium dioxide (TiO ₂ ) as a photocatalyst.

The photocatalyst layer may be formed on the surface of the ceramic ball by a known coating method. For example, a photocatalyst layer can be formed by coating by a spray method, a CVD method, a sol-gel method, or the like.

On the other hand, the present invention is another embodiment of the air cleaning unit further includes a light transmission means.

When the ceramic ball on which the photocatalytic layer is formed is accommodated in the housing, the UV light irradiated from the lamp has low contact efficiency with the ceramic ball. This is because the ceramic ball is housed in the housing, and since the lamp that irradiates ultraviolet light is located above the housing, it is difficult to transmit the ultraviolet light to deep inside the housing.

Accordingly, the present invention further includes a light transmission means to introduce ultraviolet light generated from the lamp into the ceramic balls accommodated in the housing, thereby increasing the contact efficiency between the ultraviolet light and the ceramic balls.

Referring to FIG. 5, the light transmission means includes holders 80 mounted in through holes formed in the housing 61, and one side is inserted into each insertion hole of the holders 80, and the other side is inside the housing 61. It has an optical fiber 70 extending to.

A plurality of through holes are formed in the upper portion of the housing 61 facing the lamp 20 at regular intervals. And one holder 80 is mounted for each through hole.

The holder 80 is for supporting the optical fiber 70 and is inserted into the through hole of the housing 61 to be coupled to the housing 61. The upper side of the holder 80 is formed larger than the diameter of the through hole so that the upper portion of the holder 80 can be caught in the through hole.

A converging lens 85 for focusing light may be installed in the holder 80. A convex lens can be used as the converging lens 85. The converging lens 85 is installed on the holder 80 and serves to converging the surrounding ultraviolet light to the end of the optical fiber 70.

An insertion hole penetrating in the vertical direction is formed in the center of the holder 80. The optical fiber 70 is inserted from the lower portion of the holder 80 into an insertion hole.

Optical fibers are largely classified into glass optical fibers or plastic optical fibers, and plastic optical fibers are used in the present invention. Plastic optical fibers have superior optical properties and workability than glass optical fibers, and have a very high light transmission efficiency as the ratio of the core to the cross-sectional area is larger. In addition, plastic optical fibers can be reduced in price and are easy to install due to their excellent bending properties and have strong advantages against external impact.

The optical fiber 70 extends long to the bottom of the housing 61. The optical fiber 70 extends in a straight line or extends to be bent and is disposed between the ceramic balls 67.

Preferably, a plurality of light extraction slits 75 are formed in the optical fiber 70 at regular intervals so that the ultraviolet light can be gradually extracted to the side of the optical fiber 70.

The optical fiber 10 is usually made of a core and a cladding surrounding the core. The light extraction slit 75 may be formed by cutting the cladding portion of the optical fiber 10 into a predetermined width and length. In addition to cutting the cladding, the light extraction slit may be formed by scratching or etching.

The light extraction slit 75 is formed to be long and narrow in width. The light extraction slits 75 are installed at regular intervals along the longitudinal direction of the optical fiber 70 but are arranged to be staggered.

The ultraviolet light incident through one end of the optical fiber 70 inserted in the holder 80 is transmitted to the other end through the core while generating total-reflection at the connection surface between the core and the cladding. Some of the light transmitted through is partially extracted to the side of the optical fiber 70 through the light extraction slits 75.

In the present invention, since ultraviolet light is extracted not only from the end of the optical fiber 70 but also from the side of the optical fiber 70, the ultraviolet light can be efficiently transmitted to the ceramic balls 67 adjacent to the optical fiber 70. Accordingly, the photocatalyst of ceramic balls located deep inside the housing 61 can be activated by the ultraviolet light transmitted through the optical fiber 70 as well as the ultraviolet light entering the interior from the outside of the housing 61, thereby improving the air cleaning effect. It can be greatly increased.

In the above, the present invention has been described with reference to an exemplary embodiment, but this is only exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent embodiments are possible therefrom. Therefore, the true scope of protection of the present invention should be determined only by the appended claims.

10: body part 11: air outlet
12: Mosquito attraction space 13: Paris attraction space
15: front cover 20: lamp
30: partition 40: glue paper
60: air cleaning unit 61: housing
67: loess ball 70: optical fiber

Claims (6)

A body portion having an open upper portion and a front surface thereof;
A front cover coupled to the front surface of the body portion;
A lamp installed inside the body portion to emit light to the outside through an open upper portion of the body portion to attract flying pests;
An air cleaning unit installed inside the body to remove harmful substances in the air;
A insect repellent having an air cleaning function, characterized in that it comprises a; glue paper installed on the lower inner side of the body portion to attract flying insects to the fragrance. According to claim 1, The partition is installed inside the body so as to be located under the lamp to divide the internal space of the body into a mosquito attracting space and a fly attracting space, and a mosquito attracting space to the upper part of the body. A suction fan that sucks air from and discharges air to the inside of the body portion, and an air outlet formed on a side corresponding to the mosquito attracting space among the left and right sides of the body portion. Insect repellent. The insect repellent of claim 1, wherein the air cleaning unit includes a housing in which a plurality of ventilation slits are formed on the front and rear surfaces, and ceramic balls accommodated in a plurality of inside of the housing. [4] The insect repellent according to claim 3, wherein the ceramic ball is formed by molding a dough obtained by mixing ocher powder and goethite powder, followed by firing. The method of claim 3, wherein the light generated from the lamp is ultraviolet light,
The ceramic ball has an air cleaning function, characterized in that the photocatalyst layer activated by the ultraviolet light is formed on the surface. The method of claim 5, wherein the air cleaning unit transfers the ultraviolet light generated from the lamp between the ceramic balls accommodated in the housing so as to increase the contact efficiency between the ultraviolet light generated from the lamp and the ceramic ball. An insect repellent having an air cleaning function, characterized in that it further comprises a light transmission means for inflow.

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