KR101283662B1 - Harmful insect grasping equipment - Google Patents

Abstract

The present invention relates to a pest collecting device, the housing 10 having a hollow cylindrical structure, the lower case 20 coupled to the lower end of the housing 10, and is inserted into the lower case 20 The cover member 80 for protecting the battery 90 and the battery 90, a support member 70 inserted into the lower case 20, and a top surface of the support member 70. A collecting network 60, a fan housing 50 disposed above the collecting network 60 and having a lower end coupled to the housing 10, and a roof member 30 spaced apart from an upper side of the fan housing 50. And light emitting means for attracting pests.
The present invention can select the operation of the pest trapping device according to the conditions of day or night, indoor or outdoor by using the habit of the pest reacts to the heat and carbon dioxide, and the fan unit is interlocked only when the pest is approached by the proximity sensor. As a result, there is an advantage in that the operation noise as well as unnecessary power consumption can be reduced.
In addition, even when attracting and capturing pests, it is possible to capture more aggressively by attracting cakes installed on the roof members.

Description

Harmful insect grasping equipment

The present invention relates to a pest trap device that can be effectively attracted by using the habits of pests such as mosquitoes or moths, or when the pests appear less frequently, and naturally block the access of the pests.

Mosquitoes have habits that are attracted to body odors, heat generated from host animals, and carbon dioxide. In general, the method of combating mosquitoes includes chemical control methods using mosquito incense, biological control methods using loach, etc., physical control methods for attracting mosquitoes with pyloric lamps and carbon dioxide, and then applying high voltages to combat mosquitoes, and water puddles. Environmental control measures to improve the environment so that the larvae can't live. In the case of home or portable mosquito repellent is a spray type for spraying mosquito incense or mosquito pesticides are mainly used. However, in the case of mosquito incense or spray type, it may have a bad effect on children, including infants, due to its unique rich fragrance. Not only is the efficiency lowered, but there is also the inconvenience of collecting separate insecticides.

An object of the present invention is to use the habits of pests such as mosquitoes or moths to effectively attract the traps or when the frequency of occurrence of the pests is low, the object of the present invention is to naturally block the access of the pests.

The present invention is a hollow cylindrical structure in which the spiral portion is formed on the upper and lower inner circumferential surface and the switch is installed on one side of the outer circumferential surface,

A lower case in which a spiral portion that is engaged with a lower spiral portion of the housing is formed on an upper outer circumferential surface and a through-hole is radially formed around a seating frame and the seating frame on an inner bottom surface and a charging socket is installed on one side of the outer circumferential surface;

A cover member coupled to an upper part of the battery for protection of the battery and the battery inserted into the seat frame of the lower case;

A support member inserted into the lower case and integrally formed with a cross support on an upper surface thereof;

Received on the upper surface of the support member and detachably coupled to the receiving member of the mesh structure provided for collecting the attracted pests and the upper portion of the receiving member, so that the pests sent from the upper side is naturally received into the receiving member A collecting network consisting of a guide cap having a funnel structure provided;

A fan housing disposed at an upper portion of the collecting network and having a spiral portion fitted to a spiral portion of a housing at a lower surface thereof, and a coupling hole for insertion of a fan unit at a center of the upper surface thereof, and a rib housing integrally formed around the coupling hole;

A groove for fitting the top of the rib is formed on the bottom and the pest collecting device, characterized in that it comprises a light emitting means for attracting the roof member and pests installed on the upper side of the fan housing in a state supported by the rib It is intended to achieve the above object by providing a.

The present invention can select the operation of the pest trapping device according to the conditions of day or night, indoor or outdoor by using the habit of the pest reacts to the heat and carbon dioxide, and the fan unit is interlocked only when the pest is approached by the proximity sensor. As a result, the operation noise and the unnecessary power consumption can be reduced.

In addition, even when attracting and capturing pests, it is possible to capture more aggressively by attracting cakes installed on the roof members.

1 is a perspective view of a pest collecting device according to the present invention.
2 is an exploded perspective view of a pest collecting device according to the present invention.
3 is a cross-sectional view of a pest collecting device according to the present invention.
5 is a bottom view of the roof member according to the present invention.

Hereinafter, an embodiment of a pest collecting device according to the present invention will be described.

The present invention is a hollow cylindrical structure in which the spiral portion is formed on the upper and lower inner circumferential surface and the switch 10 is installed on one side of the outer circumferential surface, and

The spiral portion that is engaged with the lower spiral portion of the housing 10 is formed on the upper outer peripheral surface and the through-hole 22 is radially formed around the seating frame 21 and the seating frame 21 on the inner bottom and at the same time the outer peripheral surface A lower case 20 to which the charging socket 23 is placed;

A cover member 80 coupled to an upper portion of the battery 90 to protect the battery 90 and the battery 90 inserted into the seat frame 21 of the lower case 20, and

A support member 70 inserted into the lower case 20 and having a cross-shaped support 71 integrally formed on an upper surface thereof;

The pest seated on the upper surface of the support member 70 and detachably coupled to the receiving member 62 of the mesh structure provided for capturing the attracted pests and the upper part of the receiving member 62 and sent from the upper part are received. A collecting network body consisting of a guide cap 61 having a funnel structure to be naturally received into the inside of the member 62;

It is disposed on the upper side of the collecting network and has a spiral portion on the bottom surface to be joined to the spiral portion of the housing 10, the coupling hole 51 for insertion of the fan unit 53 in the center of the upper surface and around the coupling hole 51 The fan housing 50 is formed integrally with the rib 52,

Grooves 32 into which the upper end of the ribs 52 are fitted are formed on the bottom surface, and the lure of the roof member 30 and pests installed on the upper side of the fan housing 50 while being supported by the ribs 52 is attracted. It characterized in that it comprises a light emitting means for.

The light emitting means may block the access of the pest by emitting light in the wavelength range of 600 ~ 700nm that do not like pests when the pest collection device does not need to operate continuously because the frequency of appearance of the pest in the center of the upper surface of the roof member 30 is not high. In order to install an infrared LED 33, but the bottom surface of the roof member 30 is frequent the appearance of pests, if the collection is required to emit light in the wavelength of 350 ~ 370nm wavelength of the pests to attract pests In order to simultaneously install the UV LED 34 to be installed, or to operate selectively depending on the frequency of appearance of pests.

In addition, in order to be able to attract more aggressive pests to form a ring-shaped seat groove 31 on the bottom of the roof member 30, mixing and kneading sawdust, yeast, lactic acid, sugar in the seat groove 31 And a donut cake 40 in the form of a donut was solidified.

In addition, the bottom surface of the roof member 30, the bar-shaped support 36 is installed on one side of the seat groove 31 so as to prevent the detachment of the attraction cake 40 to be rotatable with a screw (S).

In addition, the bottom surface of the roof member 30 is a proximity sensor for detecting when the pest approaches by the operation of the ultraviolet LED 34 and the action of the attracting cake 40 to allow the fan unit 53 to interlock ( 35) to reduce operating noise and unnecessary power consumption.

The infrared LED 33, the ultraviolet LED 34, and the fan unit 53 are organically connected to the battery 90 and the switch 11, and the electrical configuration is a part that can be easily implemented by those skilled in the art. The description will be omitted.

Referring to the assembly of the pest trapping device according to the invention as follows.

As shown in FIGS. 2 and 3, the battery 90 provided in the seating frame 21 formed on the inner bottom surface of the lower case 20 is inserted, and the battery 90 is caused by dust or pest bodies. The cover member 80 is sealed to prevent contamination.

The battery 90 is a rechargeable battery 90 is applied so that it can be used at home as well as outdoors.

When the installation of the battery 90 is completed, the support member 70 having the cross-shaped support 71 is inserted into the lower case 20.

The reason for installing the support member 70 is basically for supporting the collecting network, and the air supplied downward by the fan unit 53 passes through the through hole 22 of the lower case 20 through the collecting network. This is to secure the ventilation space portion (A) to be smoothly discharged to the outside.

When the support member 70 is installed in the lower case 20 as described above, the receiving member 62 of the collecting network is mounted on the upper surface of the support member 70.

The receiving member 62 serves to trap the pests forced to flow out and to allow the air sent downward from the fan unit 53 to be naturally discharged through the through hole 22 of the lower case 20. It is formed by a mesh structure.

In addition, the guide cap of the funnel structure on the upper portion of the receiving member 62 to allow the pest to be smoothly introduced into the receiving member 62 through the central guide hole 61a by the blowing of the fan unit 53. 61 is combined.

The guide cap 61 is integrally formed with a coupling frame 61b open downward on the outer circumferential surface of the guide cap 61 so as to be fitted into or separated from the upper end of the receiving member 62. This is a structure taken in order to be able to easily handle the pest collected on the inside of the receiving member (62).

On the other hand, the fan housing 50 is installed on the upper portion of the collecting network. The fan housing 50 has a fan unit 53 for sending pests toward the trapping network is installed in the center and the lower spiral portion is fastened to the upper spiral portion of the housing 10.

When the installation of the fan housing 50 is completed, one end of the screw (40) is inserted in the state in which the attracting cake 40 formed for the purpose of active attraction of pests is inserted into the groove 32 of the roof member 30 as shown in FIG. S) Each rib 52 of the fan housing 50 is recessed in the roof member 30 in a state in which the distal end portion fixed to the S) is rotated toward the attracting cake 40 to prevent the detachment of the attracting cake 40. It will be inserted into (32).

The action of the pest trapping device according to the present invention is stored in a place where pests frequently appear in a state where the battery 90 is charged through the charging socket 23 of the lower case 20.

First, when the activity of the pest is slowed down or when the frequency of appearance is low or when it is determined that it is not necessary to continuously operate the pest collecting device, the infrared LED 33 is operated only to use a method of blocking the access of the pest.

When the infrared LED 33 is operated, light of about 600 to 700 nm wavelength is emitted from the infrared LED 33.

The light of the above-mentioned range is light of the wavelength band that the pests do not like, so even if the pests are not physically driven out, the pests are reluctant to approach the collecting device, thereby minimizing power consumption and avoiding contact with the pests.

However, at night or outdoors when the activity of the pest becomes active, it is not enough to completely drive out only by the operation of the infrared LED 33, and at this time, the method of collecting the pest more actively is selected.

When the switch 11 is turned on to capture the pest, the light of 350-370 nm wavelength which the pest likes is emitted from the ultraviolet LED 34 to attract the pest toward the collecting device, and when the pest approaches the collecting device, the proximity sensor 35 detects the approaching condition of the pest and at the same time applies power to the fan unit 53 to operate the fan unit 53.

Approaching to the collecting device due to the ultraviolet LED 34, the pest is attracted by the attracting cake 40 attached to the roof member 30 between the fan housing 50 and the roof member 30 by the rib 52. Attempts to flow into the provided space.

The reason why the pests are collected by the attracting cake 40 is that the attracting cake 40 is made of a mixture of sawdust, yeast, lactic acid, and sugar, and when it is exposed to the atmosphere while mounted on the roof member 30, This is because the moisture and yeast of fermentation cause fermentation to produce carbon dioxide that the pests react to.

The attraction cake 40 is satisfied if each of the above-described components are added, and the ratio to the components is not important, but solidification will be necessary for installation on the roof member 30. When pests enter the space portion between the roof member 30 and the fan housing 50 to approach the attracting cake 40, the fan unit 53 is collected under the fan housing 50 by suction force. It is sent to the guide cap 61 of the mesh.

The pest sent to the guide cap 61 is introduced into the receiving member 62 through the central guide hole 61a along the inward inclined surface by the continuous blowing force of the fan unit 53.

Insects introduced into the receiving member 62 is not only escaped to the outside by the structural features of the guide cap 61, but also because the continuous blowing of the fan unit 53 in the upper acts as a pest Escape is virtually impossible.

When dead bodies of pests are accumulated inside the accommodating member 62, since the air flow is not smooth, the pests collected in the accommodating member 62 are cleaned and then refitted.

The pest collection is separated from the housing (10) of the fan housing 50 and then the guide cap 61 is lifted to the upper group in the state to pull out the collecting network to the outside of the coupling frame 61b of the guide cap 61 ) Is separated from the upper end of the receiving member 62, and the body of the pest trapped in the receiving member 62 is collected.

When the carcasses of the pests are treated in the same manner as above, the collecting network is placed in the state in which the coupling frame 61b of the guide cap 61 is inserted into the upper end of the receiving member 62 and the upper surface of the receiving member 62 is tightly sealed. After seating on the upper surface of the support member 70 in the original position, the lower screw portion of the fan unit 53 may be fastened to the upper screw portion of the housing 10 again.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Is also within the scope of protection of the present invention.

10 housing 11 switch
20: lower case 21: seat frame
22: through hole 23: charging socket
30: roof member 31: seat groove
32: groove 33: infrared LED
34: UV LED 35: Proximity Sensor
36: support 40: manned cake
50: fan housing 51: coupling hole
52: rib 53: fan unit
61: Information cap
61a: guide hole 61b: joining frame
62: receiving member 70: support member
71: support 80: cover member
90: Battery

Claims (6)

As a hollow cylindrical structure, the spiral portion is formed on the upper and lower inner circumferential surface and the housing (10) to which the switch 11 is placed on one side of the outer circumferential surface,
The spiral portion that is engaged with the lower spiral portion of the housing 10 is formed on the upper outer peripheral surface and the through-hole 22 is radially formed around the seating frame 21 and the seating frame 21 on the inner bottom and at the same time the outer peripheral surface A lower case 20 to which the charging socket 23 is placed;
A cover member 80 coupled to an upper portion of the battery 90 to protect the battery 90 and the battery 90 inserted into the seat frame 21 of the lower case 20, and
A support member 70 inserted into the lower case 20 and having a cross-shaped support 71 integrally formed on an upper surface thereof;
The pest seated on the upper surface of the support member 70 and detachably coupled to the receiving member 62 of the mesh structure provided for capturing the attracted pests and the upper part of the receiving member 62 and sent from the upper part are received. A collecting network body consisting of a guide cap 61 having a funnel structure to be naturally received into the inside of the member 62;
It is disposed on the upper side of the collecting network and has a spiral portion on the bottom surface to be joined to the spiral portion of the housing 10, the coupling hole 51 for insertion of the fan unit 53 in the center of the upper surface and around the coupling hole 51 The fan housing 50 is formed integrally with the rib 52,
Grooves 32 into which the upper end of the ribs 52 are fitted are formed on the bottom surface, and the lure of the roof member 30 and pests installed on the upper side of the fan housing 50 while being supported by the ribs 52 is attracted. Pest collecting device, characterized in that configured to include a light emitting means.
The method of claim 1,
The light emitting means may block the access of the pest by emitting light in the wavelength range of 600 ~ 700nm that do not like pests when the pest collection device does not need to operate continuously because the frequency of appearance of the pest in the center of the upper surface of the roof member 30 is not high. In order to install an infrared LED 33, but the bottom surface of the roof member 30 is frequent the appearance of pests, if the collection is required to emit light in the wavelength of 350 ~ 370nm wavelength of the pests to attract pests To install at the same time by the ultraviolet LED (34) to pest control device, characterized in that it can be selectively operated in accordance with the installation site or the frequency of appearance of pests.
The method of claim 1,
Forming a ring-shaped seat groove 31 on the bottom of the roof member 30 to attract more pests, by mixing and kneading sawdust, yeast, lactic acid, sugar in the seat groove 31 A pest collecting device, characterized in that the solidified donut-shaped attracting cake (40) is provided.
The method of claim 3,
The bottom surface of the roof member 30 is characterized in that the bar-shaped support (36) is rotatably installed on one side of the seat groove (31) with a screw (S) to prevent separation of the attraction cake (40). Pest collecting device.
5. The method according to any one of claims 1 to 4,
On the bottom of the roof member 30, by installing a proximity sensor 35 to detect the pest when approaching the fan unit 53 to interlock and reduce the operation noise and unnecessary power consumption. Pest collecting device.
The method of claim 1,
The guide cap 61 is a pest collecting device, characterized in that to integrally form a coupling frame (61b) open downward on the outer circumferential surface to be separated and combined in the receiving member 62 for the collection of pests.

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