KR101471870B1 - Apparatus for capturing vermin and controlling method thereof - Google Patents

Abstract

The present invention relates to a pest catcher, and more particularly, to a pest catcher and a control method thereof, in which light and an inlet of a pest can be controlled according to the surrounding situation.

Description

Technical Field [0001] The present invention relates to a pest trapping apparatus and a control method thereof,

The present invention relates to a pest catching machine and a control method thereof, in which the amount of light such as ultraviolet rays and a pest inflow port for trapping pests can be adjusted according to the surrounding situation.

Conventionally, a method of spraying insecticide or burning insecticidal fragrance and removing smoke from smoke is widely used in combating insects which are harmful to human bodies and livestock.

However, there is a disadvantage in that insecticides and insecticidal fragrance contain toxic chemicals and are harmful to the human body. In addition, the insecticide and adhesive force of insect pests are remarkably reduced over time, Which is a drawback that the aesthetics of the present invention are greatly impaired.

Therefore, in recent years, an electric insecticidal apparatus has been widely used in which an electric insulator such as an ultraviolet lamp or a bombardment is electrified by electrifying the insect.

In general UV lamps or bombardment, it is common to attract insects with the same brightness and same inlet size for 24 hours, daytime and nighttime.

Therefore, if such an ultraviolet lamp or a bug is installed in a frequent place where people come and go, a strong ultraviolet light such as an ultraviolet lamp or a bug may be inconvenient.

In addition, when the installation place of the electric insecticide using the ultraviolet lamp or the insecticide is narrow in the whole space, a person may reside near the ultraviolet lamp or the insecticide, and there is a case where the ordinary work is needed.

In this case, people who are near the ultraviolet lamp or bombardment may be uncomfortable with the ultraviolet light.

Accordingly, there is a need for a technique of automatically controlling the lights and inlets of an ultraviolet lamp or a bombardment or turning the equipment on and off according to the surrounding environment in which the electric bacterium using the ultraviolet lamp or the bombardment is installed.

Korean Patent Registration No. 922,329 (hereinafter referred to as Prior Art 1) and Japanese Patent Publication No. 4,266,884 (hereinafter referred to as Prior Art 2) are technologies for controlling light and an inlet of an ultraviolet lamp or a bombardment.

Background Art [0002] Conventional art 1 is a technique related to indoor insect trapping insecticide device capable of controlling the irradiation range of light such as incentives inside.

According to the prior art 1, it is possible to adjust the irradiation range of light such as an inside attraction, but in order to adjust the cover, the user must rotate the cover assembled so as to be rotated from the body attached to the wall, .

Prior Art 2 is a technique relating to a catcher capable of controlling the degree of exposure of a larva lamp.

According to the prior art 2, the degree of exposure of the larva lamp can be adjusted by the sliding door so that the larva lamp and the adhesive sheet can be exposed to the outside less, but for this adjustment, the user has to manually adjust the sliding door.

Also, in the prior art, there is a function of setting the on / off of the equipment by the timer, but this is simply setting the on / off of the equipment with the passage of time.

Therefore, in the field of pest trap technology, it is necessary to (1) control the exposure area of the pest inflow port and simultaneously emit a desired amount of ultraviolet rays at a desired time, (2) There has been a demand for a technique for monitoring the number of pests and treating the carcass or residues accumulated inside the trapping machine.

Korean Patent Registration No. 922,329 Japanese Patent Publication No. 4,266,884

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in order to solve the problems of the prior art, and it is an object of the present invention to provide an apparatus and method for controlling a pest catcher by counting the number of trapped pests, And a control method thereof.

In order to solve such a problem, the first embodiment of the insect trapping machine according to the present invention

housing; Ultraviolet light; An ultraviolet light protection cover fixed to the housing and surrounding the ultraviolet light; A cover located outside the ultraviolet light protecting cover to increase or decrease an exposed area of the ultraviolet light or the like; Operating means including a driving portion for driving the cover; And a control unit for controlling the operating means.

In order to solve such a problem, in the second embodiment of the insect trapping machine according to the present invention,

And the cover is vertically slid.

In order to solve such a problem, in the third embodiment of the insect trapping machine according to the present invention,

And the cover is slid horizontally.

In order to solve such a problem, the fourth embodiment of the insect trapping machine according to the present invention

And the cover includes a shutter and a guide member for guiding the movement of the shutter.

In order to solve such a problem, in the fifth embodiment of the insect trapping machine according to the present invention,

The housing may further include a sensor including an infrared ray emitting unit and an infrared ray receiving unit.

In order to solve such a problem, a sixth embodiment of the pest catching machine according to the present invention is characterized by further comprising a display operating section for displaying and manipulating information for counting the number of trapped pests.

In order to solve such a problem, the seventh embodiment of the pest catcher according to the present invention is characterized in that it further comprises information for counting the number of trapped insects or a communication unit for communicating the state of the ultraviolet ray or the like with the outside.

In order to solve such a problem, the control method of the insect trapping machine according to the present invention

housing;

Ultraviolet rays or the like fixed to the housing;

An ultraviolet light protection cover fixed to the housing and surrounding the ultraviolet light;

A cover vertically or horizontally slid along the ultraviolet light protection cover;

A control unit for controlling the operation means of the sliding cover;

And a sensor including an infrared ray emitting unit and an infrared ray receiving unit formed in the housing,

Comparing the number of trapped pests counted by the sensor with a predetermined trapping limit pest count; And transmitting a signal to the outside when the number of insects trapped in the comparison step reaches a predetermined trapping limit insect number.

In order to solve such a problem, the control method of the insect trapping machine according to the present invention

A counting step of counting the number of trapped pests;

Sliding the cover so as to reduce an exposed area of the ultraviolet ray or the like when the trapped pest count is smaller than a preset trap limit pest count compared with the trapped pest count and a preset staged catch limit pest count,

And controlling the driving unit so that the cover is slid so as to increase the exposed area of the ultraviolet ray or the like when the trapped pest count is greater than a preset trapping limit pest count.

In order to solve such a problem, the control method of the insect trapping machine according to the present invention

housing;

Ultraviolet rays or the like fixed to the housing;

An ultraviolet light protection cover fixed to the housing and surrounding the ultraviolet light;

A cover vertically or horizontally slid along the ultraviolet light protection cover;

Operating means including a driving portion for driving the cover;

A control unit for controlling the operating means;

And a sensor including an infrared ray emitting unit and an infrared ray receiving unit formed in the housing,

Comparing a number of insects captured by each insect trapping unit when a plurality of insect capturing units are installed;

And controlling the operating means to slide the cover so as to change an exposed area of the ultraviolet ray or the like according to the number of insects captured in the comparing step.

The pest catcher and the control method thereof according to the present invention have the following advantages.

(1) Depending on the surrounding environment, it is possible to automatically adjust the light and entrance of the ultraviolet lamp or bombardment.

(2) By monitoring the number of trapped pests, it is possible to calculate the number of trapped pests, and it is possible to clean and manage the pest catching machine through the communication of the pest catching period with an external server, and to detect the abnormality.

(3) Since the network communication between the pest trapping devices is possible, the organic UV intensity and ultraviolet intensity can be controlled between the place where the insect pests are exposed and the place where the insect pests are exposed to a small amount, thereby improving the efficiency of pest catching.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 and Fig. 2 are operation diagrams showing a preferred embodiment of a pest catching machine according to the present invention;
3 is an operation diagram showing another preferred embodiment of a pest catching machine according to the present invention.
FIG. 4 is an operation diagram showing another preferred embodiment of a pest catching device according to the present invention; FIG.
5 is an operation diagram showing a sixth embodiment of a pest catching machine according to the present invention.
6 is a flowchart showing a first embodiment of a method for controlling a pest catcher according to the present invention.
7 is a flowchart showing a second embodiment of a method for controlling a pest catcher according to the present invention.
8 is a flowchart showing a third embodiment of a method for controlling a pest catcher according to the present invention.

Hereinafter, a first embodiment of the insect trapping machine 10 according to the present invention will be described in detail with reference to the accompanying drawings.

The pest catcher 10 according to the present invention includes a housing 60 and an ultraviolet light 30.

On the upper portion of the housing 60, a protective cover 20 such as an ultraviolet ray to be described later is fixedly formed.

The ultraviolet light 30 is also located on the top of the housing 60.

The ultraviolet light 30 is likely to be damaged by an external impact and the ultraviolet light protection cover 20 surrounds the ultraviolet light 30 so as to prevent inadvertent contact when the insect trapping machine 10 according to the present invention is operated.

The ultraviolet lamp 30 is the same as or similar in construction to the ultraviolet lamp or the insect lamp in the prior art, and thus a detailed description thereof will be omitted.

The ultraviolet light protective cover 20 protects the ultraviolet light 30 from an external impact and forms an opening 15 so that the insect that flew toward the ultraviolet light 30 can be caught by an electric shock.

The opening 15 is formed to be much longer than the width and is formed long in the lateral direction of the insect trapping machine 10. [

A plurality of openings 15 are formed in the height direction of the ultraviolet light protection cover 20.

A cover 50 for controlling the insect inflow port and for adjusting the intensity of the ultraviolet light quantity is formed outside the protective cover 20 such as the ultraviolet ray.

The cover 50 increases or decreases the exposed area of the ultraviolet light 30.

The cover 50 is driven by operating means including a driving portion.

That is, the insect capturing machine 10 according to the present invention includes a cover 50 for increasing or decreasing the exposed area of the ultraviolet light 30, and an operation unit 50 including a driving unit for increasing or decreasing the exposed area of the ultraviolet light 30, .

The drive unit may include a motor and a gear or belt or pulley or cable connected to the motor.

A cover 50 for increasing or decreasing the exposure area of the ultraviolet light 30 is formed on the outside of the protective cover 20 such as an ultraviolet ray.

In the second embodiment of the pest catcher 10 according to the present invention, the cover 50 is driven by operating means.

That is, in the pest catcher 10 according to the present invention, the cover 50 located outside the ultraviolet light protective cover 20 is slid in one direction by the operating means including the driving portion.

The driving unit may include a motor and a gear or a belt, a pulley or a cable connected to the motor as described above.

The cover 50 can be slid in one direction by the driving force of the motor when the gear, the belt, the pulley or the cable included in the driving unit is engaged with the cover 50.

The cover 50 is located on the outside of the ultraviolet ray protective cover 20 and the cover 50 also covers a part of the outside of the housing 60 as well.

The cover 50 is slid in one direction by the operating means including the driving portion.

Since the cover 50 is pierced from both the top and the bottom, contact or interference between the protective cover 20 and the housing 60 does not occur even if the cover 50 is vertically slid.

When the pest catcher 10 according to the present invention is fixed to a column or a wall surface by the pest insertion portion 80, the cover 50 can slide further downward than the housing 60. In this case, And the size of the pest inflow port becomes the maximum.

On the other hand, if the installation space of the pest catcher 10 according to the present invention is narrow, the cover 50 may be lifted up when the person is in the neighborhood, It can cover a large part.

The actuating means, that is, the gear and the belt or the pulley or the cable connected to the motor and the motor are well-known technologies, and a detailed description thereof will be omitted here.

And a control unit (not shown) for controlling the operation means.

The control unit (not shown) is located inside the housing 60 and controls the size of the pest inflow port and the intensity of ultraviolet light according to the surrounding environment of the pest catcher 10 according to the present invention.

Hereinafter, a third embodiment of the pest catcher 10 according to the present invention will be described in detail with reference to the accompanying drawings.

In the second embodiment of the pest catcher 10 according to the present invention, the cover 50 is slid horizontally.

As in the first embodiment of the pest catcher 10 described above, the cover 50 is located outside the ultraviolet light protection cover 20.

The cover 50 is divided into a first cover 50a and a second cover 50b.

Since the actuating means including the driving portion for sliding the divided cover 50 is a well-known technique, a detailed description thereof will be omitted here.

The overall shape of the first cover 50a and the second cover 50b is similar to that of the " C "when viewed from above the pest catcher 10 according to the present invention.

As such, the cover 50 is horizontally divided and slid by the first cover 50a and the second cover 50b, so that the size of the insect inflow port and the intensity of the ultraviolet light amount can be adjusted according to the surrounding environment.

As described above, the operating means for sliding the cover so as to control the size of the insect inflow port and the intensity of the ultraviolet light quantity is controlled by a control unit (not shown).

The control unit (not shown) is located inside the housing 60 and controls the size of the pest inflow port and the intensity of ultraviolet light according to the surrounding environment of the pest catcher 10 according to the present invention.

Further, when a flexible material is used as the material of the cover 50, the cover 50 that slides horizontally can be slid without being divided.

That is, when the pest catcher 10 according to the present invention is viewed from the front, a cover 50 made of a flexible material is curled and positioned on the right side 21 of the ultraviolet light protective cover 20.

On the left side (24) of the ultraviolet ray protective cover (20), an operating means including a driving part for driving the cover (50) is located.

A cable is connected between the motor and the cover 50, and more specifically, a cable is connected to the drive shaft of the motor.

When the motor is driven, the cable connected to the drive shaft of the motor slides horizontally on the cover 50 made of a flexible material, which is rolled around the right side 21 of the protective cover 20 such as ultraviolet rays.

Although the motor and the cable connected to the motor have been described herein, the cover 50 may be slid horizontally through the connection of the motor and the gear, belt, or pulley.

Hereinafter, a fourth embodiment of the insect trapping machine according to the present invention will be described in detail with reference to the accompanying drawings.

The cover 50 further includes a link 57 connected to the shutter 52 and the shutter 52.

A plurality of shutters 52 are formed at regular intervals in the height direction of the insect trapper 10 according to the present invention.

A motor M is disposed on one side of the shutter 52 and a gear G is formed between one side of the shutter 52 and the motor M. [

One end of the link 58 is attached to the other side of the shutter 52 and the other end is attached to the other side of the adjacent other shutter 52.

The shutter 52 is hinged to the cover 50.

The gear G is driven by the operation of the motor M and the shutter 52 of the cover 50 rotates about the hinge and is opened or closed.

At this time, since one shutter 52 and another adjacent shutter 52 are connected to each other by a link 58, one shutter 52 and another shutter 52 adjacent thereto are simultaneously opened or closed.

Hereinafter, a fifth embodiment of the insect trapping machine according to the present invention will be described in detail with reference to the accompanying drawings.

The housing 60 further includes sensors 90 and 95 including an infrared ray emitting unit 95 and an infrared ray receiving unit 90.

The infrared ray emitting portion 95 and the infrared ray receiving portion 90 are located on one side and the other side of the housing 60 so as to face each other.

The infrared ray emitting portion 95 emits infrared rays toward the infrared ray receiving portion 90. If a pest is captured by the ultraviolet ray 30, the body portion of the insect pest falls into the inside of the housing 60.

When a body part (part of a pest) falls into the housing 60, the infrared receiver 90 located at the other side of the inside of the housing 60 interrupts the infrared reception and is received again.

By counting the number of interruptions in the infrared reception in the infrared receiver 90 caused by trapping insects by the ultraviolet light 30 and dropping the carcass part of the insects into the housing 60, The total amount of the pests captured by the capturing machine 10 can be calculated.

Hereinafter, a sixth embodiment of the insect trapping machine according to the present invention will be described in detail with reference to the accompanying drawings.

The number of insects captured by the insect capturing machine 10 according to the present invention is calculated by counting the number of times infrared rays emitted from the infrared ray emitting section 95 are disconnected from the infrared ray receiving section 90 .

As described above, the fifth embodiment of the pest catcher 10 according to the present invention may further include a display operation unit 40 for displaying and manipulating information for counting the number of trapped pests.

The display control unit 40 does not only display information for counting the number of trapped pests but can also manipulate the pest inflow port of the pest catcher 10 according to the present invention and the amount of ultraviolet light to be set for 24 hours or seasons have.

Hereinafter, a seventh embodiment of a pest catching machine according to the present invention will be described in detail with reference to the accompanying drawings.

In the fifth embodiment of the insect trapping device according to the present invention, the number of trapping insects that can be detected from the number of times infrared rays emitted from the infrared ray emitting portion 95 are disconnected from the infrared ray receiving portion 90 is counted And a communication unit 100 for communicating the state of the ultraviolet ray 30 with the outside.

The communication unit 100 may be formed inside the housing 60 or outside the protective cover 20 such as an ultraviolet ray. In the fifth embodiment of the insect trapping apparatus according to the present invention, the communication unit 100 is formed inside the housing 60.

The information for counting the number of trapped insects or the state of the ultraviolet ray 30 can be exchanged with the externally installed server 1 through the communication unit 100. [

Therefore, from the information of counting the number of trapped insects delivered to the server 1 or the state of the ultraviolet ray 30, it is possible to easily grasp whether the insect trapping machine 10 according to the present invention requires cleaning and maintenance Lt; / RTI >

Further, when a plurality of pest catching machines 10 according to the present invention are installed, network communication between the pest catching machines 10 is possible through the communication unit 100 within a predetermined distance.

It is possible to grasp the place where a large number of insects appear from the information counting the number of trapped insects, thereby increasing the light intensity and ultraviolet intensity of the insect trapping device 10 installed in the area, and conversely, The light intensity and ultraviolet intensity of the installed pest catcher 10 can be reduced.

On the other hand, a peg inserting portion 80 is formed on the rear surface of the pest catcher 10.

By inserting a cradle (not shown) through the cradle insertion portion 80, the insect capturing machine 10 can be fixed to a wall surface or a column or the like.

Hereinafter, a first embodiment of a method for controlling a pest catching device according to the present invention will be described in detail with reference to the accompanying drawings.

First, in the comparison step S1, the number of trapped insects counted by the sensors 90 and 95 comprising the infrared ray emitting unit 95 and the infrared receiver 90 is compared with the predetermined trapping limit insect number.

In the signal transmission step S2, when the insect number captured in the comparison step S1 is close to a predetermined catch limit pest count or reaches a predetermined catch limit pest count, the signal is transmitted to the outside.

The signal transmitted in the signal sending step S2 is transmitted to the manager managing the insect capturing machine 10 through the server 1 installed in the outside.

The manager informs the maintenance personnel responsible for the maintenance work of the pest catcher 10 installed in the area to inform the position of the pest catcher 10 approaching or reaching the trap limit pest count.

The maintenance personnel clean the body of the insect pests accumulated on the housing 60 of the insect capturing machine 10 installed in the area and clean the body part of the insect pests remaining on the ultraviolet light 30 , The number of trapped insects counted by the sensors 90 and 95 consisting of the infrared ray emitting section 95 and the infrared ray receiving section 90 is reset to "0 ".

Hereinafter, a second embodiment of a method for controlling a pest catching device according to the present invention will be described in detail with reference to the accompanying drawings.

First, in the counting step S1 ', the trapped insect number is counted.

The cover 50 is slid so as to reduce the exposed area of the ultraviolet light 30 when the trapped pest count is smaller than the preset trap limit pest count compared with the trapped pest count and the preset trapping limit pest count, (S2 ') of controlling the driving unit so that the cover (50) is slid so as to increase the exposure area of the ultraviolet light (30) when the number of the insect pests is greater than a preset number of trapping limit pests.

Hereinafter, a third embodiment of a method for controlling a pest catching device according to the present invention will be described in detail with reference to the accompanying drawings.

First, in a comparison step S1 ", when a plurality of insect trappers 10 are installed in a certain space, the number of insects trapped by each insect trapper 10 is compared with each other.

Controlling the driving unit so as to slide the cover 50 so as to vary the exposure area of the ultraviolet rays 30 of each pest catcher 10 according to the number of pests trapped in the comparison step S1 " S2 ").

It will be understood by those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims .

The pest catching unit and the control method thereof according to the present invention can automatically adjust the light and the inflow port of the ultraviolet lamp or the insect pest according to the surrounding environment so that the ultraviolet rays that can sense inconvenience are less exposed, Network communication between mutual and pest trapping machines and external servers is possible, which makes it possible to more efficiently control pest catching and pest catching.

1: Server 10: Pest catcher
20: ultraviolet ray protective cover 15: opening
30: ultraviolet light 40: display control unit
50: cover 50a: first cover
50b: second cover 60: housing
80: cradle insertion part 90: infrared receiver
95: Infrared ray emitting part 100:
S1: comparison step S2: signal transmission step
M: Motor G: Gear

Claims (10)

housing;
Ultraviolet light;
An ultraviolet light protection cover fixed to the housing and having an opening and surrounding the ultraviolet light;
A cover which can increase or decrease the exposed area of the ultraviolet rays or the like and can be vertically or horizontally slid on the outside of the ultraviolet light protective cover;
Operating means including a driving portion for driving the cover;
A control unit controlling the operating means according to the installed location or using environment to adjust the size of the opening; And
A sensor capable of calculating the quantity of insects trapped by the infrared ray emitting unit and the infrared ray receiving unit;
Lt; / RTI >
The method according to claim 1,
Wherein the cover further comprises a shutter and a link connected to the shutter.
3. The method according to claim 1 or 2,
Further comprising a display operating section for displaying and manipulating information counting the number of trapped pests.
3. The method according to claim 1 or 2,
Further comprising a communication unit for communicating information to the outside, the information for counting the number of trapped pests or the state of the ultraviolet ray or the like.
housing;
Ultraviolet light;
An ultraviolet light protection cover fixed to the housing and having an opening and surrounding the ultraviolet light;
A cover which can increase or decrease the exposed area of the ultraviolet rays or the like and can be vertically or horizontally slid on the outside of the ultraviolet light protective cover;
Operating means including a driving portion for driving the cover;
A control unit controlling the operating means according to the installed location or using environment to adjust the size of the opening; And
A sensor capable of calculating the quantity of insects trapped by the infrared ray emitting unit and the infrared ray receiving unit;
The control method comprising the steps of:
A counting step of counting the number of trapped pests;
Compared to the number of trapped pests and the number of pre-set trapping limit pests,
When a predetermined trapping limit pest count is reached, a signal is transmitted to the outside,
When the trapped pest count is smaller than a preset trapping limit pest count, the cover is slid so as to reduce the exposed area of the ultraviolet rays or the like,
Controlling the operating means such that the cover is slid so as to increase the exposure area of the ultraviolet rays or the like when the trapped pest count is greater than a preset number of trapping pest counts;
And a control unit for controlling the pest trapping unit.
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