KR20180079184A - Insect trap - Google Patents

Abstract

The present invention provides an insect trap. In one embodiment, the insect trap comprises: a body with a suction fan mounted thereon; a first support capable of moving up and down with respect to the body; and a light source part having a light source mounting part on which a light source is mounted and coupled to one end of the first support to move at a first height and a second height depending on the movement of the first support. An object of the present invention is to provide the insect trap which can be carried easily and has high collection efficiency of insects.

Description

INSECT TRAP

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a retractor, and more particularly, to a retractor having a reduced volume during carrying and being portable.

Recently, pests have been increasing due to climatic and social influences such as global warming and eco-friendly policies. In addition to damaging crops and livestock, pests can also affect humans by moving pathogens such as malaria, dengue fever, and Japanese encephalitis. In particular, the recent spread of the fear of zika virus (ZIKV) infection in mosquitoes has led to more research on mosquito insecticide related methods.

In connection with the insecticidal method, conventionally, a chemical control method using an insecticide, a biological control method using a loach or the like, a physical control method in which a pest is attracted to a pylorus or the like by a pyloric or the like and then a high voltage is applied to the pest, And an environmental control method to improve the surrounding environment so that the larvae can not live on. However, in the case of the chemical control method, the second pollution problem arises, and the biological control method or the environmental control method may take a relatively large expense, the processing time and effort, and in the case of the physical control method using the insecticide or trapper, There is a problem that the convenience of the user is deteriorated or there is a risk that the high voltage device is accompanied.

On the other hand, the UV light source is used for various purposes such as medical purpose such as sterilization and disinfection, analysis purpose using the irradiated UV light, industrial purpose of UV hardening, cosmetic purpose of UV tanning, Conventional UV light source lamps used as such UV light sources include mercury lamps, excimer lamps, and deuterium lamps. However, all of these conventional lamps have a problem of power consumption, heat generation, short life span, and environmental pollution due to toxic gas filling the interior.

In order to solve the problem of the conventional UV light source lamps described above, the UV LEDs are receiving the spotlight, and the UV LEDs have advantages of low power consumption and no environmental pollution problem. Therefore, there have been studies on a trapper that conventionally collects insects attracted by attracted light by a suction fan.

However, in the catcher which collects insects by the suction fan using the conventional UV LED, the insects such as a mosquito are attached to the suction fan, noise is generated by the fan, and the speed control of the suction fan is inappropriate, Or air was not sucked into the trapper and the airflow generated by the trapper was not mechanically and easily controlled so that the suction efficiency was low or excessive power had to be used.

In addition, conventionally used trappers have a problem that corpses of insects such as mosquitoes are decayed and odors are generated around the trappers.

On the other hand, various outdoor catchers have been developed, but they are difficult to carry easily or have a very low collection efficiency. Therefore, it is necessary to develop a trapper which can be easily carried by the user and is highly efficient in collecting pests.

The present invention intends to provide a trap that can be carried easily and has a high collection efficiency of insects.

The present invention also provides an insect repellent having an excellent collection efficiency by attracting insects using a light source to the vicinity of a trap, and sucking insects through a suction air stream formed by the suction fan.

The present invention also provides a trapper including a photocatalyst material that generates a deodorizing effect.

In addition, the present invention provides a catcher capable of emitting light such as carbon dioxide as well as light as a mosquito attracting element.

The present invention also provides a catcher provided with a lower light source capable of sterilizing a catcher or insecting an insect caught in the catcher.

Another object of the present invention is to provide a catcher including a first insect filter portion which prevents noise caused by unbalance of the suction fan and prevents insects having a large volume from flowing into the body in order to improve the durability of the motor.

In addition, the present invention provides a catcher capable of varying the pull-in and pull-out heights of the plurality of second support rods in order to improve the collection efficiency and reduce the noise generation by being stably installed even if the installation environment is not flat. I want to.

In order to efficiently use the space in the body and improve the collecting efficiency of insects, and to make it portable and easy to carry, the first support and / or the second support are disposed between the body and the body cover And to provide a catcher that is pulled in and out.

The present invention is also directed to a method for inspecting an insect, in which a first support and a first guide unit include a double guide structure in order to stably guide the first support, I want to provide a catcher.

In order to improve durability by preventing excessive external force from being applied when the mobile body is changed from a portable state to a use state and to maintain a stable installation state in a use state to improve the collection efficiency of insects, In which the clamping forces are different from each other.

The present invention also aims to provide a catcher to which a pressing member, for example, an elastic pressing member, is applied as a fixing means in order to provide a stable fixing force while improving the durability of each catching unit.

The present invention also provides a catcher equipped with a light source that emits light of a wavelength and intensity harmless to the human body while having high efficiency of attracting mosquitoes.

According to one embodiment of the present invention, the present invention provides a fan assembly comprising: a body having a suction fan; A first support member guided from the upper side to the lower side with respect to the body; A light source unit coupled to one end of the first support and having a light source mounting portion on which a light source is mounted; And a second support which is guided from the lower part to the upper part with respect to the body.

The catcher according to an embodiment of the present invention can provide a catcher that is portable and easy to use in a form in which the respective components are collapsed or interleaved so that the volume is efficiently reduced.

In addition, since the trapping unit according to the embodiment of the present invention uses a trapping unit of a shape capable of reducing the volume, it occupies almost no volume during carrying, so that it is possible to provide a trapping unit that is easy to carry and use.

Further, the catcher according to the embodiment of the present invention can use the catcher while keeping the cleanliness by using the catching part which is easily removable from the catching part or the disposable catching part.

In addition, the trapper according to an embodiment of the present invention not only attracts insects with ultraviolet rays but also generates carbon dioxide, thereby improving insect attracting effect.

In addition, the trapper according to an embodiment of the present invention performs a deodorizing function, so that a pleasant environment can be formed around the trapper.

Further, the catcher according to the embodiment of the present invention can be installed with the lower light source, thereby insecting the insect or allowing the insect-retained bacteria to be sterilized in the catcher.

Further, the catcher according to an embodiment of the present invention includes the first insect filter portion that prevents insects having a large volume from being introduced into the body, thereby preventing noise caused by the unbalance of the suction fan and improving the durability of the motor.

Further, the catcher according to an embodiment of the present invention includes a plurality of second supports that can respectively change the pull-in and pull-out height, so that the installation environment is not flat and stably installed even when there is a slope, Can be reduced.

Further, the catcher according to an embodiment of the present invention allows the first support and / or the second support to be pulled in and out of the space between the body and the body cover, thereby effectively using the space in the body and improving the collection efficiency of the insects At the same time, the volume of the portable device can be sufficiently reduced to facilitate portability.

Further, the catcher according to an embodiment of the present invention includes the first support unit and the first guide unit in the form of a double guide structure, so that the first support unit is stably guided without being separated and separated, The efficiency can be improved.

Further, the catcher according to an embodiment of the present invention includes a first support having different fixing forces in a portable state and a used state, respectively, so that an unreasonable external force is not applied when the portable support is changed from a portable state to a use state, The insect collection efficiency can be improved by maintaining a stable installation form.

In addition, the trapper according to an embodiment of the present invention can control the wavelength and intensity of light emitted from the light source, thereby generating light that is harmless to the human body and can effectively attract insects.

1 and 2 show a catcher according to an embodiment of the present invention.
3 is an exploded perspective view of a body according to an embodiment of the present invention.
4 is an exploded perspective view of a catcher according to an embodiment of the present invention.
FIG. 5 is a top view of a body according to an embodiment of the present invention.
6 is a side view of an upper support and a light source according to an embodiment of the present invention.
7 illustrates a top view of a body according to an embodiment of the present invention.
8 is a bottom view of the body according to an embodiment of the present invention.
9 shows a lower support according to an embodiment of the present invention.
10 is a bottom view of the body according to an embodiment of the present invention.
11 shows a catcher according to an embodiment of the present invention.
12 is an exploded perspective view of a light source unit according to an embodiment of the present invention.
13 is a bottom view of a light source cover according to an embodiment of the present invention.
FIGS. 14 to 15 show states of use of the catcher according to an embodiment of the present invention.
Figs. 16 to 18 show a catcher according to an embodiment of the present invention, and Fig. 19 shows a state of use.
20 shows a catcher according to an embodiment of the present invention.
Figs. 21 to 23 show a catcher according to an embodiment of the present invention, Fig. 24 shows a state diagram of use, and Fig. 25 shows a lower part of the catcher.
26 shows a lower part of a catcher according to an embodiment of the present invention.
27 shows a catcher according to an embodiment of the present invention.
28 is a portable state of a catcher according to an embodiment of the present invention.
29 to 31 are exploded perspective views of a catcher according to an embodiment of the present invention.
32 is an exploded perspective view in which a first insect filter unit, a first guide unit, a first support, and a light source unit are separated in a catcher according to an embodiment of the present invention.
33 shows a first guide unit of a retainer according to an embodiment of the present invention.
FIG. 34 is an exploded perspective view in which a first insect filter unit, a first guide unit, a first support, and a light source unit are separated in a catcher according to an embodiment of the present invention.
35 shows a body cover of a catcher according to an embodiment of the present invention.
36 is an exploded perspective view of a catcher according to an embodiment of the present invention.
37 shows a second guide unit of a retainer according to an embodiment of the present invention.
38 shows a second support of a retainer according to an embodiment of the present invention.
Figs. 39 to 41 illustrate the installation state of the second support of the retainer according to the embodiment of the present invention.
Figure 42 illustrates a second insect filter portion of a retainer in accordance with an embodiment of the present invention.
43 to 47 show a light source according to an embodiment of the present invention.
FIG. 48 is a block diagram showing the configuration of a catcher according to the present invention. FIG.
FIG. 49 shows a block diagram of a configuration of a sensor unit according to the present invention. FIG.
FIG. 50 is a block diagram illustrating a light source control by the illuminance sensor according to the present invention.
51 to 53 show waveforms of driving voltages according to the PWM control of the light source according to the present invention.
54 schematically shows a circuit of a light source according to the present invention.

It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to inform.

Where an element is referred to herein as being located on another element "above" or "below", it is to be understood that the element is directly on the other element "above" or "below" And that it can be intervened. In this specification, the terms 'upper' and 'lower' are relative concepts set at the observer's viewpoint. When the viewer's viewpoint is changed, 'upper' may mean 'lower', and 'lower' It may mean.

Like numbers refer to like elements throughout the several views. It is also to be understood that the singular forms "a," "an," and "the" include plural referents unless the context clearly dictates otherwise, and the terms "comprise" Or combinations thereof, and does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

On the other hand, the insects referred to in the present invention are not limited to the kinds of insects, but may include various kinds of insects, particularly mosquitoes, and the light sources referred to in the present invention are not limited to the types, For example, a UV LED light source can be mounted.

Also, the first height referred to in the present invention may refer to the lowest position when the first support is moved downward, and the second height may refer to the highest position when the first support moves upward. For example, the first height may include a case where the light source mounting unit is exposed or not exposed from the outside, for example, may refer to a state for carrying the catcher according to an embodiment of the present invention, And the second height includes a state in which the light source unit is disposed at a predetermined distance from the body.

The third height referred to in the present invention may refer to the highest position when the second support is moved upward and the fourth height may refer to the lowest position when the second support moves downward. For example, the third height includes a position where the lower end of the second support is disposed higher than the lower end of the body, and the fourth height includes positioning the body at a predetermined height from the ground.

An embodiment of the present invention is a fan assembly comprising: a body having a suction fan; An upper support disposed on the body; A light source unit mounted on one end of the upper support and having a light source mounting part; And a lower support disposed at a lower portion of the body, the guide having a guide for guiding at least one of the upper support and the lower support into the body.

For example, the guide portion may include an upper guide portion for guiding the upper support to the body, and the upper support and the body may have at least one guide rail and a fixed portion.

At this time, the upper rail is coupled to the fixed rail by rotation of the upper rail or insertion of the upper rail into the body, so that the upper rail can be fixed to the body.

The upper support may also have at least one guide rail, and the body may have at least one fixed protrusion.

At least one of the upper support and the body may have a guide groove, and the fixing protrusion may be coupled to the guide groove to fix the upper support to the body.

Also, the body may have an insect filter portion disposed on the body, and the insect filter portion may have the upper guide portion.

Meanwhile, the guide portion includes a lower guide portion for guiding the lower support member to the body, and the lower support member and the body may have at least one engagement groove and an elastic fastener.

For example, the lower support may be rotated or inserted into the body so that the coupling groove and the elastic fastener are coupled to each other to fix the lower support to the body.

In one example, the lower support has at least one engagement groove, and the body may have at least one resilient engagement piece.

On the other hand, the body may have a collecting portion joining member.

At this time, the collecting portion coupling member may have a plurality of plates protruding outwardly.

At this time, the lower support may be disposed between the plurality of plates.

For example, the upper support may be disposed in a lateral direction of the light source mounting portion, but may be disposed at a different position from an area where the lower support is disposed.

For example, the body may have a polygonal shape in which at least a portion of the corners is rounded, and the upper and lower supports may be disposed in corner areas of the body, respectively.

Meanwhile, the plate may have irregularities formed continuously in at least a part of the region.

The light source unit may include a light source unit cover disposed at an upper portion of the light source unit, and the light source unit may be disposed at a lower portion of the light source unit and open in a direction in which the light source unit cover is disposed.

For example, the light source mounting portion may have an insertion groove into which at least one of the light source and the transparent member is inserted and fixed.

In addition, the light source cover may have a light source crimping portion on a lower surface thereof.

For example, the light source cover may have a step on the lower surface thereof.

The outer circumferential surface of the light source unit and the outer circumferential surface of the body may be arranged in a line when the upper rail is coupled to the body by the guide rail and the fixing protrusion.

Further, the collecting portion can be attached to the collecting portion coupling member so that the collecting portion can be attached and detached.

The lower support may include a support leg and a support plate.

At this time, the collecting part may be attached to the collecting part joining member, and the collecting part may be disposed in contact with or spaced from the upper part of the supporting plate.

For example, when the upper and lower supports are guided by the guide unit and inserted into the body, at least two of the light sources, the body, and the support plate may be arranged on the same line.

Further, a light source is mounted on the light source mounting portion, and the light source includes: a supporting member; And a light emitting diode, and the support member may include any one of a plate, a cylinder, and a prismatic shape.

At this time, the support member may include a flexible substrate.

Meanwhile, the capturing unit may further include a photocatalyst material.

At this time, the photocatalyst material can perform a deodorizing function.

The photocatalyst material may generate carbon dioxide in response to light emitted from the light source.

The catcher may further include a switch for controlling power supply to the light source mounting portion and the suction fan.

The trap may further include a lower light source for irradiating UVC (Ultraviolet C).

The capturing device may further include an illuminance sensor for sensing illuminance of light emitted from the light source mounted on the light source mounting portion.

The catcher may further include a camera for observing the collected insects.

The catcher may further include a sensor unit for detecting the trapping of the insect or detecting the amount of the trapped insect.

An embodiment of the present invention is a fan assembly comprising: a body having a suction fan; A first support capable of moving up and down with respect to the body; And a light source unit having a light source mounting portion on which the light source is mounted and being coupled to one end of the first support base and movable at a first height and a second height according to the movement of the first support base.

At this time, the first height may be the lowest position of the light source part when the first support is moved downward, and the second height may be the highest position of the light source part when the first support is moved upward.

The body cover may further include a body cover disposed on an outer surface of the body, and the first support may be guided to a space defined between the body and the body cover.

At this time, the first insect filter unit may be disposed on the body, and at the first height, the light source unit may contact at least one of the body cover and the first insect filter unit.

In addition, the body cover may have a stopper portion for preventing movement of the first support on the inner wall, and the light source portion may be fixed at the first height.

At this time, the first support has a stone substrate, and the stopper includes: a stone substrate guide portion for guiding the stone substrate; And a stone substrate seating part for seating the projection board to stop the movement of the first support frame.

At this time, the stone substrate may be positioned below the stone substrate seating portion, and the first support frame may be fixed at the first height.

For example, the first insect filter portion may further include a first insect filter portion disposed on the body, and the first insect filter portion may be provided with an upper guide portion for guiding the first support.

At this time, the first support frame includes a first support piece elastic piece, and the upper guide part includes a first support piece elastic piece coupling part corresponding to the first support piece elastic piece, and the first support piece elastic piece has elasticity of the first support piece elasticity And the light source unit may be fixed at the second height.

In this case, the first support bar elastic piece may include a vertical piece that is formed by bending the corresponding opposite sides so as to be elastically bendable, and a stone substrate provided on the vertical piece, Can be fitted to the part.

The present invention also relates to a refrigerator comprising: a body equipped with a suction fan; A light source unit having a light source mounting portion on which a light source is mounted; A first support for supporting the light source unit from the body; And a second support capable of moving up and down with respect to the body, and being movable at a third height and a fourth height according to the movement.

In this case, the third height may be the highest position when the second support is moved upward, and the fourth height may be the lowest position when the second support is downwardly moved.

At this time, the lower end of the second support may be disposed higher than the lower end of the body at the third height.

The body may further include a body cover disposed on the outer surface, and the second support may be guided to a space defined between the body and the body cover.

For example, the apparatus may further include a second guide unit that is configured to fix the second support member at at least one position, and the second guide unit includes a second guide unit plate; And a second guide unit rail provided on the second guide unit plate and guiding the second support unit up and down with respect to the body.

At this time, the second support base includes a second support rail which is engaged with the second guide unit rail, and the second guide unit rail and the second support rail include at least one of '┏' and '┓' The second support rail can be prevented from separating from and separating from the second guide unit rail.

At this time, a pressing member provided between a pair of the second guide unit rails is guided along the pressing member guide portion provided between the pair of second support rail on the second support base, and the pressing member is guided along the second support rail The installation height can be controlled from the ground surface of the body by contacting the at least one pressing member engaging portion provided and fixing the second support member.

For example, the first support can move up and down with respect to the body, and the light source can move to a first height and a second height according to the movement of the first support, 1 support may be the lowest position of the light source when the support is moved downward and the second height may be the highest position of the light source when the first support is moved upward.

For example, the body may include a collecting portion coupling member having a plurality of outwardly protruding plates, and the second support may be guided to a space between the plurality of plates.

For example, the light source unit may include a light source cover coupled to an upper portion of the light source unit, and the light source unit may be disposed at a lower portion of the light source unit.

The catcher may include at least one of an illuminance sensor for detecting the illuminance of the ambient light of the catcher, a motion sensor for detecting the user's approach information to the catcher, and a UV sensor for detecting the luminous intensity information of the light source.

At this time, the driving voltage applied to the light source may be PWM (Pulse Width Modulation) -controlled according to the illumination change of the ambient light detected by the illumination sensor.

At this time, a duty ratio of at least two or more driving voltages applied to the light source may be obtained.

In this case, when the illuminance of the ambient light detected by the illuminance sensor is less than a predetermined illuminance range, when the duty ratio of the drive voltage applied to the light source is s% and the illuminance ratio of the drive voltage applied to the light source is b%, then b> s can be satisfied.

In addition, the illuminance sensor may include at least three illuminance ranges set in advance, and the duty ratio of the drive voltage applied to the illuminant may be changed as the illuminance range is changed.

Also, the access information includes access distance information, and the light intensity of the light source may be controlled according to the access distance information of the user detected by the motion sensor.

At this time, if the access distance information of the user is less than a preset value, the brightness of the light source may decrease.

On the other hand, when the luminous intensity information of the light source is less than a predetermined value, an alarm can be generated.

Further, the light output of the light emitted from the light source may be 100 mW or less.

Also, when the illuminance of the ambient light detected by the illuminance sensor is 20 lux or less, the light output of the light source can be controlled so that the light output of the light emitted from the light source is 100 mW or less.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 and 2 show a catcher according to an embodiment of the present invention.

1 and 2, the retainer 1000 includes a body 110, an upper support 120, a light source 130, a light source 140, and a lower support 150.

The shape of the body 110 is not particularly limited. However, referring to FIG. 3, the body 110 may be cylindrical in that the suction fan 170 is mounted therein. The material of the body 110 is not particularly limited. However, And may be made of a common plastic material so as not to increase the unit cost significantly. In addition, the body 110 has a vertically-opened structure so that air can pass vertically.

The suction fan 170 mounted in the body 110 may be in the form of a curved fan blade with a constant or non-constant curvature. In addition, the shortest distance between the suction fan 170 and the inner wall of the body 110 may be 1 mm to 5 mm. In this numerical range, the noise generated by the suction fan 170 can be minimized and the suction airflow can be effectively formed .

4, the retainer 1000 may have a guide for guiding at least one of the upper support 120 and the lower support 150 into the body 110, and the upper support 120 and the lower support 150 150 may be separated from or coupled to the body 110, inserted into the body 110, and fixed to the body 110, thereby minimizing the volume during carrying. The guide portion may include an upper guide portion 181 and a lower guide portion 182 and illustrates the upper guide portion 181 in FIGS. 4 to 5 and the lower guide portion 182 in FIG.

5 is a plan view of the body.

5, the retainer 1000 may have an upper guide portion 181 for guiding the upper support 120 into the body 110, and may include an insulator filter portion 113 disposed on the body, (181) may be formed. The shape of the upper guide part 181 is not particularly limited, but a groove into which the upper support part 120 is inserted may be formed. For example, the shape of the groove may be similar to the shape of the upper support 120, and when the upper support 120 is fixed to the body 110 by elastic pieces, And may be of a size that is fixed by the groove and does not generate noise. When the upper support 120 is fixed to the body 110 by rotation, the size of the groove can be made larger than the upper support 120 by the radius of rotation of the upper support 120.

FIG. 6 shows the light source and the upper support, and FIG. 7 shows the inside of the body.

6, the light source unit is mounted on one end of the upper support and may have a light source mounting portion on which the light source is mounted, and the shape is not particularly limited as long as the light source mounting portion can be disposed apart from the body. For example, It may be larger or smaller than the body, or it may be the same shape as the body.

Referring to FIG. 6, the upper support 120 has a guide rail 121, and the body 110 may have a fixing protrusion 214, for example, The upper support 120 may be inserted into the body 110 to adjust the height of the upper support 120 according to the environment in which the user wishes to use the retainer 1000, (Not shown). For example, the guide rails 121 and the fixing protrusions 214 may be engaged by rotation of the upper support 120 or insertion into the body 110, so that the upper support may be fixed to the body.

The upper support 120 may further include a fixing protrusion 114 and the body 110 may further have a guide groove 115. For example, by rotation of the upper support 120, The retainer 1000 is inserted into the guide rail 121 and the fixing protrusion 114 is inserted into the guide groove 115 so that the upper support 120 and the body 110 can be fixed in a double or multi- Respectively.

The fixing protrusion used in the present specification is not particularly limited in shape and material if it is protruded, and may be an elastic material such as a soft material including rubber, a plastic material, a spring, or the like, and may include a light source part 130, 120, the body 110, the lower support 150, and the like, and can be identified by reference numerals in this specification.

Fig. 8 shows a state in which the lower support 150 is not mounted on the body 110, Fig. 10 shows a state in which the lower support 150 is not mounted on the body 110, And the support table 150 is mounted on the body 110. As shown in FIG.

Referring to FIG. 8, the retainer 1000 may have a lower guide 182 that guides the lower support 150 into the body 110. The shape of the lower guide part 182 is not particularly limited, but a groove into which the lower support part 150 is inserted may be formed. The lower support 150 and the body 110 may have at least one engagement groove 151 and an elastic engagement piece 116. For example, referring to FIG. 8, the body 110 may have one or more resilient And the lower support 150 may have a fastening groove 151 with reference to FIG. At this time, the elastic fastening piece 116 can have its own elasticity as both sides are cut, and even when the projecting portion of the elastic fastening piece 116 is coupled to the fastening groove 151 by the self-elasticity of the elastic fastening piece 116 The lower support 150 may be fixed to the body 110 as shown in FIG.

The lower support 150 serves to support the retainer 1000 from the ground and the retainer 1000 may have a plurality of lower supports 150, And may further include grooves 151 or separate fixing members. 8, a fastening member, a resilient piece, a guide rail, or the like having a bolt and nut structure may be applied, and a user may use a plurality of fixtures (not shown) mounted on the lower support 150 and the body 110, The lower support 150 can be inserted into or detached from the body 110 using a member and can be fixed to the body 110 at different heights according to the use environment. As an example, when using the retainer 1000 in a place with a slope, the height of each of the plurality of lower supports 150 may be adjusted differently to support the retainer 1000 from the ground so that the retainer 1000 is not tilted .

Referring to FIGS. 1 and 2 again, the body may have a collecting portion coupling member 160 at a lower portion thereof. The shape of the collecting portion coupling member 160 is not particularly limited and may be attached to the collecting portion coupling member 160 And can be manufactured in various forms according to the shape of the collecting part. 10, the collecting portion coupling member 160 may have a plate 161 protruding outward from the body 110 and may have a single plate shape or a plurality of plates 161 which are mutually distinguished from each other, Lt; / RTI >

In addition, the plate 161 may include concave and convex portions formed continuously in at least a part of the region. The collecting portion mounting member 193 to be described below may be provided with frictional force due to the concave- So that it is not separated from the member 160.

The collecting part 190 may be attached to the collecting part joining member 160 and the collecting part 190 may be a disposable collecting part which can be attached to and detached from the body 110, for example. Further, a insecticidal solution or an adhesive may be applied to the inside of the collecting part 190.

11, the collecting unit 190 includes a plurality of support frames 191 spaced apart from each other below the body 110, a support frame connecting member 192 connecting the support frames 191, And a collecting part mounting member 193 for fixing the collecting part 190 to the collecting part coupling member 160. The support frame connection member 192 may include a mesh type. The support frame 191 allows a sufficient volume of the collecting part 190 to allow the insect to flow sufficiently and the support frame connecting member 192 can have a hole sized such that insects such as mosquitoes can not escape, The material of the mounting member 193 is not particularly limited, and plastic, cotton, vinyl, or the like can be used. For example, an elastic material can be used. As described above, when the user carries the retainer 1000, the volume of the retainer 1000 can be reduced by folding the support frames 191 to overlap with each other in the collection unit 190, or the volume of the retainer 1000 can be reduced, (190) can be separated and carried.

The collecting part joining member 160 may have a plurality of plates 161 protruding outward from the body 110 and separated from each other and the lower support 150 may be disposed between a plurality of plates 161 . The upper support 120 may be disposed in the lateral direction of the light source mounting portion 140 so as to prevent light emitted from the light source 143 mounted on the light source mounting portion 140 from interfering with the upper support 120, And may be disposed at a position different from the area where the support member 150 is disposed. 1 to 4, the retainer 1000 is configured such that the positions of the lower support 150 and the upper support 120 are different from each other, so that when inserting into the body 110, The upper support 120 and the lower support 150 are sufficiently inserted into the body 110 so that the volume can be reduced and the light emitted from the light source 143 can be prevented from interfering with have.

In one example, the body 110 may be circular or polygonal, and in the case of a polygon, at least a portion of the edge may be chamfered or rounded. The lower support 150 and the upper support 120 may be disposed in the respective corner areas of the body 110 so that the inner space of the body 110 And the upper support 120 can prevent the light emitted from the light source 143 from interfering with each other.

12 shows an upper support and a light source unit.

12, the light source unit cover 131 may be detachably disposed on the upper surface of the light source unit 130, and the light source attachment unit 140 may be disposed on the lower side of the light source unit 130, As shown in FIG. At this time, the light source mounting portion 140 may have an insertion hop 141, and at least one of the light source 143 and the transparent member 144 may be inserted and fixed in the insertion groove 141. For example, A plurality of transparent members 144 may be inserted into the insertion grooves 141 and mounted on the light source mounting portion 140 through the opening 143.

13 is a bottom view of the light source cover.

13, the light source cover 131 may have a light source crimping portion 132 on a lower surface thereof and the light source crimping portion 132 may include a light source 143 and a transparent member 144 mounted on the light source mounting portion 140, Can be squeezed from the upper part to the lower part. Therefore, even when the suction fan 170 mounted in the body 110 rotates when the retainer 1000 is used, at least one of the light source 143 mounted on the light source mounting portion 140 and the transparent member 144 Thereby minimizing the occurrence of noise caused by the noise. The light source unit cover 131 may have a step 133 on the lower surface and the step 133 may separate the space in which the light source mounting unit 140 is disposed from the other region of the light source unit 130, As well as blocking the inflow of insects and dust.

14 shows a state in which the lower support 150 is inserted into the body 110 and FIG. 15 shows a state in which the upper support 120 and the lower support 150 are inserted into the body 110. FIG. 14 and FIG. All of which are inserted into the body 110.

For example, when the upper support 120 is inserted and fixed in the body 110, the outer circumferential surface of the light source 130 and the outer circumferential surface of the body 110 may be arranged in the same line to be integrated.

FIGS. 16 to 19 show a retainer 2000 according to another embodiment of the present invention, and each configuration of the retainer 1000 described above can be employed except for the configuration described below.

16 to 18, the lower support 150 may further include a support leg 252 and a support plate 253, and the collecting unit 290 may be disposed above or below the support plate 253 .

The retainer 2000 has the support plate 253 so that it can stably support the retainer 2000 from the ground so that the retainer 2000 includes only a pair of support legs 252 arranged in the corresponding direction And the trapping portion 290 can be fixed or separated from the body 210 into the space between the support legs 252. [ 19, when the upper support 120 and the support leg 252 are guided and inserted into the body 210, at least two of the outer surfaces of the light source 230, the body 210, and the support plate 253 They can be arranged on the same line.

20 shows a catcher 3000 according to another embodiment of the present invention. The catcher 3000 includes a light source unit 330, a body 310, and a support plate 353, The configuration of the catcher 2000 can be borrowed.

FIGS. 21 to 25 illustrate a retainer 4000 according to another embodiment of the present invention, and the configurations of the retainer 1000 can be borrowed except for the configuration described below.

For example, the upper guide may have a guide rail 421, and the upper support 420 may be formed by a guide rail 421 The volume of the catcher 4000 can be reduced as shown in Fig.

The lower retainer 420 may be disposed so that the lower retainer 420 supports the retainer 4000 so that the retainer 4000 can be easily attached and detached. For example, referring to FIGS. 22 to 23, the interval between at least two lower supports 420 may be greater than the interval between remaining lower supports 420.

The retainer 4000 may be configured such that the lower support 450 is folded down to the lower portion of the body 410 as shown in Fig. 25, for example, in the case of three lower supports 450, And may be disposed under the body 410 at an angle of 90 degrees.

26 shows a catcher 5000 according to another embodiment of the present invention.

26, the retainer 5000 may further have a lower light source 41 mounted on the lower light source attachment portion 40 and the lower light source 41 may irradiate UVC (Ultraviolet C) toward the trapping portion, Inactivation or sterilization of germs that are retained by themselves or in the collection site, as well as the time at which insects dry-out by insecting the collected insects. Can be shortened.

Fig. 27 shows a catcher 6000 according to another embodiment of the present invention.

27, the retainer 6000 may further have a sensor 147, for example, the sensor 147 may include an illuminance sensor, a motion sensor, and a UV sensor. An embodiment of the sensor 147 according to an embodiment of the present invention will be described later with reference to FIGS. 48 to 54. FIG.

For example, at the time of carrying, at least one of the first support 720 and the second support 750 is pulled in the direction of the body 710 to be fixed to the retainer 7000 And in use, at least one of the first support 720 and the second support 750 may be configured to be pulled outward with respect to the body 710, for example, at least one step The degree of insertion or withdrawal may be controlled.

For example, the retainer 7000 controls the height of the first support 720, which is directly related to the height adjustment provided by the light sources 143, 243, 343, 443, 543 from the body 710, Or to control the height of the second support 750 directly related to the height adjustment of the body 710 from the installation surface of the retainer 7000, The second guide unit 1200 may be provided or both the first guide unit 1100 and the second guide unit 1200 may be provided so as to stably fix the two supports 750. [

For example, at least one of the first supporter 720 and the second supporter 750 is drawn in the direction of the body 710 to reduce the volume thereof, and the suction air stream formed by the suction fan 170, The first cover 720 and the second cover 720 are disposed in a space provided between the body 710 and the body cover 711 so as to improve the collection efficiency of the body 710. [ And at least one of the supports 750 may be provided.

The terms 'fixed' and 'fixing force' used herein are used to mean that a user deforms the catcher 7000 according to the present invention and then maintains the shape of the catcher 7000, The catcher 7000 described above may be deformed into a different shape in a state in which a 'fixed' state and a 'fixing force' are imparted.

FIG. 28 is a portable state of a catcher according to an embodiment of the present invention, and FIGS. 29 to 31 are exploded perspective views of a catcher according to an embodiment of the present invention.

28 to 31, the catcher 7000 includes a body 710, a body cover 711, a first insect filter portion 713, a first support 720, a second support 750, A guide unit 1100, a second guide unit 1200, a light source unit 130, and a light source unit cover 131. [

Although the shape of the body 710 is not particularly limited, the body 710 may be cylindrical in that the suction fan 170 is mounted inside, and the material is not particularly limited. However, the body 710 can be used indoors or outdoors for a long time, It can be made of a plastic material which is commonly used. Also, the body 710 has a vertically opened structure so that air can pass vertically.

The suction fan 170 mounted in the body 710 may be in the form of a curved fan blade with a constant or non-constant curvature. In addition, the shortest distance between the suction fan 170 and the inner wall of the body 710 can be 1 mm to 5 mm. In this numerical range, the noise generated by the suction fan 170 can be minimized and the suction airflow can be effectively formed .

The motor 171 applies a rotational force to the suction fan 170 and may be installed at the upper portion or the lower portion of the suction fan 170. For example, when the motor 171 is installed on the upper part of the suction fan 170, noise and durability caused by uneven rotation due to the self weight of the suction fan 170 can be prevented from deteriorating, .

The body 710 may include a collecting portion coupling member 160 at a lower portion thereof. The collecting part may be coupled to the collecting part joining member 160, and the collecting part 190, 290, 390, 490 may be applied. For example, the collecting part may include a material such as plastic, cotton, and vinyl. For example, the collecting part may be fitted to the plate 161 of the collecting part coupling member 160 by a predetermined rotation, They may be elastically deformed and bondable.

The body cover 711 is provided on the outer surface of the body 710. For example, by applying the same or similar shape to the body 710, the volume of the catcher 7000 is further reduced, It is possible to provide a catcher 7000 which is easy to carry. The body cover 711 may be configured to provide a predetermined space between the body 710 and the body cover 711 and may include at least one of a first support 720 and a second support 750, Any one of them can be drawn in and drawn out into a space provided between the body 710 and the body cover 711. That is, the retainer 7000 further includes a body cover 711 disposed on the outer surface of the body 710, thereby providing a space in which at least one of the first support 720 and the second support 750 is inserted or withdrawn And at least one of the first support 720 and the second support 750 is not drawn into or drawn out from the body 710 so that the space inside the body 710 can be efficiently used, The insect collecting efficiency can be improved, and the volume can be sufficiently reduced, which makes it easy to carry.

The catcher 7000 may further include a first insect filter unit 713 provided above the body 710. The first insect filter portion 713 may be in the form of a plurality of holes, including a circular member and a radial member, for example, a butterfly, a dragonfly, or the like, which passes through a mosquito but does not have a large volume, It is possible to prevent the noise caused by the unbalance of the suction fan 170 and to improve the durability of the motor 171.

The first insect filter portion 713 may be provided with an upper guide portion 781 for guiding the first support 720. For example, the upper guide portion 781 may be formed by the above- The efficiency of space utilization in the body 710 can be improved and the efficiency of collecting insects can be improved.

The retainer 7000 may include a first support 720 and a second support 750. The first support 720 is pulled downward from the upper portion with respect to the body 710 and is drawn upward from the lower portion of the body 710 so that the height of the light source 130 having the light source attachment portion 140 from the body 710 Can be deformed. That is, as the first support 720 is pulled in the downward direction from the upper side with respect to the body 710 and pulled out from the lower side in the upper direction, the height of the light source unit 130 coupled to one end of the first support 720 It is possible to directly affect the installation height of the light sources 143, 243, 343, 443, 543 by deforming. The second support platform 750 is extended from the lower side to the upper side with respect to the body 710, and is drawn out from the upper side to the lower side, so that the installation height of the body 710 can be changed. For example, the plurality of second supports 750 may be provided with a body 710 so as to be horizontal with respect to the horizontal plane perpendicular to the direction in which gravity acts, So that the trapping efficiency can be improved and the occurrence of noise can be reduced. Specific forms of the first support 720 and the second support 750 will be described later.

The light source unit 130 is not particularly limited as long as the light sources 143, 243, 343, 443, and 543 described below will be mounted. For example, the light source unit 130 may be in the form of a plate, and the light source mounting unit 140 may be provided in the lower part of the plate shape. At this time, the upper part of the light source mounting part 140 is opened, and the user can draw the light source downward from the upper part of the light source part 130. For example, the outer circumferential surface of the light source unit 130 may have the same shape as the outer circumferential surface of the body 710. In the plan view, the outer circumferential surface of the light source unit 130 may not exceed the space defined by the outer surface of the body 710 or the outer surface of the body cover 711. In other words, the capturing apparatus according to an embodiment of the present invention has a shape in which the light source unit 130 does not exceed the volume of the body 710 or the body cover 711, so that the volume during carrying can be reduced.

On the other hand, referring to FIG. 28, the catcher 7000 can provide a compact state when carried. The term 'ultra-small' refers to a form in which at least one of the first support 720 and the second support 750 is sufficiently drawn in the direction of the body 710.

28, the first support 720 is drawn into a space defined between the body 710 and the body cover 711, so that the light source 130 is connected to the first insect filter unit (not shown) 713), in which the first support 720 is invisible from the outside. For example, in the miniature state, the lower surface of the light source unit 130 may contact at least a part of the first insect filter unit 713 and / or the body cover 711. 28, the second support 750 may be guided to a space defined between the body 710 and the body cover 711 such that the lower end of the second support 750 is supported by the body 710). ≪ / RTI > For example, although not shown in the drawing, the micro-state may include that the volume of the body 710 is also deformable, and the body 710 may include at least a portion of the flexible material. That is, the micro-state may refer to a state in which the first support 720 is located at the first height and the second support 750 is located at the third height.

In other words, the retainer 7000 is configured such that at least one of the first support 720 and the second support 750 is sufficiently drawn into the space formed between the body 710 and the body cover 711, 710 can be efficiently used, so that the insect collecting efficiency can be improved by the suction air flow formed by the suction fan 170, and the volume during carrying can be sufficiently reduced to facilitate carrying.

31 is an exploded perspective view of the catcher and shows the first insect filter portion 713, the first guide unit 1100, the first support 720, the light source 130 and the light source cover 131 from the body 710 FIG. 32 is an exploded perspective view in which the first insect filter unit 713, the first guide unit 1100, the first support 720, and the light source unit 130 are separated. FIG. The first guide unit 1100 of the retainer 7000 according to an embodiment of the present invention.

31 and 32, the retainer 7000 may further include a first guide unit 1100 provided to fix the first support 720 at at least one position. The first guide unit 1100 stably fixes the first support 720 at a specific position when the height of the first support 720 is deformed. The shape of the first guide unit 1100 is a guide for guiding in and out of the first support 720, And is not particularly limited as long as it can be done. In addition, the first guide unit 1100 may be formed along the pull-in and pull-out directions of the first support 720 to stably guide the first support 720.

33, the first guide unit 1100 may include an annular portion 1130 spaced apart from the side wall portion 1140 and the side wall portion 1140 by a predetermined distance, The side wall portion 1130 and the side wall portion 1140, as shown in Fig. That is, the first guide unit 1100 can prevent the first guide unit 1100 from being separated from and removed from the first guide unit 1100 when the first support 720 is drawn in and out, thereby providing a stable guide space. The first guide unit 720 may include a first guide unit 1100, for example, a first guide unit guide unit 721 through which the side wall unit 1140 is guided. The first guide unit guide unit 1100 721 are not particularly limited, but an outer wall of the first support 720 may be formed to provide a stable guide space. The first support 720 and the first guide unit 1100 are configured such that the first support 720 is guided into the space formed by the double guide structure, that is, the annular portion 1130 provided in the first guide unit 1100, And the side wall portion 1140 of the first guide unit 1100 can be guided to the space formed by the first guide unit guide portion 721. [ Therefore, the catcher 7000 can stably guide the first support 720 without being detached and separated, so that the influence of the vibration generated by the operation of the motor 171 is reduced to suppress unnecessary noise generation, thereby improving the collection efficiency of insects .

33, the first guide unit 1100 may include a protrusion 1110 and a protrusion elastic piece 1120 provided on at least a part of the protrusion 1110. The stone publication elastic piece 1120 is elastically bent by the contact with the first support 720 when the first support 720 is guided and the elasticity of the stone publication elastic piece engaging part 722 provided on the first support 720 The first support base 720 can be fixed by pressing and pressing. At this time, the stone publication elastic piece 1120 may include the bending piece 1121 provided with the protrusion 1122 and the protrusion 1122. The stencil publication elastic engaging portion 722 may have a shape similar to the protruding portion 1122 without any particular limitation, and may be in the form of a hole which is perforated at least in part of the first support 720, for example, . In addition, a plurality of the stone publication elastic piece 1120 and the stone publication elastic piece connection portion 722 are included so that the user can stepwise control the installation height of the first support 720 and give a stable fixing force at the corresponding height . The stone plate 1110 may have a predetermined height and area in the first guide unit 1100 and protrude in the direction of the first support 720 to be guided. That is, the first guide unit 1100 includes a separate stone plate 1110 provided with the stone-plate elastic piece 1120 for fixing the first support 720 to the first guide unit 1100, 1 fixing support 720 to the first guide unit 1100 can be improved.

34, the first guide unit 1100 is seated on at least a part of the light source part 130 and can be drawn into and drawn out of the upper guide part 781 together with the first support part 720 . For example, the ring portion 1130 is disposed in a space between the light source unit 130 and the light source unit cover 131, and the first guide unit 1100 is drawn into and drawn out from the upper guide unit 781, It can move up and down.

The stencil publication elastic piece 1120 may include a bending piece 1121 provided with a protruding portion 1122 and the bending piece 1121 may be a flexible bending portion and may be formed in at least a portion of the bushing 1110 in a U- . ≪ / RTI > In other words, the first support 720 is provided with the stencil publication elastic piece 1120 on the protrusion 1110 provided in the first guide unit 1100 to provide a stable fixing force, and the substantially circular protrusion 1122, And the protruding portion 1122. The first support 720 can be taken out from the portable state to the use state without applying an excessive external force to improve the usability of use .

For example, referring to FIG. 34, the first support 720 may include a first support resilient piece 723. The first support piece elastic piece 723 is elastically warped by contact with the upper guide part 781 and presses the first support piece elastic piece coupling part 791 provided in the upper guide part 781 and presses the first support piece elastic piece 723, 720 can be fixed. At this time, the light source 130 may be fixed at the second height.

For example, the stone pressing elastic piece 1120 can impart a fixing force in a portable state of the first supporting base 720, and the first supporting base elastic piece 723 can fix the fixing force in the use state of the first supporting base 720 The fixing force due to the pressing force may be different from each other. For example, the fixation force in the use state of the first support 720 may be greater than the fixation force in the portable state. For example, the stencil publication elastic piece 1120 may be in the form of a bend piece 1121 and the first support piece elastic piece 723 may be in the form of a vertical piece 724, 1 support 720 at the lower end of the first support 720. For example, the first support 720 may be in a portable state, that is, a state of using the first support 720 more than the protrusions 1122 giving the fixation force at the first height, that is, It may be a form in which the volume of the stone substrate 725 is larger and the holding force by the stone substrate 725 is larger than the holding force by the protrusion 1122. [ In other words, the total length of the vertical piece 724 that gives the fixing force at the first height, i.e., the portable state of the first support 720, 1121, and the fixing force by the vertical piece 724 may be larger than the fixing force by the bending piece 1121. [ Accordingly, the first support 720 is configured to apply an external force that is excessive when the portable device is in a portable state, that is, in a use state from a first height to a second height, The durability can be improved and the installation state, that is, the stable installation configuration at the second height can be maintained, and the collection efficiency of insects can be improved.

On the other hand, although the shape of the first support piece elastic piece engaging portion 791 provided in the upper guide portion 781 is not particularly limited, it is possible to apply a pressing force corresponding to the stone substrate 725, And may include a perforated hole shape in at least a portion of the upper guide portion 781, for example in a form similar to the stator substrate 725. The first support member elastic piece engaging portion 791 disposed in the upper guide portion 781 is provided with a hole corresponding to the protrusion substrate 725 so that the protrusion plate 725 is engaged with the first support piece elastic piece engaging portion 791, So that the first support 720 can be fixed and the stably installed configuration can be maintained in the used state as described above, thereby improving the collection efficiency of insects.

35 shows a body cover of a catcher according to an embodiment of the present invention.

Referring to FIG. 35, the body cover 711 may include a stopper portion 712 for preventing movement of the first guide unit 1100 or the first support 720 on the inner wall. The stopper portion 712 includes a shape corresponding to at least a part of the first guide unit 1100 or the first support 720 to fix the first guide unit 1100 or the first support 720, So that the guide unit 1100 or the first support 720 can be stably fixed at the first height.

For example, the stopper portion 712 may include a shape corresponding to the protruding substrate 725, and may include, for example, a protruding portion 712b for guiding the protruding substrate 725, And a stone substrate seating portion 712a for seating one end of the first support base 720 and stopping the movement of the first support base 720.

The shape of the stone substrate seating portion 712a is not particularly limited as long as it has a predetermined area or volume and can prevent the movement of the stone substrate 725 and may be provided between at least two stone substrate guide portions 712b have.

At this time, the stone substrate guide portion 712b includes a section having a different height, and may include a shape having the highest height on a surface contacting the stone substrate seating portion 712a. For example, the stone substrate guide portion 712b has a predetermined inclination and the height of the stone substrate guide portion 712b increases from the point at which at least one point of the inner wall of the body cover 711 contacts the stone substrate seating portion 712a And may include elevated forms.

For example, the lower surface of the stone substrate seating portion 712a may be in a shape corresponding to the stone substrate 725. When the first support 720 is inserted in the downward direction from the upper portion of the body 710 along the upper guide portion 781, the protruding board 725 is moved to the predetermined position by the protruding board guide 712b, And is guided in the direction of the seating portion 712a so that the stone substrate 725 can be seated on the upper surface of the stone substrate seating portion 712a. At this time, when a downward force is further applied to the first support 720, the vertical piece 724 is elastically bent from the first support 720 by the cutout provided on both sides, For example, the stone substrate 725 can be brought into contact with the lower surface of the stone substrate receiving portion 712a. The lower surface of the light source unit 130 coupled to one end of the first support 720 contacts the lower surface of the body cover 711 and the first insect filter 720. In this case, The light source unit 130 may be fixed at the first height. That is, the catcher according to the embodiment of the present invention can realize the above-mentioned micro-state, and in a state of being fixed in the micro-state as long as the user does not pull out the first support 720 in the micro- FIG. 36 is an exploded perspective view of a catcher according to an embodiment of the present invention, FIG. 37 shows a second guide unit 1200 of a catcher according to an embodiment of the present invention, A second support 750 of a retainer according to one embodiment.

36 to 38, the retainer 7000 may further include a second guide unit 1200 configured to fix the second support 750 in at least one position. 37, the second guide unit 1200 may include a second guide unit rail 1220 provided on the second guide unit plate 1210 and the second guide unit plate 1210. At this time, the second support 750 may further include a second support rail 752 that is engaged with the second guide unit rail 1220, as shown in FIG. The second guide unit rail 1220 and the second guide unit rail 1220 can be engaged with each other without any limitation as long as the second support rail 752 is prevented from separating from and separating from the second guide unit rail 1220. For example, The support rail 752 may include a shape of at least one of '┏' and '┓'. That is, the retainer 7000 includes a second support rail 752 provided on the second support 750 and a second guide unit rail 1220 provided on the second guide unit 1200, The second support platform 750 is not detached from and separated from the second guide unit 1200 to provide stability to the movement of the second support platform 750 for controlling the installation height of the body 710, Can be improved.

37, the second guide unit 1200 can be mounted with a pressing member. The pressing member applies a pressing force between the fixed body and the fixed body so that the fixed body and the fixed body are fixed by frictional force. For example, the pressing member may generate a pressing force by using a magnetic force, generate a pressing force by using an elastic force, or a part of the fixing body and a fixing body may be engaged with each other to generate a pressing force. For example, the pressing member may be an elastic pressing member, and in one example, a ball plunger may be used. The pressing member 1230 generates an elastic force by the contact with the second support 750 when the second support 750 is guided along the second guide unit rail 1220, The second support table 750 can be fixed by pressing and pressing the engaging portion 754. The shape of the pressing member 1230 is not particularly limited. For example, a shape in which a ball or a pin is embedded in a cylindrical hole drilled in the second guide unit plate 1210, For example, a metal ball or pin can be applied. When the contact with the second support 750 is generated, the pressing member 1230 may be configured to press the second support 750 by pressing the ball or the pin by being pulled out by the spring elasticity after the ball or the pin is drawn into the hole. At this time, the second support 750 may include a plurality of pressing member engaging portions 754, for example, a first pressing member engaging portion 755 and a second pressing member engaging portion 756, The height of each of the plurality of second supports 750 can be adjusted to control the installation height of the body 710 or the height of each of the plurality of second supports 750 when the catcher 7000 is installed on a flat surface, So that the collection efficiency of insects can be improved. In addition, conventional elastic pieces and the like are usually manufactured using a plastic material, and the wear of the fixing means progresses during the fixing and separation processes, resulting in a problem of poor durability. However, the fixing means according to the present invention can provide a stable fixing force and improve the durability by applying the pressing member 1230, which is a fixing means having a contact area much smaller than that of the conventional elastic piece.

37, the pressing member 1230 may be provided on the second guide unit plate 1210, and may be disposed between the pair of second guide unit rails 1220. [ 38, the second support 750 may include a pressing member guide 753 provided between the second support rails 752. In this case, That is, as described above, the second support rail 752 provided on the second support table 750 is prevented from being separated from the second guide unit rail 1220 provided on the second guide unit 1200, The pressing member 1230 provided between the pair of second guide unit rails 1220 is guided along the guide unit rail 1220 and is pressed between the pair of second support rail 752 on the second support table 750 And the pressing member 1230 is brought into contact with at least one pressing member engaging portion 754 provided on the second supporting table 750 during the movement of the second supporting table 750, 2 supports 750 can be fixed. Therefore, the catcher 7000 can control the installation height from the ground of the body 710 and can stably apply the fixing force at the installation height, thereby improving the collection efficiency of insects.

FIGS. 39 to 41 illustrate a state in which the second support 750 of the catcher is installed according to an embodiment of the present invention, in which the body cover 711 is separated from the body 710. FIG.

39, the catcher 7000 is arranged in a portable state, that is, at the third height, the lower end of the second support 750 is disposed higher than the lower end of the body 710, have. 40, when the retainer 7000 is in a used state, that is, at the fourth height, the second support 750 is disposed lower than the lower end of the body 710, so that the body 710 is spaced apart from the ground by a predetermined distance . At this time, it is possible to control the installation height of each of the plurality of second supports 750 and to apply a fixing force at the corresponding height to the pressing member 1230 as described above. Referring to FIG. 41, the second support 750 can be completely separated from the second guide unit 1200 in the state of maintenance of the catcher 7000. The catcher 7000 is improved in portability and can be used outdoors. Dust or foreign substances introduced into the second support rail 752 or the second guide unit rail 1220 during outdoor use can be frequently picked up. The first support unit 7000 can completely separate the second support unit 750 from the second guide unit 1200 in the maintenance state, thereby improving the durability, thereby improving the collection efficiency of the insects.

Figure 42 illustrates a second insect filter portion of a retainer in accordance with an embodiment of the present invention.

42, the catcher 7000 may further include a second insect filter portion 717 provided below the body 710, and the second insect filter portion 717 may include a circular member and a radial member , And a plurality of holes may be provided. In the conventional retractor, an insect or the like having a large volume flows into the body 710 when carrying, so that a large-sized insect or the like sticks to the suction fan 170 mounted in the body 710 during use, There may arise a problem that noise due to unbalance is generated or the durability of the motor 171 is reduced. Therefore, when the catcher 7000 is carried, the upper part of the body 710 is covered with the light source cover 131 to cover the upper part of the body 710, for example, And the lower portion of the body 710 prevents insects or the like having a large volume from being introduced into the body 710 by the second insect filter portion 717 to improve the durability of the catcher 7000 and improve the collection efficiency of insects Can be improved.

The retainer 7000 may further include an external power supply unit 715 as shown in FIGS. 28 to 31, and the retainer 7000 may be capable of operating the motor 171 by receiving external power. In addition, the retainer 7000 may further include a charger 716 and may be connected to an external power supply 715, for example a USB power supply unit for charging mobile equipment via a USB power supply unit, Can be supplied.

43 to 47 illustrate examples of the light sources 143, 243, 343, 443 and 543 mounted on the light source mounting portions 140, 240, 340 and 440 of the catchers 1000, 2000, 3000, 4000, 6000 and 7000 .

The light sources 143, 243, 343, 443 and 543 may be formed by attaching the light emitting diodes 146 to the support members 145, 245, and 345. The light sources 143, 243 and 343 may be a structure in which a single supporting member 145 or a supporting member 145 is laminated as shown in Figs. 43 to 45, and in the case of the laminated supporting member 145, The support members 146 are arranged in a zig-zag manner, whereby the damage of the support member due to the light emission heat can be suppressed.

The light sources 443 and 543 can be disposed in the retainers 1000 and 2000 by borrowing a form in which the light emitting diode 146 is mounted on the polygonal columnar support member 245 or the columnar support member 345 as shown in Figs. , 3000, and 4000) can be reduced and light irradiation efficiency can be improved by irradiating light over a wide range. For example, the triangular support member 245 may be formed by fastening three PCB boards in a triangular shape. As another example, the support member may include a flexible substrate, and the flexible substrate may be in a form in which all or part of the flexible substrate can be bent. That is, in order to keep the insect attracting efficiency of the insect, it is possible to borrow the shape of the light source attaching part or the shape of the light source attaching part which can be folded, And a flexible supporting member that can be mounted on the light source mounting portion.

The light source mounting unit 140 is disposed at a lower portion of the light source unit 130 and opens in a direction in which the light source unit cover 131 is disposed. When the light source unit cover 131 is coupled to the light source unit 130, The light sources 143, 243, 343, 443, and 543 mounted on the light source can be protected from foreign substances or the like introduced from the outside.

The retainers 1000, 2000, 3000, 4000, 5000, 6000 and 7000 may further comprise a photocatalyst material, for example the lower surfaces of the light sources 140, 240, 340 and 440, 320 and 440 and the inner surfaces of the bodies 110, 210, 310 and 410, the suction fan 170 and the collecting units 190 and 290, or a separate photocatalytic filter may be mounted.

The photocatalyst material may include a material that provides a photocatalytic reaction as a photocatalytic medium. For example, the photocatalytic medium is titanium oxide (TiO _2), silicon oxide (SiO _2), tungsten oxide (WO _3), zirconium oxide (ZnO), strontium titanium oxide (SrTiO _3), niobium oxide (Nb ₂ O ₅ ), Iron oxide (Fe ₂ O ₃ ), zinc oxide (ZnO ₂ ), tin oxide (SnO ₂ ), and the like.

In addition, the hydroxyl radical formed by the photocatalytic reaction of the photocatalyst material can perform a sterilizing action by acting as a strong oxidizer, and can oxidize and decompose organic pollutants in the air, And decompose odorous substances into water and carbon dioxide. Carbon dioxide is known to be a mosquito-inducing substance.

Accordingly, the captor (1000, 2000, 3000, 4000, 5000, 6000, 7000) can be expected to have a sterilizing and deodorizing effect due to the inclusion of a photocatalyst material. In addition, Can be additionally expected.

The collapsers 1000, 2000, 3000, 4000, 5000, 6000 and 7000 may further include a switch for controlling the power supply system of the light source mounting portions 140, 240, 340, 440 and the suction fan 170 The power supply source may be installed on the upper portion of the light source unit, a part of the bodies 110, 210, 310, 410, 710, or the collecting units 190 and 290.

48 to 54, the catcher to be described later efficiently consumes electric power at the catcher 1000, 2000, 3000, 4000, 5000, 6000, 7000 described above and at the same time, improves the efficiency of insect light transmission, To thereby increase the convenience of use and to confirm the replacement timing of the attracted light of the insect in advance to further maintain the optimum optical insect effect. In the conventional trapper, the insect attracting efficiency by the attracting light is very low when the illuminance of the light around the daytime or the trapper is high, and when the user approaches the trapper, the user is glazed by the attracted light or harmed to the human body, The insect attracting efficiency due to the attracting light is very poor. Accordingly, the inventors of the present invention have applied the above-described sensor 147, for example, the illuminance sensor, the motion sensor, and the UV sensor to solve the above problems.

FIG. 48 is a block diagram showing the configuration of a catcher according to the present invention. FIG.

Referring to FIG. 48, the catcher according to an embodiment of the present invention may include a control unit 2100, a sensor unit 2200, a light source unit 2300, an input unit 2400, and a power source unit 2500.

The control unit 2100 can control the operation of the catcher based on the input information, and can control the operation of the light source unit 2300, for example. The control unit 2100 processes at least a part of the information obtained from the sensor unit 2200, and provides the user with various methods or controls driving of the light source unit 2300.

The power supply unit 2500 supplies power to the catcher, and may be charged using a general AC power source, or may be a battery, and may include a filter unit, a rectifying unit, a switching converter, and an output unit . The filter unit can prevent the noise of the input line from damaging the internal parts of the power supply unit 2500 and remove the high frequency noise over the assumed band to supply the stable current. The rectifying unit may be composed of a rectifying circuit, a smoothing circuit, and a constant voltage circuit. The rectifier circuit filters the positive polarity only in the alternating current which oscillates at 50 to 60 Hz per second, and the smoothing circuit uses the rectifier capacitor which maintains the constant voltage to make the pulsating voltage constant, and the constant voltage circuit has a stable and constant direct current It can be made of a constant voltage diode and a transistor. The switching converter may reduce the power of the DC converted to a DC power required by the phototherapy apparatus through the rectifying unit. The output unit may supply power to the light source unit 2300.

The light source unit 2300 may be driven by receiving an operation signal from the control unit 2100 and may determine whether or not the control unit 2100 supplies power to the light source unit 2300 based on information detected by the sensor unit 2200, And controls the driving method of the light sources 143, 243, 343, 443, and 543 and the lower light source 41. [

Voltage control, pulse-by-modulation (PWM) control, phase control (PWM) control, and the like, depending on whether the illuminance detected by the illuminance sensor 2220 for detecting the illuminance of the ambient light falls within a predetermined range ) Can control the operation of the light source. For example, when the illuminance information of the ambient light detected by the illuminance sensor 2220 exceeds a preset range, the control unit 2100 sets the duty ratio of the PWM signal to 70% to increase the light output And when it is less than the predetermined range, the duty ratio of the PWM signal is set to 50% to lower the light output, thereby efficiently using the electric power, improving the collection efficiency of insects, and preventing inconveniences such as glare to the user. In this case, the duty ratio means a ratio of the time during which the pulse is on for one period, and the light output for a certain period of time increases as the numerical value increases.

For example, when the temperature around the light sources 143, 243, 343, 443, 543 or the lower light source 41 detected by the temperature sensor (not shown) exceeds a predetermined temperature range, the control unit 2100 controls the light source 243, 343, 443, 543 or the lower light source 41 by transmitting to the light source unit 2300 a signal for interrupting the power supplied to the lower light source 41, 143, 243, 343, 443, ) Can be prevented from being short-circuited, so that the durability of the catcher can be improved and the safety in use can be improved.

For example, in accordance with whether the luminous intensity detected by the UV sensor 2210 detecting the luminous intensity of the light sources 143, 243, 343, 443, 543 or the lower light source 41 falls within a preset range, ). ≪ / RTI > That is, the catcher can confirm the replacement timing of the light source, for example, the light sources 143, 243, 343, 443, and 543 in advance, thereby maintaining the light inducing efficiency of the insect by the attracted light in an optimum state, The collection efficiency can be improved.

For example, the luminosity of the light sources 143, 243, 343, 443, and 543 may be controlled according to the access distance information of the user detected by the motion sensor 2230 detecting the access information of the user with the catcher. The motion sensor 2230 detects an operation of the user around the captor or detects the approach distance information by the capturer, and includes an ultrasonic sensor, an active infrared sensor, an optical sensor, a hot wire sensing method Can be applied. For example, if the access distance information of the user is less than a predetermined value, the brightness of the light sources 143, 243, 343, 443, and 543 may be controlled to decrease. That is, the capturer is set so that the light intensity of the light sources 143, 243, 343, 443, 543 is lowered when the user approaches the vicinity of the catcher, so that the user is glow- It is possible to prevent a phenomenon that is harmful to the human body.

The input unit 2400 may perform a function of arranging various keyboards such as a character button, a symbol button, and a special button to receive input from a user, or may be configured as a simple switch. Although not shown in the drawing, when the capturer further includes a display unit (not shown), the display unit may be implemented as a touch screen panel, for example, and a keyboard layout keyboard included in the input unit 2400 may be displayed in a graphic form Can be displayed in an overlapping manner on the touch screen screen. The position and transparency of the keyboard layout input window may be adjustable by a user, and the touch screen panel may include input means for sensing a touch by touching means such as a touch fan or a finger as well as a screen display means .

Although not shown in the drawing, the catcher may further include a display unit (not shown). The display unit displays driving information of each component of the capturing device, for example, the light sources 143, 243, 343, 443, and 543 or the lower light source 41 whose driving is controlled by the control unit 2100, For example, a graphical user interface (GUI) for displaying driving information, for example, a display window for displaying information detected by the above-described bodies 110, 210, 310, 410, 710). The display unit may be implemented as a display window such as an LCD or an LED, or a touch screen panel capable of simultaneously performing input and display.

Although not shown in the drawing, the catcher may further include an alarm generator (not shown). The alarm generator may transmit a signal for generating an alarm to the alarm generator in the controller 2100 when the data value detected by the sensor 2200 is greater than or less than a preset data value. At this time, the alarm may be displayed as light or sound, and an alarm may be displayed on a user's electronic device, for example, a portable terminal through a communication module. For example, the alarm generating unit may generate an alarm when the luminances of the light sources 143, 243, 343, 443, and 543 or the lower light sources 41 detected by the UV sensor 2210 are less than a predetermined range, The alarm at this time can display the light source replacement signal. For example, the alarm generator may generate an alarm when the temperature around the light sources 143, 243, 343, 443, 543 or the lower light source 41 detected by the temperature sensor (not shown) And the alarm at this time can display a danger warning signal of the light sources 143, 243, 343, 443, 543 or the lower light source 41. [

The sensor portion 2200 may include sensors as shown in Figure 49 and may include a UV sensor 2210, an illuminance sensor 2220, a motion sensor 2230, As shown above.

FIG. 50 is a block diagram illustrating a light source control by the illuminance sensor according to the present invention.

The capturer is capable of detecting the illuminance of the ambient light by the illuminance sensor 2220 and controlling the operation of the light source 2224 accordingly. Referring to FIG. 50, the illuminance sensor 2220, the amplifier 2221) A light source 2222, an MCU 2223, and a light source 2224.

For example, when the illuminance of the ambient light is detected by the ambient light sensor 2220, the analog signal before the analog-to-digital converter (ADC) operation for the detection signal is prevented from changing due to the noise increase, Amplifiers 2221 can be used to process the signals or to make them easy conditions for ADC performance. At this time, the analog signal processing by the amplifier 2221 may be a main function such as amplification and filtering for noise cancellation. In order to process an analog signal, an analog signal including an amplifier 2221, Chain may be included.

For example, an MCU (Micro Controller Unit) 2223 may include a CPU core, a memory, and a programmable input / output. The MCU 2223 may be programmed to perform a predetermined function, The control unit 2100 may replace the light source 2224 or the MCU 2223 may be included as a subcomponent of the control unit 2100. The control unit 2100 may control the operation of the light source 2224 according to the ambient illuminance detected by the control unit 2120. [ For example, the MCU 2223 can control the operation of the light source 2224 by driving current control of the light source 2224, driving voltage control, PWM (pulse with modulation) control, phase control, and the like. For example, when the ambient illuminance detected by the illuminance sensor 2220 exceeds a predetermined range, the MCU 2223 increases the driving current of the light source 2224, increases the driving voltage, increases the PWM duty ratio An operation signal may be generated to control the operation of the light source 2224, for example, the light output.

For example, the MCU 2223 can control the operation of the light source 2224 in a PWM (Pulse with Modulation) control method. 51 to 53 show waveforms of driving voltages according to the PWM control of the light source 2224 according to the present invention. Referring to FIGS. 51 to 53, the PWM signal generated by the MCU 2223, 2224 of the drive voltage Vp. The PWM control is a control method in which a pulse waveform is used instead of supplying a direct current. It is possible to generate the same optical output even at a low driving current, . In other words, the trapper allows the light source 2224 to be PWM-controlled, thereby making it possible to economically use electric power and improve the efficiency of light introduction of insects, thereby improving the collection efficiency of insects.

For example, in an environment with high daytime or high ambient illumination, the user may input a signal for increasing the light output of the light source 2224 through the input unit 2400. At this time, the control unit 2100 can transmit a signal for increasing the duty ratio of the PWM drive to the light source 2224, and the PWM is controlled with a high duty ratio as shown in FIG. 51 to improve the light output of the light source 2224, It is possible to improve the efficiency of attracting insects by improving the light incidence efficiency.

For example, in an environment where nighttime or low ambient illumination is low, the user may input a signal to lower the light output of the light source 2224 through the input unit 2400. At this time, the control unit 2100 can transmit a signal for lowering the duty ratio of the PWM drive to the light source 2224, and the PWM is controlled with a low duty ratio as shown in FIG. 52 to lower the light output of the light source 2224, It is possible to maintain the efficiency of attracting insects and to maintain unnecessary power consumption while preventing the user's glare and improving the convenience of use.

For example, when the ambient illuminance changes, even if the user does not input a separate signal for controlling the light output of the light source 2224 through the input unit 2400, the ambient illuminance detected by the illuminance sensor 2220 The light output of the light source 2224 can be automatically controlled. For example, referring to FIG. 53, it is possible to transmit a PWM signal to the light source 2224 in the MCU 2223 so that the relatively low duty ratio, for example, the PWM signal has a duty ratio of 50% , The PWM signal can be transmitted to the light source by the MCU 2223 so that the peripheral illuminance gradually increases to correspond to a predetermined range, so that the PWM signal has a relatively high duty ratio, for example, a duty ratio of 70%. That is, the capturer can control the light output of the light source 2224 automatically according to the ambient illuminance by controlling the duty ratio of the PWM signal without changing the direct voltage or the current. Therefore, unnecessary power consumption can be prevented, It is possible to prevent the glare, thereby improving the ease of use, and at the same time, improving the efficiency of light introduction of insects and improving the collection efficiency of insects.

For example, the predetermined range of the ambient illuminance may be set in various stages. For example, when the ambient illuminance is A, B, C, ... , the duty ratio of the PWM signal is A '%, B'%, C '%, ... , n '% of the PWM signal from the light source. That is, the trapper is controlled so that the light output is changed stepwise according to the variation of the ambient illuminance, thereby preventing unnecessary power wastage, preventing the user's glare and improving the usability of the use, The efficiency can be improved.

54 schematically shows a circuit of a light source according to an embodiment of the present invention.

54, the light source 2224 may include a plurality of LEDs 1, 2, 3, 4, 5, 6, n and the plurality of LEDs 1, 2, 3, 4, 5, 6, and n may be individually driven, sequentially driven according to a control signal generated by the control unit 2100, or may be alternately driven. For example, when the ambient illuminance detected by the illuminance sensor 2220 is less than a predetermined range, the first LED 1, the third LED 3, the fifth LED 5, ..., Power can be supplied only to the n-th LED (n), and power can be supplied to all the LEDs 1, 2, 3, 4, 5, 6, n in the case of exceeding the predetermined range. In addition, when the range of the predetermined ambient illuminance is set for each step, the number of the LEDs 1, 2, 3, 4, 5, 6, n to which power is supplied according to each step may be sequentially increased have.

The LED input switch 2400a includes a first LED 1, a second LED 2, a third LED 3, a fourth LED 4, a fifth LED 5, a sixth LED 6, S / W, 2-S / W, 3-S / W, 4-S / W and 5-S are used as switches for selecting at least one of the light sources / W, 6-S / W,..., NS / W, and a button for individually transmitting electrical signals to all or each of the switches may be provided in the input unit 2400. The first to nth LEDs 1, 2, 3, 4, 5, 6 and n are connected to each other and connected to the light source driving circuit 2300a. The light source driving circuit 2300a is connected to the control unit 2100, And can be turned on / off.

In addition, the above-mentioned catcher may be provided with a camera that allows a user to observe the insects trapped in the catching part, the camera may have a zoom function, and a user may transmit a signal to the communication module mounted on the catcher, You can move the camera at the camera, use the zoom function, and capture the insects caught in the collection area.

In addition, the above-mentioned catcher may be provided with a sensor for confirming whether or not the user catches insects, or for checking the volume occupied by the insects caught in the catching part, The user can notify the user through the communication module.

On the other hand, the conventional trapper emits light having the same light output as the light condition even under the dark condition, thus causing problems of user's glare and energy consumption. Therefore, the inventors of the present invention have repeated the related experiment to develop a trapper capable of maintaining the collection efficiency while controlling the light output below a specific value under a dark condition.

The dark condition referred to in this specification includes the case where the illuminance of the external light detected by the illuminance sensor is 0 to 20 lux or the light intensity detected by the UV sensor is 0 to 10 mW.

The catcher according to an embodiment of the present invention may be manually controlled to emit light with an optical output of 100 mw or less under dark conditions or the illuminance of external light detected by the illuminance sensors 2220 and 3220 may be controlled by the controller The control unit 2100 controls the light output of the light sources 143, 243, 343, 443, and 543 described above so that the light output of the light sources 143, 243, 343, 443, Can be automatically controlled.

Therefore, the capturer can solve the problem of the user's glare and energy consumption while maintaining the collecting efficiency of the mosquito in the dark condition.

Hereinafter, the present invention will be described in more detail by describing Examples, Comparative Examples and Experimental Examples. However, the following examples, comparative examples and experimental examples are merely examples of the present invention, and the present invention should not be construed as being limited thereto.

Experimental Example  - In cancer conditions Light output  Control

Experiments were carried out as follows to confirm the effect of light output on mosquito collection efficiency under dark conditions.

Dark condition: the external light intensity detected by the light intensity sensor is 0 to 20 lux or the light intensity detected by the UV sensor is 0 to 10 mW

Test location: 24m ² Closed space

Light irradiation time: 15 hours after lighting

Target Mosquito: Red house mosquito female 25 individuals

Light output of light source Number of times Collection population Collection rate (%) 100mW 1 time 20 80.0 Episode 2 16 64.0 Average - 72.0 Standard Deviation - 11.3 200mW 1 time 21 84.0 Episode 2 18 72.0 Average - 78.0 Standard Deviation - 8.5 1,000mW 1 time 24 96.0 Episode 2 11 44.0 Average - 70.0 Standard Deviation - 36.8

As shown in Table 1, in the dark condition, the light output intensity of the light source, that is, the attracted light, has little influence on the collection rate of the mosquito. Especially, it was confirmed that there is almost no difference in mosquito collection rate between light output condition of 100 mw and light output condition of 1,000 mw. That is, the trapper according to an embodiment of the present invention can maintain a high collection efficiency by using a low light output in a dark condition, and thus can prevent the user from glare caused by the attracted light emitted from the conventional trap, .

Therefore, when the user manually controls the light output of the light source to be less than 100 mw under the dark condition or the light output of the light source is automatically controlled by the control unit described above when the illuminance of the external light detected by the illuminance sensor is 20 lux or less, It is possible to solve the problem of the generation of the glare and the problem of excessive energy consumption of the user while maintaining the collecting efficiency of the first light emitting diode chip and the lifetime of the first light emitting diode chip is extended and the efficiency of high light efficiency is maintained as the replacement cycle is increased, And confirmed through experiments.

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. It should be understood that the scope of the present invention is to be understood as the scope of the following claims and their equivalents.

1000, 2000, 3000, 4000, 5000, 6000, 7000:
110, 210, 310, 410, 710: body
111: outer housing
112: inner housing
113: insect filter part
114, 214:
115: Guide groove
116: elastic fastening piece
120, 220, 320, 420: upper support
121, 421: guide rail
130, 230, 330, 430:
131: Light source cover
132: Light source crimping part
133:
40: Lower light source mounting part
41: Lower light source
140: Light source mounting part
141: insertion groove
142:
143, 243, 343, 443, 543: light source
144: transparent member
145, 245, 345: support member
146: Light emitting diode
147: Sensor
150, 450: Lower support
151: fastening groove
252, 352: support leg
253, 353:
160: collection part coupling member
161: plate
170: Suction fan
171: Motor
181:
182:
190, 290, 390, 490:
191: Support frame
192: support frame connecting member
193: collection member mounting member
711: Body cover
712: Stopper portion
712a: Stone substrate mounting part
712b:
715: External power supply
716:
713: first insect filter section
717: second insect filter section
720: first support
721: first guide unit guide portion
722: Stone publication elastic connecting part
723: first support piece elastic piece
724:
725: Stone substrate
750: second support
751: second support plate
752: second support rail
753: pressing member guide portion
754:
755: first pressing member engaging portion
756: second pressing member engaging portion
781: upper guide portion
791: first support piece elastic piece coupling portion
1100: first guide unit
1110: Stone Publishing
1120: Stone publication elastic piece
1121:
1122: protrusion
1130:
1140:
1200: second guide unit
1210: second guide unit plate
1220: second guide unit rail
1230: pressing member
2100:
2200:
2300: light source
2400:
2500:
2210: UV sensor
2220: Light sensor
2230: Motion sensor
2221: Amplifier
2222: AD converter
2223: MCU
2224: Light source
2300a: light source driving circuit
2400a: LED input switch

Claims (30)

A body with a suction fan;
A first support capable of moving up and down with respect to the body; And
A light source unit coupled to one end of the first support and having a first height and a second height in accordance with movement of the first support;
. ≪ / RTI >
The method according to claim 1,
Wherein the first height is the lowest position of the light source when the first support is moved downward and the second height is the highest position of the light source when the first support is moved upward.
The method according to claim 1,
And a body cover disposed on the outer surface of the body,
Wherein the first support is guided into a space defined between the body and the body cover.
The method of claim 3,
Further comprising a first insect filter portion disposed on the body,
Wherein at the first height, the light source portion is in contact with at least one of the body cover and the first insect filter portion.
The method of claim 3,
Wherein the body cover has a stopper portion for preventing the movement of the first support on the inner wall,
Wherein the light source portion is fixed at the first height.
The method of claim 5,
Wherein the first support has a stone substrate,
The stopper portion
A stone substrate guide portion for guiding the stone substrate; And
A protruding plate is seated to stop the movement of the first support;
. ≪ / RTI >
The method of claim 6,
Wherein the stone substrate is positioned below the stone substrate seating portion, and the first support frame is fixed at the first height.
The method according to claim 1,
Further comprising a first insect filter portion disposed on the body,
Wherein the first insect filter portion is provided with an upper guide portion for guiding the first support member.
The method of claim 8,
The first support includes a first support piece elastic piece,
Wherein the upper guide includes a first support piece elastic piece engaging portion corresponding to the first support piece elastic piece,
Wherein the first support piece elastic piece is coupled to the first support piece elastic piece coupling part and the light source part is fixed at the second height.
The method of claim 9,
Wherein the first support bar elastic piece includes a vertical piece cut on a corresponding both sides so as to be elastically bendable and a stone substrate provided on the vertical piece,
And the projection plate is fitted to the first support piece elastic piece engagement portion.
A body with a suction fan;
A light source unit having a light source mounting portion on which a light source is mounted;
A first support for supporting the light source unit from the body; And
A second support member capable of moving up and down with respect to the body and movable at a third height and a fourth height according to the movement;
. ≪ / RTI >
The method of claim 11,
Wherein the third height is the highest position when the second support is upwardly moved and the fourth height is the lowest position when the second support is downwardly moved.
The method of claim 12,
And the lower end of the second support is disposed higher than the lower end of the body at the third height.
The method of claim 11,
The body further includes a body cover disposed on the outer surface,
And the second support is guided into a space defined between the body and the body cover.
The method of claim 11,
Further comprising a second guide unit provided so as to be able to fix the second support member at at least one position,
The second guide unit
A second guide unit plate; And
A second guide unit rail provided on the second guide unit plate and guiding the second support unit up and down with respect to the body;
. ≪ / RTI >
16. The method of claim 15,
The second support base includes a second support rail which is engaged with the second guide unit rail,
Wherein the second guide unit rail and the second support rail include at least one of '┏' and '┓', and the second support rail is separated from the second guide unit rail, .
18. The method of claim 16,
A pressing member provided between a pair of the second guide unit rails is guided along a pressing member guide portion provided between the pair of second support rail on the second support base,
The pressing member is brought into contact with at least one pressing member engaging portion provided on the second supporting member to fix the second supporting member,
And controls the installation height from the ground of the body.
The method of claim 11,
The first support can move up and down with respect to the body, and the light source can move to a first height and a second height according to the movement of the first support,
Wherein the first height is the lowest position of the light source when the first support is moved downward and the second height is the highest position of the light source when the first support is moved upward.
The method of claim 11,
Wherein the body includes a collecting portion coupling member having a plurality of plates protruding outwardly,
And the second support is guided to a space between the plurality of plates.
The method of claim 11,
And a light source cover coupled to an upper portion of the light source,
Wherein the light source mounting portion is disposed at a lower portion of the light source portion, and the direction in which the light source cover is located is opened.
The method according to claim 1 or 11,
A light sensor for detecting the illuminance of the ambient light of the retractor, a motion sensor for detecting the user's approach information to the retractor, and a UV sensor for detecting the light intensity information of the light source.
23. The method of claim 21,
Wherein the driving voltage applied to the light source is PWM (Pulse Width Modulation) controlled in accordance with a change in illuminance of the ambient light detected by the illuminance sensor.
23. The method of claim 22,
And has a duty ratio of at least two drive voltages applied to the light source.
24. The method of claim 23,
Wherein when the illuminance of the ambient light detected by the illuminance sensor is less than a predetermined illuminance range, the duty ratio of the drive voltage applied to the light source is s% and the duty ratio of the drive voltage applied to the light source is b% When, b> s, satisfies b.
24. The method of claim 23,
Wherein the illuminance sensor includes at least three illuminance ranges set in advance and is controlled so that a duty ratio of a drive voltage applied to the light source changes as the illuminance range changes.
23. The method of claim 21,
Wherein the access information includes access distance information,
Wherein the light intensity of the light source is controlled in accordance with information on the approach distance of the user detected by the motion sensor.
27. The method of claim 26,
Wherein the light intensity of the light source decreases when the access distance information of the user is less than a preset value.
23. The method of claim 21,
And generates an alarm when the luminous intensity information of the light source is less than a preset value.
23. The method of claim 21,
Wherein the light output of the light source is controlled so that the light output of the light emitted from the light source is 100 mW or less when the illuminance of the ambient light detected by the illuminance sensor is 20 lux or less.
The method according to claim 1 or 11,
Wherein the light output of the light emitted from the light source is 100 mW or less.

Images