KR101712149B1 - Apparatus for measuring of mosquito repellent effect on light - Google Patents

Abstract

The present invention relates to an apparatus for measuring a mosquito repelling effect on illumination.
An apparatus for measuring a mosquito avoidance effect for an illumination of the present invention comprises: a stand (10); A mosquito attraction device 20 provided at one side of the stand 10 and provided with attracting means for attracting the mosquito 1; A measurement light source device 30 installed in the stand 10 adjacent to the mosquito attraction device 20 and provided with a light source 2 for measuring a mosquito repelling effect; And a mosquito capturing device 40 installed in the stand 10 adjacent to the mosquito attracting device 20 and capturing the mosquito 1 close to the vicinity of the mosquito attracting device 20. [
According to the present invention, there is provided a mosquito attraction device for attracting a mosquito to a stand, a measurement light source device for mounting a light source to be measured, and a mosquito capturing device for capturing a attracted mosquito, It is possible to measure the mosquito avoidance effect according to the wavelength quickly and accurately.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a mosquito repellent effect measuring apparatus,

The present invention relates to a measuring device for measuring a repelling effect of a mosquito according to the wavelength of an illumination such as an LED lamp and a mosquito attracting device for attracting the mosquito and a mosquito capturing device for capturing the attracted mosquito, The present invention relates to a device for measuring a mosquito avoidance effect on illumination, which is capable of measuring the number of captured mosquitoes while installing a lamp and measuring the avoidance effect of the mosquito according to the wavelength of the lamp.

There are methods such as nervous system paralysis method such as pesticide and fumigant, electric shock method, mosquito repellent method and the like.

Peppertrine, which is mainly used in the case of using insecticides, is known to cause problems such as cancer, nervous system paralysis, respiratory disorder, dizziness and headache. It also disturbs the ecosystem by attracting insects in other areas, And the like.

Due to these problems, a method of attracting and capturing mosquitoes by light has been proposed.

As a related art, a mosquito attractor and a mosquito attractor using the mosquito attractor (Korean Patent Laid-Open No. 10-2012-0132132, Patent Document 1) disclose a method of attracting a mosquito using a light emitting lamp, And a fan is placed around the lamp to catch the mosquito by the suction force of the fan.

However, such an attracting technique has attracted a large number of mosquitoes when installed in an outdoor environment, and has a problem of environmental and hygiene problems due to ecosystem disturbance, pathogen propagation, and mosquito bodies.

As a technique for solving such a problem, in a "manhole mosquito repellent lamp" (Korean Patent Registration No. 10-1344078, Patent Document 2), an LED lamp emitting a wavelength at which mosquitoes are avoided, It was installed around the manhole to block the approach of the mosquito.

However, since the wavelengths of the lamps in which the mosquitoes are avoided are not precisely known yet, and various types of mosquitoes may have different evasion wavelengths, studies on various evasion wavelengths including the inventors of the present application are underway.

The research on the evasion wavelength of the mosquitoes is mainly conducted by installing a mosquito net in the indoor or outdoor area, collecting a certain number of mosquitoes in the mosquito network, inputting the mosquitoes inside the mosquito net, However, since the experiment is not performed quickly and the experiment is not performed in a natural environment, there is a problem in reliability.

KR 10-2012-0132132 (2012.12.05) KR 10-1344078 (December 13, 2013)

The apparatus for measuring a mosquito avoidance effect on illumination according to the present invention is a mosquito avoidance apparatus for attracting a mosquito to a stand, a measurement light source device for mounting a light source to be measured, A mosquito capturing device for capturing mosquitoes is provided so that the number of captured mosquitoes can be easily measured according to the wavelength of the light source and thus the mosquito repelling effect according to the wavelength can be quickly and accurately measured.

In particular, it is possible to freely adjust the distance between the light source and the mosquito attracting device so as to measure the mosquito repelling effect according to the distance from the light source.

In addition, a control device with a built-in timer is provided, and a mosquito capturing device is provided with a retractable lid operated by the control of the control device. In addition, the light source and the suction fan are connected to the control device, And the operation of the suction fan are linked with each other so that the accuracy of the experiment can be increased.

In order to solve the above problems, an apparatus for measuring a mosquito avoidance effect on illumination according to the present invention comprises: a stand (10); A mosquito attraction device 20 provided at one side of the stand 10 and provided with attracting means for attracting the mosquito 1; A measurement light source device 30 installed in the stand 10 adjacent to the mosquito attraction device 20 and provided with a light source 2 for measuring a mosquito repelling effect; And a mosquito capturing device 40 installed in the stand 10 adjacent to the mosquito attracting device 20 and capturing the mosquito 1 close to the vicinity of the mosquito attracting device 20. [

The distance measuring means 50 may further include a distance adjusting unit 50 for adjusting the distance between the light source 2 and the mosquito attracting apparatus 20 installed in the measurement light source device 30.

Specifically, the measurement light source device 30 includes a connection part 31 whose one side is slidable along the stand 10; And a light source coupling part 32 connected to the connection part 31 and coupled to the end part of the light source 2. The distance adjustment device 50 has one side fixed to the stand 10, And a moving unit 51 connected to the connecting unit 31 to move the connecting unit 31.

In the mosquito attracting apparatus 20, the dry ice 21 is stored therein, and the hole 22 is formed at the bottom of the mosquito attraction device 20, so that carbon dioxide generated by vaporization of the dry ice 21 is discharged through the hole 22 .

In addition, the measurement light source device 30 is installed on the lower side of the mosquito attraction device 20, the mosquito capturing device 40 is provided with a suction fan 41a therein, and an opening / A case 41 provided with a plurality of projections 41b; And a capturing screen 42 provided below the case 41 and storing the mosquito 1 sucked by the operation of the suction fan 41a. Is installed.

In addition, the opening and closing lid 41b is configured to be opened and closed by an electric signal, and is operated to receive external power. A timer 61 is built in, and the opening and closing lid 41b, the light source 2 And a control device 60 (not shown) for controlling the lighting of the light source 2, the operation of the suction fan 41a and the operation of the opening and closing lid 41b by the operation of the timer 61 electrically connected to the suction fan 41a ) Is further provided.

Further, in the case 41, a guide net 43 having a conical shape and having a network structure is provided on the upper part of the suction fan 41a.

According to the present invention, there is provided a mosquito attraction device for attracting a mosquito to a stand, a measurement light source device for mounting a light source to be measured, and a mosquito capturing device for capturing a attracted mosquito, It is possible to measure the mosquito avoidance effect according to the wavelength quickly and accurately.

In particular, it is possible to freely adjust the distance between the light source and the mosquito attracting device, so that the mosquito repelling effect according to the distance from the light source can be measured.

In addition, a control device with a built-in timer is provided, and a mosquito capturing device is provided with a retractable lid operated by the control of the control device. In addition, the light source and the suction fan are connected to the control device, And the operation of the suction fan are linked with each other, so that the accuracy of the experiment can be increased.

1 is a perspective view showing an embodiment of an apparatus for measuring a mosquito avoidance effect on illumination of the present invention.
2 is a configuration diagram of an embodiment in which a control device is provided in the present invention;
3 is a perspective view showing a state of the apparatus for measuring a mosquito avoidance effect for an illumination according to the present invention when not in use.
4 is a perspective view showing an operation example of the mobile device in the present invention.
5 is a perspective view showing an example in which a mosquito trapping device is installed in connection with a measurement light source device in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for measuring a mosquito avoidance effect according to the present invention will be described in detail with reference to the accompanying drawings.

The apparatus for measuring a mosquito avoidance effect for an illumination of the present invention mainly comprises a stand 10, a mosquito attraction device 20, a measurement light source device 30, and a mosquito capturing device 40.

As shown in FIG. 1, the stand 10 is provided with a triangular support at its lower portion and is stably supported on a floor or an indoor floor, and may be made of various materials such as metal and plastic.

At this time, the stand 10 may have a multi-tube shape as shown in the drawing, and the height of the stand 10 can be adjusted up and down.

The mosquito attraction device 20 is provided at one side of the stand 10 and is provided with attracting means for attracting the mosquito 1.

The attracting means may be a conventionally known composition, lamp, or the like.

However, there is a problem of environmental pollution in the case of the attracting method through the composition, and in the case of the lamp induction method, the experiment effect may be deteriorated in view of the measurement of the repelling effect through the wavelength of the lamp.

As shown in Fig. 1, means for utilizing carbon dioxide known to attract mosquitoes are preferable.

In the figure, a lid 23 is provided at an upper part, a dry ice 21 is stored in the upper part, and a hole 22 is formed at the bottom part. 21 are vaporized and carbon dioxide generated is discharged through the holes 22.

The size of the holes 22 may be as small as about 0.3 cm ± 0.2 cm so that a certain amount of carbon dioxide is discharged through the holes.

At this time, in addition to the dry ice 21, other known structures for generating carbon dioxide may be applied.

In addition, the insulating case may be fixed to the stand 10 by various known clamping means.

The measurement light source device 30 is installed in the stand 10 adjacent to the mosquito attraction device 20 as shown in FIG. 1, and various LED lamps for measuring a mosquito repelling effect can be attached and detached A light source 2 for measuring a mosquito repelling effect is provided.

In this case, the measurement light source device 30 is preferably positioned between the mosquito attraction device 20 and the mosquito capturing device 40, and the mosquito capturing device 40 is located below the mosquito attraction device 20 It is preferable that the measurement light source device 30 is also installed on the lower side of the mosquito attracting device 20. [

Specifically, the measurement light source mounting device 30 includes a connection part 31 having one side connected to the stand 10 and a light source connection part 31 connected to the connection part 31, (32).

At this time, the connection portion 31 is connected to the stand 10 by various known clamping means, and the light source coupling portion 32 is provided with a socket for attaching / detaching the lamp.

At this time, the light source may be singly used, and the light source coupling part 32 may be radially disposed below the mosquito attraction device 20 while being connected to the connection part 31 so that a plurality of light sources can be installed as needed It is possible.

The distance between the light source 2 and the mosquito attracting device 20 installed in the measurement light source device 30 is measured so as to measure a change along the distance between the light source 2 and the mosquito attraction device 20 The distance adjusting means 50 may be further provided.

The simplest configuration of the distance adjusting means 50 may be a method of connecting the measuring light source mounting device 30 and the mosquito attracting device 20 to the stand 10 with a detachable clamp.

However, in this case, the experimenter must manually measure the distance between the light source 2 and the mosquito attraction device 20 manually, thereby slowing down the experimentation and reducing the accuracy.

The connecting portion 31 is configured to be slidable along the stand 10 and the distance adjusting means 50 is fixed to the stand 10 on the one side and the connecting portion 31 and the connecting portion 31 are fixed on the stand 10, And a moving unit 51 connected to the connecting unit 31 to move the connecting unit 31.

In the example of the drawing, the connection part 31 is formed as an empty pipe type and can move along the stand 10. In the example of the moving device 51, a hydraulic or pneumatic cylinder has one side mounted on the upper side of the stand 10, Is fixed to the connecting portion 31 so that the distance is adjusted by the movement of the cylinder rod.

With such a configuration, accurate distance information can be obtained when the control device 60 is operated under the control of a control device 60 described later.

The mosquito capturing device 40 is installed in the stand 10 adjacent to the mosquito attraction device 20 and is configured to capture the mosquito 1 in the vicinity of the mosquito attraction device 20.

An example of the drawing shows an example in which the mosquito capturing apparatus 40 is composed of a case 41 and a capture net 42. [

The case 41 is provided with a suction fan 41a inside, and an openable and closable lid 41b is provided at an upper portion thereof.

The lid 41b basically blocks the case 41 when the suction fan 41a is not operated, thereby preventing the captured mosquito 1 from escaping.

In addition, the suction fan 41a is operated in the direction of sucking air above the case 41. [

The lid 41b may be hingedly coupled to the case 41 to open or close the opening of the case 41 in a sliding manner as shown in the figure.

The opening / closing manner of the lid 41b may be manually opened or closed, but it is preferable that the lid 41b is automatically opened and closed as shown in the figure.

The auxiliary case is provided with a cover 41b at one side of the upper surface of the case 41. The cover 41b is pushed inside the auxiliary case so as to open or close the upper portion of the case 41, And a cover moving device 41c made up of a cylinder is provided.

In this way, when it is configured to be opened and closed by the power, automatic control by the control device 60 becomes possible.

The trap net 42 is installed in the lower portion of the case 41 and has a network structure in which the mosquito 1 sucked by the operation of the suction fan 41a is stored.

At this time, in order to prevent the mothers 1 from being pinched by the blowing of the suction fan 41a in the process of sucking the air by the rotation of the suction fan 41a at a high speed, A guide net 43 having a conical shape and having a network structure may be further provided on the suction fan 41a.

The guiding nacelle 43 may have a conical shape with a high central portion and a low height toward the peripheral portion so that the mosquito 1 slides and moves to the capturing net 42 at the lower portion.

As described above, when the opening and closing type lid 41b is operated by power, it is configured to be opened and closed by an electric signal, and a control device 60 operated by receiving external power is provided to perform an automated experiment .

2, the control device 60 includes a timer 61 and is electrically connected to the opening / closing lid 41b, the light source 2, and the suction fan 41a to operate the timer 61 The operation of the suction fan 41a and the operation of the opening and closing lid 41b can be controlled by the light source 2,

The control device 60 includes an input unit 63 configured by a button or a keyboard to input information by an experimenter, a timer 61 for storing operation time, time and the like by a user input, a timer 61 61 and a control unit 63 electrically connected to the opening and closing lid 41b, the light source 2 and the suction fan 41a to control the operation of each device.

The controller 63, which receives a signal from the timer 61 according to the operation time data input by the user, operates the suction fan 41a when the input value is stored as an operation, and the opening / closing lid 41b The suction fan 41a is stopped and the opening and closing lid 41b is closed and the light source 2 is turned off in the case of stopping the operation.

At this time, the controller 63 may be connected to the mobile device 51 so as to control the movement of the mobile device 51.

In addition, a known measuring means for automatically measuring the number of mosquitoes 1 trapped in the trap net 42 is provided and connected to the control device 60, and data stored for storing the measured mosquito number data And an output unit for outputting the stored data may be additionally configured.

In this case, the experimenter directly fills the dry ice 21 with the mosquito-inducing device 20 by using the timer having the notification function, and then the measurement light source device 30, the light source 2 to be measured is installed, the opening and closing lid 41b is opened, the suction fan 41a is operated, the timer is pressed, and after the lapse of a predetermined time, The suction fan 41a is stopped and the number of the mosquitoes 1 collected in the collection net 42 can be measured after the light source 2 is turned off.

The apparatus for measuring the mosquito avoidance effect of the present invention configured as described above is constructed such that the mosquito attraction device 20, the measurement light source device 30 and the mosquito capturing device 40 are detachably installed in the stand 10 So that the experiment in the field can be easily performed.

1: Mosquito 2: Light source
10: Stand 20: Mosquito attractor
21: Dry Ice 22: Hole
23: lid 30: measuring light source mounting device
31: connection part 32: light source fastening part
40: Mosquito capturing device 41: Case
41a: suction fan 41b: cover
41c: cover moving device 42: capturing screen
43: guide network 50: distance adjusting means
51: mobile device 60: control device
61: timer 62: input section
63:

Claims (7)

An apparatus for measuring a mosquito avoidance effect on illumination,
A stand 10;
A mosquito attraction device 20 provided at one side of the stand 10 and provided with attracting means for attracting the mosquito 1;
A measurement light source device 30 installed in the stand 10 adjacent to the mosquito attraction device 20 and provided with a light source 2 for measuring a mosquito repelling effect;
And a mosquito capturing device 40 installed in the stand 10 adjacent to the mosquito attraction device 20 and capturing the mosquito 1 close to the vicinity of the mosquito attraction device 20,
A distance adjusting means 50 for adjusting the distance between the light source 2 installed in the measurement light source device 30 and the mosquito attracting device 20 is further provided,
The measurement light source device (30) includes a connection part (31) one side of which is slidable along the stand (10); And a light source coupling part 32 connected to the coupling part 31 and coupled to the end of the light source 2,
The distance adjusting means 50 is fixed to the stand 10 at one side and a moving device 51 connected to the connecting portion 31 to move the connecting portion 31,
The mosquito attraction device 20 has a dry ice 21 stored therein and a hole 22 formed at the bottom of the mosquito attraction device 20 so that carbon dioxide generated by vaporization of the dry ice 21 is discharged through the hole 22 However,
The measurement light source device 30 is installed on the lower side of the mosquito attraction device 20. The mosquito capturing device 40 has a suction fan 41a inside and a lid 41b on the upper side, A case 41 provided with a case 41; And a capturing screen 42 provided below the case 41 and storing the mosquito 1 sucked by the operation of the suction fan 41a. In addition,
The lid 41b is configured to be opened and closed by an electric signal and is operated to receive external power and includes a timer 61. The lid 41b, A control device 60 which is electrically connected to the suction fan 41a and controls the operation of the light source 2, the operation of the suction fan 41a and the operation of the opening and closing lid 41b by the operation of the timer 61 Further,
In the case 41, a guide net 43 having a conical shape and having a network structure is installed on the suction fan 41a,
The hole 22 at the bottom of the mosquito attracting device 20 is 0.1 to 0.5 cm in size,
The moving device 51 is connected to the upper part of the stand 10 and the other is fixed to the connecting part 31 of the measurement light source device 30. The hydraulic device or the pneumatic Cylinder,
The mobile device 51 is electrically connected to the control device 60 so that the mobile device 51 is operated under the control of the control device 60,
A lid 41b is housed in one side of the case 41 and a lid 41b made of a hydraulic or pneumatic cylinder which opens and closes the upper part of the case 41 by pushing the lid 41b inside the auxiliary case. Characterized in that a device (41c) is provided,
Measuring device for mosquito avoidance effect on lighting. delete delete delete delete delete delete

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