KR20120005927U - Action analysis apparatus for the insect species habit - Google Patents

Abstract

The present invention relates to an insect behavior response measuring apparatus that can be used to develop selective control of specific pests by measuring the behavioral response of insects avoiding or attracting insects to light or chemicals.
To this end, the present invention can block the inflow of light from the outside, and a light generator for irradiating light of a specific wavelength region and a dispenser for discharging specific chemicals are provided to create an artificial environment and communicate with the outside. A laboratory environment creation room equipped with a mobile passage and a connection passage connected to the mobile passage of the experimental environment creation room are provided, and a ventilation fan and a vent for ventilating indoor air are provided to create a clean environment and to observe. It consists of a clean room made of transparent material to facilitate.
According to the present invention, by quantitatively measuring the behavioral response of insects to attract light or chemicals or the attraction of insects, it is possible to develop selective control techniques for chasing, attracting, and capturing specific pests. do.
As a result, it is possible to minimize disturbance of the ecosystem by preventing the indiscriminate destruction of insects.

Description

Insect Behavior Response Device {ACTION ANALYSIS APPARATUS FOR THE INSECT SPECIES HABIT}

The present invention relates to a device for measuring insect behavior response, and more specifically, insect behavior that can be utilized to develop selective control against specific pests by measuring the behavioral response of insects avoiding or attracting insects to light or chemicals. It relates to a reaction measuring device.

In general, insects such as moths have a habit of avoiding or preferring light in a specific wavelength region or chemicals of certain components.

Pest control uses the habits of insects such as above to defend or lure them away from certain areas and to capture and combat them.

Such pest extermination is not limited to pests, but also affects widespread insects, causing secondary damage due to ecosystem disturbance to a severe level.

The present invention has been devised to solve the above problems. Insects that can be widely used to develop selective control against specific pests by measuring the behavioral response of insects or avoidance of insects to light or chemicals To provide a behavior response measuring device.

In order to solve the above problems, the present invention can block the inflow of light from the outside and is provided with a light generator for irradiating light in a specific wavelength region and a dispenser for discharging specific chemicals to create an artificial environment. It is equipped with an experimental environment creation room equipped with a mobile passage communicating with the outside, a connection passage connected to the mobile passage of the experimental environment creation room, and a ventilation fan and a vent for ventilating indoor air to create a clean environment. It can be characterized in that made of a clean room made of a transparent material for easy observation.

The light generator is characterized by using an LED as a light source and a controller for varying the wavelength range of light.

The ventilation fan is characterized in that the deodorizing filter is provided on the suction side.

The moving passage is provided with a plurality of through holes of a predetermined size in the experiment environment composition room wall, and a flange is provided outside the through passage, and the connecting passage has a through hole in the clean room wall corresponding to the through hole of the moving passage, and moves outside of the moving hole. It characterized in that the connection flange is fitted to be fitted with the flange.

In addition, the moving passage is provided with a plurality of apertures of a predetermined size in the experiment environment composition room wall, and an arm velcro is provided outside the passage, and the connection passage corresponds to the passage of the movement passage. A male velcro is provided on the outside of the ball and is attached to the velcro.

According to the present invention, by quantitatively measuring the behavioral response of insects to attract light or chemicals or the attraction of insects, it is possible to develop selective control techniques for chasing, attracting, and capturing specific pests. do.

As a result, it is possible to minimize disturbance of the ecosystem by preventing the indiscriminate destruction of insects.

1 is a perspective view of an insect behavior response measurement device according to the present invention.
Figure 2 is a perspective view showing the internal structure of the insect behavior response measurement device according to the present invention.
3 is a control block diagram of an insect behavior response measurement device according to the present invention.
Figure 4 is another embodiment of the insect behavior response device according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the insect behavior behavior response measuring apparatus according to the present invention.

First, as shown in Figures 1 and 2 insect insect behavior response measuring apparatus according to the present invention is largely an experimental environment composition room 100 for creating an artificial environment and a clean room 200 for creating a clean environment It is composed.

Experimental environment composition room 100 may block the inflow of light from the outside, the light generator 10 for irradiating light of a specific wavelength region, the dispenser 20 for discharging a specific chemical and the movement in communication with the outside A passage 30 is provided.

1 is an insect box, 2 is a food container, and 3 is a sliding door.

The clean room 200 is provided with a connection path 110 and a ventilation fan 120 and a ventilation port 130 for ventilating indoor air, which are connected to the movement path 30 of the experiment environment creation room 100. Ventilation net 130 is coupled to the insect screen.

Reference numeral 111 is a door installed to be opened and closed by a hinge, 112 is a latch for controlling the door, 113 is a food container.

In the above technical configuration, the experimental environment composition room 100 may create an experimental environment by irradiating the room with light of a specific wavelength region through the light generator 10.

In addition, the experiment environment composition room 100 may create an experiment environment by releasing a chemical of a specific component through the dispenser 20.

The dispenser 20 is a container containing a chemical or is provided with a control means for controlling the degree of volatilization of the chemical.

The clean room 200 may inhale air into the room through the ventilation fan 120 to allow the indoor air to be discharged through the air vent 130, thereby creating a clean state.

According to the above technical configuration, the communication passage (110) and the connection passage 110 of the clean room (200) of the experimental environment composition room 100 is connected to the insects in the experimental environment composition room 100, dark room When the light of a specific wavelength region is irradiated to the experimental environment composition room 100 through the light generator 10, insects remain in the experimental environment composition room 100 or the clean room 200 through the moving passage 30. Will be moved to.

This makes it possible to grasp the behavior of insects in a particular wavelength region.

On the other hand, the mobile passage 30 of the experimental environment composition room 100 and the connection passage 110 of the clean room 200 communicate with each other, and then enter the insect environment in the experimental environment composition room 100, the experimental environment composition room When the specific chemicals are discharged through the dispenser 20 in the 100, insects remain in the experimental environment composition room 100 or move to the clean room 200 through the moving passage.

This makes it possible to grasp the behavior of insects with respect to specific chemicals.

Here, the grasp of insect habits may be used to determine the number of insects remaining in the experimental environment composition room 100 or moved to the clean room 200 to quantify the preference or avoidance of insects for a specific wavelength region or a specific chemical substance. Can be.

Next, the light generator 10 uses an LED as a light source and is provided with a controller 40 for varying the wavelength range of the light.

Accordingly, when the behavior of insects is examined while varying the wavelength region of the light irradiated from the light generator 10 through the controller 40, it is possible to find the behavior of the insect species in the specific wavelength region.

Next, the ventilation fan 120 is provided with a deodorization filter 140 on the suction side.

This is to prevent odorous substances in the atmosphere from entering the clean room 200 and attracting insects in the experimental environment composition room 100 to the clean room 200 by the odorous substances in the air.

Deodorization filter 140 is filled with an adsorbent material (such as activated carbon) for adsorbing odor particles from the air.

Next, the moving passage 30 is provided with a plurality of through holes of a predetermined size in the wall of the experiment environment composition room 100, and a flange 50 is provided outside the through holes, and the connection passage 110 is connected to the through holes of the moving passage 30. Correspondingly, a connection hole 150 is provided in the wall of the clean room 200 and a fitting flange 150 is fitted to the flange 50 outside the moving hole.

According to the above technical configuration, by fitting the flange 50 and the connecting flange 150, the through hole of the experimental environment composition room 100 and the moving hole of the clean room 200 are aligned, and the experimental environment composition room in a rigid assembly state 100 and the clean room 200 are in communication.

Next, as another embodiment of the connection structure between the experimental environment composition room 100 and the clean room 200, as shown in Figure 4, the moving passage 30 is of a predetermined size on the wall of the experimental environment composition room 100 A plurality of holes are drilled and the female velcro 50 'is provided to the outside of the hole, and the connection passage 110 corresponds to the hole of the movement passage 30, and the movement hole is drilled in the wall of the clean room 200, and the arm is moved outside the movement hole. A male velcro 150 'is provided which is attached to the velcro 50'.

According to the above technical configuration, the Velcro (50 ', 150') is a so-called squeaker that can be attached and detached, and the male and female of the Velcro (50 ', 150') is attached to the through hole of the experimental environment composition room 100 The moving holes of the clean room 200 are aligned, and the experimental environment composition room 100 and the clean room 200 communicate with each other in a solid assembly state.

The above description, as an embodiment of the present invention, puts out that can be modified in various forms within the scope of the technical idea described in the utility model registration claims.

10: light generator
20: dispenser
30: passage
40: controller
50: flange
100: clean room
110: access passage
120: ventilation fan
130: vent
140: deodorization filter
150: connection flange

Claims (5)

Experiment that can block the inflow of light from the outside, has a light generator for irradiating light in a specific wavelength region and a dispenser for discharging specific chemicals to create an artificial environment, and has a mobile passage communicating with the outside Environmental creation room,
It is a clean room made of transparent material so that the connection passage connected to the moving passage of the experimental environment creation room is provided, and a ventilation fan and a ventilation port for ventilating the indoor air can create a clean environment and can be easily observed. Insect behavior response device, characterized in that made. The method of claim 1,
The light generator uses an LED as a light source and the insect insect behavior response measuring device, characterized in that provided with a controller for varying the wavelength range of light. The method of claim 1,
The ventilation fan is an insect insect behavior response measuring device, characterized in that the deodorization filter is provided on the suction side. The method of claim 1,
The movement passage is provided with a plurality of apertures of a predetermined size in the experimental environment composition room wall and a flange is provided outside the aperture,
The connection passage is insect insect behavior response measuring apparatus characterized in that the connection hole is provided in the clean room wall corresponding to the through hole of the moving passage and the connection flange is fitted to the flange outside the moving hole. The method of claim 1,
The moving passage is provided with a plurality of apertures of a predetermined size in the wall of the experiment environment composition room, and an arm velcro is provided outside the apertures.
The access passage is an insect insect behavior response measuring device, characterized in that the male velcro is provided in the clean room wall corresponding to the through-hole of the moving passage and the velcro attached to the outside of the moving hole.

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