KR101301071B1 - Pheromone trap system for remote monitoring based on image - Google Patents

Abstract

PURPOSE: A pheromone trap system for remote monitoring is provided to prevent harmful insects from escaping from a pheromone trap. CONSTITUTION: A pheromone trap system for remote monitoring comprises: a trap body which is formed with an inlet (131) on the side thereof, a birdlime board fixing unit for fixing a birdlime board (160) on the lower part thereof, a camera installation part (120) on the upper part thereof, and a pheromone installation part on one side thereof; a camera installed in the camera installation part so that a lens (210) can face downwards; and a rotary protection part (250) which rotationally protrudes downwards from the side of the camera lens and protects the side of the lens.

Description

Unmanned Monitoring Pheromonetrap System Based on Image {PHEROMONE TRAP SYSTEM FOR REMOTE MONITORING BASED ON IMAGE}

The present invention relates to a pheromone trap system for capturing pests, and in particular, to capture pests through pheromone traps and to capture the captured pest image through a camera to transmit to a remote monitoring server to monitor the occurrence of pests unattended. The present invention relates to a video-based unmanned monitoring pheromone trap system.

Pests such as peach moth, peach deep-moth or moth-patterned leaf moth are mosquitoes that directly damage crops. In order to control the pests having various distributions in the region or in time, it is necessary to monitor the timing of the occurrence of pests and to determine the timely control of the eggs and larvae that are laid.

Pheromone traps are used as one of the devices for monitoring the occurrence of such larvae, and the pheromone traps are used to attract and capture pests through sex pheromones and determine the distribution of pests through identification of the captured pests. However, these pheromone traps have a problem that it is difficult to secure data periodically, manpower and time is required because the manager has to go directly to the outdoor where the pheromone trap is installed to check for pests.

In response to these problems, the applicant has proposed a patent registration No. 0982563, "Pheromone trap-based unmanned monitoring system for peach pure moth occurrence change." The applicant's registered patent includes a population measurement sensor, a communication device, and a meteorological environment measuring device according to the influx of pests in the pheromone trap, and the remote monitoring server by measuring the population number and surrounding weather information of the pests captured through the pheromone trap. To be transferred to. Therefore, the manager can grasp the change of pests according to the weather environment measured through the pheromone trap remotely without moving directly to the outdoor where the pheromone trap is installed.

However, since the pheromone trap system composed of the above configuration measures the population of pests entering the pheromone trap through a population measurement sensor for detecting the movement of the pest, the identification method of the pest is limited to sex pheromone, and the trapping force in trap design This poor problem was difficult to accurately reflect the population of pests. Accordingly, the administrator has to visit the pheromone trap periodically to check whether the sensor is operating normally, and to check and compare the measurement results and the actual number of captured objects.

Recently, a device has been proposed to install a camera on a pheromone trap to take a captured photograph of a pest and transmit the captured pest image to a remote monitoring server through a communication device. There was a problem that the camera is damaged or the captured image is not clear according to the inflow and flight of the fly, and the insects introduced into the pheromone trap frequently escape from the outside.

Republic of Korea Patent Publication No. 0982563 (2010.09.09)

The present invention has been proposed in order to solve the problems of the conventional pheromone trap, an object of the present invention is to shoot the image of the pest captured in the pheromone trap through the camera protected from the pest to transmit to the remote unmanned monitoring server To provide a system based on unmanned monitoring pheromone trap.

Another object of the present invention is to provide an unmanned monitoring pheromone trap system to prevent the escape of pests introduced into the pheromone trap, and to stably support the sticky plate for trapping the pests introduced into the pheromone trap.

Pheromone trap system according to the present invention for achieving the above object is a pest inlet is formed on the side so that the pest is introduced into the inner receiving space, detachably coupled to the sticky plate to capture the pest introduced into the receiving space A trap body having a sticky plate fixture formed at a lower portion, a camera mounting portion on which a camera is installed, and a pheromone mounting portion on which a pheromone storage box is installed to attract pests; A camera installed in the camera mounting portion of the trap body so that the lens faces the inner lower portion so as to photograph the pest image captured through the sticky plate; Rotating protection portion is formed to protrude to the lower side rotatably on the camera lens to protect the side of the lens wrapped.

Here, the rotational protection portion is a donut-shaped rotational support installed on the outside of the camera lens to surround the upper portion of the camera lens, and protrudes downward along the circular edge formed on the lower portion of the rotational support to protect the side of the camera lens It consists of a plurality of rotary blades.

The rotary support is inserted into the rotary bearing is formed to be rotatable in the left and right direction, the rotary blade is preferably installed to be rotatable in the lower portion of the rotary support.

In addition, the sticky plate fixture formed on the bottom of the trap body is a fixed support which is fixed to be installed spaced apart from the bottom of the trap body, a support plate that is removably inserted between the bottom and the fixed support of the trap body, and the trap body Comprising a screw is coupled to a plurality of screw fastening groove formed on the bottom comprises a fixing screw for fixing the support plate in close contact with a fixed support.

The lower portion of the support plate is formed with a fixing groove which is fixed to the fixing screw is inserted into a portion in contact with the fixing screw, it is preferable that a plurality of sticky plate is installed between the support plate and the fixed support.

On the other hand, the upper part of the trap body is coupled to the trap fixture to protect the upper part of the camera mounting portion, the trap fixture is supported detachably coupled to the trap support installed on the support fixed to the ground, the trap installed on the support It is preferable that the support is formed in plural to have different heights and lengths so that the trap fixtures of the trap bodies having different types of pheromone storage boxes are installed.

In addition, the support is provided with a control box for controlling the operation of the camera installed in the trap body, and transmits a pest image photographed through the camera to a monitoring server located remotely through a communication network.

The unmanned monitoring pheromone trap system according to the present invention by installing a rotary wing around the camera to protect the camera from the flight of pests and to prevent the pests to fall by lowering the pests by interfering with the flight to escape the pests entering the pheromone trap There is an effect that can be prevented.

In addition, the present invention can be stably supported on the sticky plate that is loaded on the lower part of the pheromone trap to capture pests to prevent the sticky plate is damaged by the external environment, can be stored by loading a number of sticky boards of the sticky board It is easy to replace.

1 is an overall network connection diagram of a pheromone trap system according to an embodiment of the present invention,
Figure 2 is a partial separation perspective view of the pheromone trap is not installed in accordance with an embodiment of the present invention,
Figure 3 is a partial separation perspective view of the pheromone trap is installed sticky plate according to an embodiment of the present invention,
4 is a bottom perspective view of the pheromone trap according to the embodiment of the present invention;
5 is a partial side cross-sectional view of the pheromone trap according to the embodiment of the present invention;
Figure 6 is an example of rotation of the rotation protection unit provided in the pheromone trap according to an embodiment of the present invention,
Figure 7 is an example of a rotary blade of the screw type according to an embodiment of the present invention,
8 is an example of a rotary blade capable of rotating according to an embodiment of the present invention,
9 is an example in which a plurality of sticky plates are installed in the pheromone trap according to the embodiment of the present invention;
10 is an installation view of the pheromone trap according to an embodiment of the present invention,
FIG. 11 is a flowchart illustrating a process of monitoring a pest occurrence change in real time through a pheromone trap system according to an exemplary embodiment of the present invention.

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

Figure 1 shows the overall network connection diagram of the pheromone trap system according to an embodiment of the present invention.

As shown in FIG. 1, the pheromone trap system according to the present invention includes a pheromone trap 100 installed in each of the outdoor areas separated by regions to capture pests through the sex pheromones and take images of the captured pests. The pheromone trap 100 transmits the captured pest image to the monitoring server 500 connected through the communication network.

The pheromone trap 100 is installed outdoors in an orchard or field where pests are mainly generated, and measures the weather environment information of the surroundings, and captures the captured pests by attracting the pests through sex pheromones, The pest capture device for transmitting the pest image information taken with the weather environment information to the monitoring server 500 through a communication network.

The monitoring server 500 displays the weather information and pest image information transmitted from the pheromone trap 100 through a communication network on the screen, analyzes the pest image information to grasp the type and number of pests and the like according to the weather environment. A server computer that analyzes and monitors changes in pest outbreaks.

Figure 2 is a partially separated perspective view of the pheromone trap is not installed sticky plate according to an embodiment of the present invention, Figure 3 is a partially separated perspective view of the pheromone trap is a sticky plate is installed, Figure 4 is a bottom perspective view of the pheromone trap, Figure 5 Shows a partial side cross-sectional view of the pheromone trap.

As shown in Figure 2 to 5, the pheromone trap 100 according to an embodiment of the present invention is a trap body 110, the trap body 110 is introduced into the receiving space 130 is formed, the trap body 110 Installed in the upper part of the pheromone container 300 to attract the pest through the sex pheromone, and is installed detachably on the lower portion of the trap body 110, the pest introduced into the receiving space 130 of the trap body 110 It comprises a sticky plate 160 for capturing the camera 200 is installed on the trap body 110 to shoot a pest image captured through the sticky plate 160.

The trap body 110 has a trapezoidal rectangular parallelepiped having a lower width than the upper portion, and a pest inlet 131 is formed at a side of the trap body 110 so that the pests are stored from the outside into the accommodation space 130. Allow inflow. On the other hand, a plurality of ventilation holes 126 is formed on the upper side of the trap body 110, the pest inlet 131 is formed to allow the wind to flow into the inner receiving space (130).

A pheromone installation unit 125 on which the pheromone storage box 300 is installed and a camera installation unit 120 on which the camera 200 is installed are formed on the trap body 110. The pheromone installation unit 125 is to detachably couple the pheromone storage box 300 is stored sex pheromone attracting pests, the pheromone installation unit 125 is made of a through hole penetrating the upper and lower parts, the through hole The pheromone storage box 300 is fitted to emanate the pheromone fragrance in the receiving space 130 of the trap body 110 to attract the pest to the receiving space 130, such a pheromone installation unit 125 is trap body It may be formed on the side rather than the top of the (110).

The camera mounting unit 120 is a portion in which the camera 200 photographing the inside of the trap body 110 is installed. The camera mounting unit 120 has a through-hole penetrating up and down to form a camera lens 210. It is coupled to protrude to the inner bottom. The camera lens 210 has an angle of view so that the camera lens 210 can photograph the sticky plate 160 installed under the trap body 110.

On the other hand, the inner upper portion of the trap body 110 is provided with a rotation protection unit 250 for protecting the camera lens 210 protruding to the inner lower, this rotation protection unit 250 is the side of the camera lens 210 Rotated in the lower portion is formed to protrude to serve to surround the side of the lens 210 to protect. The rotation protection unit 250 is a donut-shaped rotary support 251 is installed on the outside of the camera lens 210 to surround the upper portion of the camera lens 210, and a circular border formed on the lower portion of the rotary support 251 It comprises a plurality of rotary blades 252 protruding downward along the. In the embodiment of the present invention, the rotation support 251 is rotatably inserted into the upper portion of the trap body 110 is inserted into the bearing, the bottom of the rotation support 251 made of a transparent PC material of about 10cm in length Six rotary vanes 252 are installed, and the rotary vanes 252 should be installed so as not to cover the angle of view when the camera lens 210 photographs the lower sticky plate 160. Rotating support 251 and the rotary blade 252 made of the structure is rotated by a windless force by the wind, when the rotary support 251 and the rotary blade 252 is rotated, the flow of air inside the body is changed, Accordingly, the pests introduced into the receiving space 130 inside the trap body 110 are momentarily lost flight ability and fall to the floor to be captured by the sticky plate 160. Figure 6 shows an example of the rotation of the rotation protection unit, the rotary blade 252 and the rotary support 251 is rotated to one side by the wind flowing through the vent 126 of the trap body 110. As such, the rotation protection unit 250 prevents the pest from colliding directly with the lens 210 at the side of the camera lens 210 to prevent the lens 210 from being damaged or malfunctioned, and at the same time, the ventilation hole 126. Rotating by the wind flowing through the air to change the flow of air to interfere with the flight of the pest serves to fall to the floor where the sticky plate 160 is located.

On the other hand, the rotary blade 252 provided in the rotation protection unit 250 may be manufactured in various forms, for example, to produce the rotary blade 252 in the form of a screw to increase the rotational force according to the wind. Figure 7 shows an example of such a screw-shaped rotating blade. In addition, the rotary blade 252 may be coupled to the rotary support 251 to rotate around the axis connected to the rotary support 251, Figure 8 shows an example of such a rotary blade capable of rotating. In this case, while rotating the support 251 rotates the rotary wing 252 can also be rotated by themselves to increase the rotational force according to the wind, in some cases the rotary support 251 is fixed so as not to rotate the rotary wing Only (252) may be able to rotate itself by wind.

On the other hand, the lower portion of the trap body 110 is formed with a sticky plate fixture 140 for detachably fixing the sticky plate 160, the sticky plate fixture 140 is the bottom of the trap body 110 ( 141 is fixed support 142 is spaced apart and fixed at a predetermined interval and the upper support plate 150 is inserted and detachably inserted between the bottom 141 and the fixed support 142 of the trap body 110. And a fixing screw 146 which is screwed into the plurality of screw fastening grooves 145 formed on the bottom 141 of the trap body 110 to closely contact the support plate 150 positioned at an upper portion thereof with the fixing support 142. It is made to include.

The fixed support 142 is installed to be spaced apart from the bottom 141 so that the support plate 150 and the sticky plate 160 is sufficiently loaded, the fixed support 142 is the bottom 141 of the trap body 110 It is fixed to a predetermined width along the side and the rear from the top to serve to limit the upper movement of the support plate 150 and the sticky plate 160. In addition, the front surface of the fixed support 142 is a gripping groove 142a for facilitating storage and separation of the support plate 150 and the sticky plate 160 which are fitted between the bottom 141 and the fixed support 142. ) Is formed.

The support plate 150 supports the sticky plate 160 located at the top to be firmly coupled to the fixed support 142. When the fixing screw 146 is fastened to the bottom of the support plate 150, A fixing groove 151 is formed in a portion in contact with the screw 146 so that the fixing screw 146 is fitted and coupled to be firmly supported. In the embodiment of the present invention, the support plate 150 is made of an H-shape, the shape of the support plate 150 may be variously changed.

In addition to the screw fastening groove 145 for fastening the fixing screw 146 to the bottom 141 on which the sticky plate fixing member 140 is installed, the sticky plate is accumulated on the bottom 141 of the trap body 110. The through hole 148 is formed to prevent the 160 from being damaged. In the embodiment of the present invention, all four screw fastening grooves 145 formed on the bottom 141 of the trap body 110 are formed, and two through holes 148 for water draining are formed. The size and number of the fastening grooves 145 and the through holes 148 may be appropriately changed.

On the other hand, the sticky plate 160 which is located on the upper side of the support plate 150 and detachably fixed may be loaded one or more. If only one sticky plate 160 is located on the upper portion of the support plate 150, after using the sticky board 160, if the manager wants to replace it with a new sticky board 160, the manager should have a new sticky board 160. do. In contrast, when a plurality of sticky plate 160 is loaded on the support plate 150, the administrator removes the used sticky plate 160 without having to carry a separate sticky plate 160 and the other sticky plate located below Since the 160 may be installed, the sticky plate 160 may be easily replaced. In general, since the sticky plate 160 is provided in a state in which the sticky liquid is applied in a protected state such as a release paper, the release paper should be removed during use. Accordingly, the plurality of sticky plates 160 are stacked on the support plate 150. In the case of use, only the sticky plate 160 located at the top is removed after the release paper is installed, and after the replacement, the release paper of the sticky plate 160 positioned at the top may be removed. Figure 9 shows an example of a plurality of sticky plate is installed in the sticky plate fixture.

The pheromone trap 100 having the above configuration is installed outdoors to attract and capture pests, photograph the captured pest images, and transmit them to a monitoring server 500 remotely located through a communication network.

Figure 10 shows the installation of the pheromone trap in accordance with an embodiment of the present invention.

As shown in FIG. 10, the pheromone trap 100 according to the present invention is detachably installed on the support 10 fixed to the ground to capture pests and measure the surrounding weather environment, and captures the captured pest images. The photographing is transmitted to the monitoring server 500 through the communication network together with the weather environment information.

The support 10 is a cylindrical support rod, the lower end of which is fixed to the ground through a support fixing member 15 such as prosthetic concrete. In the embodiment of the present invention, the support 10 is an upper support 13 and a suspended support. 12 and the lower supporter 11 are formed to be detachably coupled, and inside the supporter 10, wirings for connecting the devices are arranged.

The upper part of the upper support 13 is provided with a solar cell 20 for generating power through sunlight and an environmental sensor unit 25 for measuring the surrounding meteorological environment, one end of the solar cell 20 is a base ( On one side of the 21 is installed to enable the vertical rotation by the rotation member (21a) and the other end is installed to enable height adjustment by the vertical adjustment member (21b). The environmental sensor unit 25 is installed at one end of the base 21 to measure weather information such as temperature, humidity, illuminance, and rainfall. The solar cell 20 and the environmental sensor unit 25 are fixed to a solar cell. The upper end support 12 is rotatably installed by the member 26.

A plurality of pheromone trap 100 is installed on the upper support 13, for this purpose, a plurality of trap support 30 having a different height and length is detachably installed through the screw coupling, etc. The trap support 40 of the pheromone trap 100 is detachably coupled to the trap support 30 to fix the pheromone trap 100 to the upper support 13. In the embodiment of the present invention, the trap support 30 is installed in all three, the trap support 30 is located at the top is located 15cm below the top of the upper support 13 and is formed of a length of 30 ± 10cm , The trap support 30 is located in the middle is located 20cm below the upper trap support 30 is formed of a length of 50 ± 10cm, the bottom trap support 30 is 20cm from the suspended trap support 30 It is located below and is formed to a length of 70 ± 10 cm. The reason for the different height and length of the trap support 30 is to use a sex pheromone to attract pests of different species to each pheromone trap 100 to be coupled, to prevent the interference phenomenon between sex pheromones This is to attract and capture various kinds of pests.

The stop support 12 has a control box for controlling the operation of the camera 200 installed in the pheromone trap 100 and transmits a pest image photographed through the camera 200 to a remote monitoring server 500 through a communication network ( 50) is installed. In the embodiment of the present invention, the control box 50 is generated through the control board 51 and the solar cell 20 to control the operation of the camera 200 and to receive the image taken through the camera 200 And a pest image photographed through the camera 200 by establishing communication with the storage battery 52 for charging the power to be supplied to the environmental sensor unit 25 and the camera 200, and the monitoring server 500 through a communication network. Communication board 53 for transmitting the weather information to the monitoring server 500 is provided.

Meanwhile, the monitoring server 500 receiving the pest image and the weather environment information captured from the control box 50 of the pheromone trap 100 collects the received information and analyzes the change of the pest according to the weather environment. do. That is, the monitoring server 500 analyzes the pest image information received from the control box 50 of the pheromone trap 100 through a communication network, grasps the type and population information of the pest, and collects it with the weather information to provide the weather environment. Analyze changes in the occurrence of pests, store them in a database, and display them on the screen so that administrators can check them in real time.

Hereinafter, the process of monitoring the change in the occurrence of the pest in real time through the pheromone trap system according to the present invention having the above configuration will be described.

FIG. 11 is a flowchart illustrating a process of monitoring a pest occurrence change in real time through a pheromone trap system according to an exemplary embodiment of the present invention.

Steps S100, S110, and S120: First, when the pheromone trap 100 and the monitoring server 500 are turned on and the system is turned on (S100), the control box 50 of the pheromone trap 100 is the camera 200 at which the current time is set. It is determined whether the operation time of (S110), if not the operating time to maintain the standby state (S120). That is, in the embodiment of the present invention, the camera 200 is not driven at all times to capture the captured pest image, but according to the type of the pest, the insect is driven at the time zone where the pest is mainly active, thereby capturing the captured image and thus unnecessary power loss. To prevent this.

Steps S130, S131, and S132: When the operation time is satisfied, the control box 50 transmits an operation signal to the camera 200 installed in the trap body 110 to drive the camera 200 (S130) and the camera ( 200 captures the captured pest image through the sticky plate 160 installed on the bottom 141 (S140), and transmits the captured pest image to the control box 50 (S132).

Steps S140, S141, and S142: On the other hand, when the operating time comes, the environmental sensor unit 25 is driven (S140), and the weather such as wind direction / wind speed, humidity, temperature, illuminance, and rainfall of the surroundings through the environmental sensor unit 25 The environmental information is measured (S141), and the measured ambient weather environment information is transmitted to the control box 50 (S142).

Step S150: When the captured pest image and the weather environment information of the pheromone trap 100 are received through the above process, the control box 50 transmits the pest image and the weather environment information to the monitoring server 500 connected through the communication network. do.

Steps S160, S170 and S180: Meanwhile, the monitoring server 500 receiving the pest image and the surrounding weather environment information captured from the control box 50 in which the pheromone trap 100 is installed (S160) by analyzing the pest image, the pheromone Identify the pest occurrence information according to the surrounding meteorological environment in which the trap 100 is installed and the pest occurrence information is displayed on the screen so that the administrator can grasp it in real time (S170). This process is repeated for the set operating time until the system is shut down.

As described above, the pheromone trap 100 according to the present invention is coupled to the support 10 and installed in the outdoors such as orchards, and is driven at a specific time zone where the pest is mainly active under the control of the control box 50, An image of the pest captured through the sticky plate 160 installed at the bottom of the trap body 110 is taken and transmitted to the remote monitoring server 500 connected through the communication network. In addition, by measuring the ambient weather environment in the outdoor installed pheromone trap 100 through the environmental sensor unit 25 and transmits it to the remote monitoring server 500 through a communication network, the monitoring server 500 pests according to the weather environment This will allow you to analyze and identify changes in the occurrence of.

The pheromone trap 100 according to the present invention can be variously modified to perform the same to similar functions, for example, the trap body 110 may be made of a cylindrical or inverted trapezoidal shape, not a trapezoidal shape. have. In addition, the camera 200 provided in the trap body 110 may capture the image of the sticky plate 160 at the request of the monitoring server 500 and transmit the image to the monitoring server 500 at the request of the monitoring server 500. When a pest inflow is detected by adding a pest detection sensor to the body 110, the camera 200 may be driven to capture an image of a captured pest.

As such, the present invention is not limited to the above-described embodiments and various modifications within the equivalent scope of the technical concept of the present invention and the claims to be described below by those skilled in the art to which the present invention pertains. And of course modifications can be made.

10: support 11: lower support
12: suspended support 12: upper support
15: support fixing member 20: solar cell
21: solar cell base 21a: solar cell up and down rotating member
21b: solar cell vertical adjustment member 25: environmental sensor
26: solar cell fixing member 30: trap support
40: trap fixture 50: control box
51: control board 52: storage battery
53: communication board 100: pheromone trap
110: trap body 120: camera mounting portion
125: pheromone installation portion 126: ventilation holes
130: pest storage space 131: pest inlet
140: sticky plate fixture 141: bottom
142: fixed support 142a: gripping groove
145: screw fastening groove 146: fixing screw
148: through hole 150: support plate
151: fixing groove 160: sticky plate
200: camera 210: camera lens
250: rotation protection unit 251: rotation support
252: Rotating Wings 300: Pheromone Cache
500: monitoring server

Claims (10)

In the pheromone trap system that attracts and captures pests through sex pheromone,
Pest inlet 131 is formed on the side so that the pest is introduced into the inner receiving space 130, the sticky plate detachably coupled to the sticky plate 160 for trapping the pest introduced into the receiving space 130 Fixture 140 is formed at the bottom, the camera installation unit 120 is installed on the camera 200 is installed on the top, the pheromone installation unit 125 is installed on one side is installed pheromone library 300 to attract pests A trap body 110 formed;
A camera (200) installed in the camera mounting unit (120) of the trap body (110) so that the lens (210) faces an inner lower portion so as to capture a pest image captured through the sticky plate (160);
And a rotation protection part (250) rotatably protruding downward from the side of the camera lens (210) to surround and protect the side of the lens (210). The method of claim 1,
The rotation protection unit 250
A donut-shaped rotary support 251 installed outside the camera lens 210 so as to surround an upper portion of the camera lens 210;
Pheromone trap system, characterized in that it comprises a plurality of rotating blades 252 protruding downward along the circular edge formed on the lower portion of the rotation support 251 to protect the side of the camera lens (210). The method of claim 2,
The rotation support 251 is a pheromone trap system, characterized in that the rotating bearing is formed to be rotatable in the left and right directions. The method of claim 2,
The rotary blade 252 is a pheromone trap system, characterized in that rotatably installed on the lower portion of the rotary support (251). The method of claim 1,
Sticky plate fixture 140 formed in the lower trap body 110 is
A fixed support 142 which is fixedly spaced apart from an upper portion of the bottom 141 of the trap body 110;
A support plate 150 detachably inserted between the bottom 141 and the fixed support 142 of the trap body 110;
Fixing screw 146 that is screwed to the plurality of screw fastening grooves 145 formed on the bottom 141 of the trap body 110 to be in close contact with the fixing plate 142 fixed to the support plate 150 located at the top Pheromone trap system comprising a. 6. The method of claim 5,
The pheromone trap system, characterized in that the lower portion of the support plate 150 is formed with a fixing groove 151, the fixing screw 146 is fitted to a portion in contact with the fixing screw 146. 6. The method of claim 5,
Pheromone trap system, characterized in that a plurality of sticky plate 160 is installed between the support plate 150 and the fixed support (142). The method of claim 1,
The trap fixture 40 is coupled to the upper portion of the trap body 110 to cover and protect the camera mounting portion 120, the trap fixture 40 is a trap support installed on the support 10 is fixed to the ground Pheromone trap system, characterized in that the support is detachably coupled to (30). The method of claim 8,
The trap support 30 installed on the support 10 is formed in plural to have different heights and lengths, and the trap fixtures 40 of the trap body 110 in which different types of pheromone storage boxes 300 are installed are coupled to each other. Pheromone trap system, characterized in that. The method of claim 8,
The support 10 controls the operation of the camera 200 installed in the trap body 110, and transmits a pest image photographed through the camera 200 to a monitoring server 500 remotely located through a communication network Pheromone trap system, characterized in that the box 50 is installed.

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