KR101476256B1 - insect trap having image photographing function - Google Patents

Abstract

A pest trap having an image photographing function according to the present invention comprises: a body casing; a pest trap pipe unit which consists of a suction pipe, a collecting pipe, and a connecting pipe; a luring unit consisting of a carbon gas spraying tool and a carbon gas supplying tool; a collecting unit including a collecting net which is equipped at the end of the collecting pipe in the body casing so as to finally filter pests sucked and moved through the pest trap pipe unit, and an air suction fan which is equipped at the bottom of the collecting net in the body casing and sucks up external air including pests through the suction pipe in order to feed the external air into the collecting net through the connecting pipe and the collecting pipe; an image photographing unit which is equipped at the top of the collecting pipe and photographs pests moving to the top of the collecting net; and a capturing unit which is equipped between the image photographing unit and the collecting net so as to obtain the images of pests sucked and moved through the pest trap pipe unit by the image photographing unit so that pests are temporarily filtered before being filtered through the collecting net. According to the present invention, the images of pests collected in the pest trap for collecting harmful pests such as mosquitoes can be easily obtained in real time without a high cost and high speed camera, so that local pest populations can be determined, pests can be classified, and analysis of pests can be conveniently performed.

Description

{Insect trap having image photographing function}

[0001] The present invention relates to a trapper having an image photographing function, and more particularly, to a trapper having a video shooting function capable of easily capturing an instantaneous image of collected insects in a process of attracting and collecting pests such as mosquitoes .

Generally, mosquitoes are collected using a catcher to investigate the density of mosquitoes that transmit infectious diseases and to investigate the infection of mosquitoes with pathogens.

An example of such a trapper is disclosed in Korean Patent Registration No. 10-1003178 (registered on December 15, 2010, hereinafter referred to as "Patent Document 1").

However, the conventional trapper spreads the pyloric or the like to the vicinity of the trapper, attracting the mosquito around the trapper and collecting the mosquito.

However, in this case, the mosquito was attracted to the vicinity of the trap, but was not attracted to the vicinity of the intake port, and the collection rate of the mosquito attracted to the vicinity of the actual trap was very low.

In other words, in the conventional trap, the majority of the mosquitoes only hang around the captor, and the actual collection rate of the mosquitoes is low because the suction force of the suction fan is insufficient to attract the effective mosquito suction port of the suction port where the actual mosquito is sucked. This is not only an obstacle to accurate measurement of actual mosquito generation density, but also made it difficult to identify accurate information such as infection rate of mosquito.

Therefore, there is a need to improve the mosquito collection rate by attracting the mosquito into the effective range of the mosquito suction of the inlet.

In order to capture the mosquitoes of the mosquitoes by capturing the images of the mosquitoes collected through the captors, the speed of the mosquitoes sucked and moved is too fast. There are cost problems and technical problems due to practical application.

Korea Patent Registration No. 10-1003178 (registered on December 15, 2010)

It is an object of the present invention to provide an image processing apparatus and method capable of easily capturing images of insects trapped in trappers that collect insects such as mosquitoes in real time without high- And to provide a capturing device having a photographing function.

According to an aspect of the present invention, there is provided a capturing apparatus having an image capturing function, the capturing apparatus comprising: a main body casing configured to form an external appearance; A vertically upward suction pipe whose one side is exposed to the outside of the main body casing to suck insects such as mosquitoes and a vertical downward collecting pipe whose other side extends into the main casing to collect pests, A communicating tube communicating horizontally between the insecting tube and the insecting tube to allow the insect to pass therethrough; A carbon dioxide gas injection mechanism provided at an end of the suction pipe to inject a carbon dioxide gas to attract insects and a carbon dioxide gas supply mechanism for supplying carbon dioxide gas to the carbon dioxide gas injection mechanism; A collecting net provided at an end of the collecting tube in the main body casing so as to finally filter insects which are sucked and moved through the collecting tube portion; And a suction fan for sucking outside air including the suction air through the suction pipe and allowing the air to flow through the communication pipe and the collecting pipe to the collecting net; An image capturing unit provided at an upper portion of the collecting pipe to photograph a pest moving to an upper portion of the collecting net; And a capturing unit provided between the image capturing unit and the capturing network to acquire an image of a pest sucked and moved through the capturing tube, the capturing unit temporally filtering the insect pest before it is filtered in the capturing network; And a control unit.

Here, the capturing unit may include a rotator provided in the collecting tube to rotate by a predetermined time period, and a rotation driver for rotating the rotator.

Preferably, the image capturing unit includes an image camera that captures an image at predetermined time intervals according to a time period during which the turn view is rotated, and an illumination lamp provided around the image camera.

It is preferable that the catcher having the image photographing function according to the present invention further comprises a control unit for controlling the operation of the carbon dioxide gas supply mechanism, the intake fan, the image photographing unit, and the rotation driving unit.

Preferably, the control unit controls the rotation driving unit to rotate the turning view by a predetermined time period through a timer.

Preferably, the communicating tube is provided with a coefficient sensing unit for sensing a pest to count the number of insects which are sucked and moved through the capturing tube.

It is preferable that the capturing tube portion is made of a transparent material.

According to the present invention, it is possible to easily acquire images of pests collected in a trapper collecting pests such as mosquitoes in real time without a high-cost high-speed camera, and to easily carry out classification and analysis work for the occurrence frequency and classification of pests Function can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an external perspective view of a trapper having a video shooting function according to the present invention,
Fig. 2 is an internal configuration diagram schematically showing the configuration of a catcher having the video shooting function of Fig. 1,
Fig. 3 is an enlarged view showing part A of Fig. 2,
4 is a sectional view taken along line IV-IV in Fig. 2,
FIG. 5 is an operation diagram showing an operation state of a catcher having a video image shooting function according to the present invention,
FIG. 6 is a perspective view of a part of the image camera and capture unit of FIG. 2 viewed from above,
FIG. 7 is a control block diagram of a captor having a video shooting function according to the present invention.
8 is a system block diagram illustrating a system in which a capturing unit having a video image capturing function according to the present invention is provided for each region and is remotely monitored and measured through an integrated server,
FIG. 9 is an internal structural view showing that a backflow prevention net is provided in the collapsible tube portion of FIG. 2. FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, the capturing apparatus 100 having the image capturing function according to the present invention includes a main body casing 110 provided to form an outer appearance, A sucking part 130 for introducing insects such as carbon dioxide to the outside of the main body casing 110 to attract insects, a main body casing 110, An image capturing unit 150 for capturing insects moving through the capturing tube unit 120, an image capturing unit 140 for capturing insects moving through the capturing tube unit 120, And a capturing unit 160 provided between the image capturing unit 150 and the capturing unit 140 so as to capture an instantaneous image of insects which are sucked and moved through the capturing tube unit 120.

2, the main body casing 110 includes a first receiving portion 111 which is provided at an upper portion of the main body casing 110 along a lateral direction and in which the capturing tube portion 120 is installed, a first receiving portion 111, And a second accommodating portion 113 vertically installed at a lower portion of the guide portion 130 and accommodating therein a carbon dioxide gas supply mechanism 137 described later of the attracting portion 130.

As shown in FIGS. 1 and 2, the second accommodating portion 113 is provided with a door 113a which is openable and closable at the front, and an intake fan 113 And a bottom portion 115 is provided at a lower portion of the bottom portion so that the catcher 100 is fixed to the installation surface.

As shown in FIG. 2, the captor tube 120 includes a vertically upward suction pipe 121 having one side exposed to the outside of the main casing 110 and sucking insects such as mosquitoes, and the other side is connected to the main casing 110, And a communicating tube 127 communicating horizontally between the suction pipe 121 and the collecting pipe 125 and passing the insect pest through the vertically downward collecting pipe 125.

Accordingly, it is possible to provide a path through which the insects such as mosquitoes are sucked and collected by the captor tube 120.

In one embodiment of the present invention, the capturing tube portion 120 is preferably made of a transparent material such as acrylic resin.

In particular, the illumination lamp 153, which will be described later, of the image capturing unit 150 can be easily attached to the upper part of the collecting pipe 125, The illumination light is directed from the upper part of the collecting pipe 125 to the capture unit 160 through the illumination lamp 153 so that the photographing illuminance is increased, The image capturing by the image camera 151 to be described later of FIG.

1 to 3, in a region adjacent to the end portion of the suction pipe 121, a guide portion 121 is provided in a shape having a diameter enlarged downward along the circumference of the suction pipe 121, (123) is preferably installed.

As a result, as shown in FIG. 5, the carbonic acid gas serving as the attractant injected from the carbonic acid gas injection mechanism 131, which will be described later, of the attraction portion 130 is guided to flow and diffuse obliquely downwardly of the suction pipe 121 .

As shown in Figs. 2 to 4, the attracting unit 130 includes a carbonic acid gas injection mechanism 131 provided at an end of the suction pipe 121 for spraying carbon dioxide gas, which is gas phase carbon dioxide which attracts insects, And a carbon dioxide gas supply mechanism 137 for supplying carbon dioxide gas to the gas injection mechanism 131.

Accordingly, the attractant such as carbon dioxide can be diffused to the outside of the main body casing 110 to attract the pests.

As shown in FIGS. 1 to 5, the carbonic acid gas injection mechanism 131 is provided in an annular shape along the circumference of the suction pipe 121, and is provided at an upper portion of the guide part 123.

3, the carbonic acid gas injection mechanism 131 includes a supply path 133 that is connected to the carbonic acid gas supply mechanism 137 and a supply path 133 that communicates with the supply path 133 and is opened sideward A plurality of injection paths 135 are formed.

The carbonic acid gas supply mechanism 137 includes a gas container made of a material such as tungsten steel to store carbonic acid gas therein so as to ensure stability. The carbonic acid gas supply mechanism 137 is controlled by a control unit 170 And an injection control valve 139 for interrupting the supply of carbon dioxide gas to the carbonic acid gas injection mechanism 131 is provided.

As shown in FIG. 2, the collecting part 140 is provided at an end of the collecting pipe 125 in the main body casing 110 so that the insect that is sucked and moved through the collecting tube part 120 is finally filtered And external air including pests is sucked through the suction pipe 121 and connected to the communication pipe 127 and the collecting pipe 125. The suction pipe 121 is connected to the suction pipe 121, And an intake fan 143 for allowing the air to flow into the collection net 141 via the intake fan 143.

5, pests collected by the carbonic acid gas injected by the carbonic acid gas injection mechanism 131 and gathered around the suction pipe 121 are sucked into the suction pipe 121 by the operation of the suction fan 143, The collected insecticides are sucked into the end of the collecting net 141 and are moved to the collecting net 141 via the collecting pipe 125 via the communicating pipe 127. The insects moved to the collecting net 141 can be finally collected and collected in the collecting net 141 have.

As shown in FIGS. 2 and 6, the image capturing unit 150 captures a pest which is provided at an upper portion of the collecting pipe 125 and moves to the upper part of the collecting net 141. The capturing unit 160 Of the upper part of the collecting pipe 125 at a portion where the communication pipe 127 and the collecting pipe 125 are communicated with each other so as to perform image capturing at a predetermined time according to a time period in which the later- And an illumination lamp 153 such as an LED lamp provided around the video camera 151 and for raising the shooting illumination around the video camera 151 do.

Thus, the image of the insect pests that are temporarily filtered at the turn table 161 of the capture unit 160 is captured and the insect pits 120 are collected before the pests are filtered at the capture screen 141. [ It is possible to acquire images of the pests flowing through the pores in a clear and easy manner.

2 and 6, the capturing unit 160 may include an image capturing unit 150 and a capturing network 150 to acquire an image of a pest sucked and moved through the capturing tube 120, (161) provided in the collecting pipe (125) so as to be rotated every predetermined period of time, and a circulation pipe (161) provided in the collecting pipe (125) so as to be temporarily filtered before the pest is filtered in the collecting net (141) And a rotation drive unit 163, such as a servo motor, for rotating the drive motor 161 by a predetermined period of time under the control of the controller 170.

The rotary motion of the rotary drive unit 163 causes the turn table view 161 to be horizontally arranged in the first storage unit 111 so as to move vertically from the capture position where the pests are temporarily filtered to the first storage unit 111 6, the image capturing unit 150 captures the captured images of the pests without using a high-speed camera, as shown in FIG. 6, by rotating the pivot view 161 to a discharge position where the pests are arranged and discharged to the collection net 141 It is possible to easily acquire in real time when the return view 161 is in the capture position, thereby making it possible to easily perform the sorting and analysis work for the occurrence frequency and type of insects.

As shown in FIG. 2, the circulation pipe 161 of the bottom surface of the first receiving portion 111 is disposed at a position where the collecting pipe 125 is located inside the first receiving portion 111, The rotation driving unit 163 is installed at a position exposed to the casing 113b and is installed on the lower surface of the first accommodating unit 111 to which the upper part of the collecting casing 113b is coupled so as to be connected to one side of the turn table 161 do.

2 and 7, the capturing apparatus 100 having the image capturing function according to the present invention includes a carbon dioxide gas supply mechanism 137, an intake fan 143, an image capturing unit 150, and a rotation driving unit 163 for controlling the operation of the microcomputer.

The control unit 170 controls the opening and closing of the injection control valve 139 of the carbonic acid gas supply mechanism 137 to control the injection of the carbonic acid gas through the carbonic acid gas injection mechanism 131, Controls the suction and movement of the pests and the collection of pests and controls the video camera 151 and the illumination lamp 153 of the image capturing unit 150 so that images And control the rotation drive of the rotation drive unit 163 to control the rotation of the rotation axis view 161 for a predetermined period of time.

In an embodiment of the present invention, the control unit 170 controls the rotation driving unit 163 to rotate the rotation shaft 161 through a timer 171 for a predetermined period of time.

The control unit 170 controls the video camera 151 and the illumination lamp 153 of the image capturing unit 150 through the timer 171 to control the image capturing unit 150 and the illumination lamp 153 at predetermined time intervals It is possible to easily control the image capturing to be performed and to control the rotation driving of the rotation driving unit 163 to easily control the rotation of the rotation view 161 for a predetermined period of time.

Meanwhile, as another embodiment of the present invention, the timer 171 may control the image capturing unit 150 and the rotation driving unit 163 to operate every predetermined period of time even if there is no separate control signal from the controller 170 .

2, the communicating tube 127 is provided with a coefficient sensing unit 200 for sensing a pest to count the number of insects to be sucked and moved through the capturing tube 120, as shown in FIG. 2 .

Accordingly, the number of pests such as mosquitoes that are trapped in the trapper 100 according to the present invention and moved through the communication pipe 127 can be easily detected and counted by the coefficient detection unit 200, Data on the number of individuals can be easily secured.

The coefficient detecting unit 200 is provided with a light emitting and receiving structure using an infrared LED light to distinguish mosquitoes and other insects from each other in passage time and passage size that obstruct light emission and light receiving areas, .

Accordingly, the control unit 170 counts the types and the numbers of the pests trapped through the trapper 100 according to the present invention based on the results detected by the coefficient detection unit 200, It is necessary to control the injection control valve 139 or the intake fan 143 so as to adjust the amount of collecting attraction based on the collected information, Or the illumination lamp 153 or the rotation driving unit 163. [

7, the capturing apparatus 100 according to the present invention receives data or signals required by the controller 170, including a predetermined time period during which the turn table 161 is rotated, And a storage unit 190 for receiving data received from the input unit 180 through the control unit 170 from the control unit 170 and storing the received data.

As shown in FIG. 8, a plurality of catchers 100 and 100 'having a video shooting function according to the present invention are installed one by one for each region, and are managed by a plurality of administrator terminals 601 and 602 by the integration server 500, It is possible to configure a system that is remotely monitored and measured by a wired or wireless communication system using the same communication network 1. [

The control unit 170 included in each of the retainers 100 and 100 'is connected to a communication module 173 for transmitting data to the integration server 500 in a wired or wireless communication manner. And a security module 510 for performing an authentication process when the terminals 601 and 602 attempt to access the integration server 500.

Accordingly, the collection image of the pests collected by each region, the classification information of the collection pests, the information on the population of the collection pests, and the like are collectively collected in the integration server 500, so that the distribution center information of the pests can be easily distributed And can be monitored and measured remotely and transmitted to the plurality of administrator terminals 601 and 602 scattered in each region in the integration server 500. In addition, authentication processing in the integration server 500 among the plurality of administrator terminals 601 and 602 Only authorized administrator terminals 601 and 602 can remotely access the network. Thus, even a plurality of administrator terminals 601 and 602 distributed nationwide can easily monitor and measure distribution conditions of collected insects in each region easily .

9, the pests to be moved along the direction of suction movement from the suction pipe 121 to the collecting pipe 125 may be retracted in the opposite direction to the direction of suction movement The backflow prevention network 300 may be further provided in the communicating tube 127 in case that the backflow prevention network 300 is out of service.

With this configuration, a process of capturing insect pests such as mosquitoes and capturing images of captured insects by the captor 100 having the image capturing function according to the present invention will be described with reference to FIGS. 1 to 7 as follows .

First, the control unit 170 controls the injection control valve 139 of the carbonic acid gas supply mechanism 137 to be opened so that the carbonic acid gas is supplied to the carbonic acid gas injection mechanism 131.

At this time, the carbonic acid gas supplied to the carbonic acid gas injection mechanism 131 is injected to the periphery of the suction pipe 121 through the injection path 135 via the supply path 133, guided by the guide part 123, And diffuses to the periphery of the suction pipe 121 so as to attract it.

Next, the control unit 170 controls the operation of the suction fan 143 so that the insect pest attracted to the periphery of the suction pipe 121 by the carbonic acid gas is sucked into the suction pipe 121.

At this time, as the suction fan 143 operates, a negative pressure is formed in the inside of the captor tube part 120 so that the pests are sucked through the suction tube 121 together with the outside air, and the insect pests absorbed by the communicating tube 127 The counting unit 200 senses the insects passing through the sensing unit 200 and senses the number of the insects and transmits the sensed insects to the controller 170.

The control unit 170 controls the rotation driving unit 163 of the capture unit 160 to rotate the turn table 161 from the discharge position to the gap position through a timer 171 at a predetermined time period.

That is, the rotation of the turning view 161 is continuously performed at a certain time interval from the ejection position to the capture position and then from the capture position to the ejection position so as to be performed in only one direction.

At this time, the control unit 170 controls the video cameras 151 and the illumination lamps 153 of the image capturing unit 150 to detect the pests temporarily collected in the back view 161 whenever the view 161 is in the capture position It is preferable that the operation of the image camera 151 and the illumination lamp 153 is controlled through the timer 171 to photograph the image.

The video camera 151 of the image capturing unit 150 captures an image of the insects temporarily captured in the turn view 161. The turn view 161 is rotated by driving the turn driving unit 163, The pests which are temporarily suspended in the upper part of the turn table 161 are dropped and discharged to the upper part of the trapping net 141 of the trapping part 140 and are finally filtered at the trapping net 141 .

Thus, according to the present invention, it is possible to easily acquire images of insects captured in a trapper collecting insects such as mosquitoes, in real time without a high-cost high-speed camera, It is possible to provide the catcher 100 having a video shooting function.

While the invention has been described in connection with what is presently considered to be practical exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

110: main body casing 120:
121: suction pipe 125: collection pipe
127: communicating tube 130: attracting part
131: Carbonic acid gas injection mechanism 137: Carbonic acid gas supply mechanism
140: collection section 141: collection network
143: intake fan 150: image capturing unit
151: Video camera 153: Lighting lamp
160: Capture unit 161:
163: rotation driving unit 170:
171: Timer 200:

Claims (7)

A main body casing provided to form an appearance;
A vertically upward suction pipe whose one side is exposed to the outside of the main body casing to suck insects such as mosquitoes and a vertically downward collecting pipe whose other side extends to the inside of the main casing to collect insects, A communicating tube communicating horizontally between the insecting tube and the insecting tube to allow the insect to pass therethrough;
A carbon dioxide gas injection mechanism provided at an end of the suction pipe to inject a carbon dioxide gas to attract insects and a carbon dioxide gas supply mechanism for supplying carbon dioxide gas to the carbon dioxide gas injection mechanism;
A collecting net provided at an end of the collecting tube in the main body casing so as to finally filter insects which are sucked and moved through the collecting tube portion; And a suction fan for sucking outside air including the suction air through the suction pipe and allowing the air to flow through the communication pipe and the collecting pipe to the collecting net;
An image capturing unit provided at an upper portion of the collecting pipe to photograph a pest moving to an upper portion of the collecting net; And
Wherein the image capturing unit is provided between the image capturing unit and the capturing network so as to acquire an image of a pest sucked and moved through the capturing tube, so that the capturing unit temporally filters the insect before it is filtered in the capturing network;
Capturing function. The method according to claim 1,
Wherein the capture unit comprises:
A return view provided in the collecting tube to be rotated by a predetermined time period,
And a rotation driving unit for rotating the turning view. 3. The method of claim 2,
The image capturing unit includes:
A video camera that performs image capturing at predetermined time intervals according to a time period during which the turn view is rotated;
And an illumination lamp provided around the image camera. The method of claim 3,
Further comprising a controller for controlling the operation of the carbonic acid gas supply mechanism, the intake fan, the image capturing unit, and the rotation driving unit. 5. The method of claim 4,
Wherein the control unit controls the rotation driving unit to rotate the turning view by a predetermined time period through a timer. 6. The method according to any one of claims 1 to 5,
Wherein the communicating tube is provided with a coefficient sensing unit for sensing a pest to count the number of insects which are sucked and moved through the capturing tube. 6. The method according to any one of claims 1 to 5,
Wherein the capturing tube portion is made of a transparent material.

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