KR101001317B1 - Apparatus collecting and counting a winged insect - Google Patents

Abstract

PURPOSE: An apparatus for collecting and counting winged insects is provided, which can confirm winged insect capture state on a real time basis. CONSTITUTION: An apparatus for collecting and counting winged insects comprises: an external body of a cylindrical form in which the top is opened; an insect catching device main body composed of a guide whole body opened upward and downward; a winged insect collection device attachably and detachably settled on the top of the guide whole body; a fan(130) discharging the external air by force after inhaling the external air; a sensor sensing winged insects; a control unit(150) counting population of the sampled winged insects; and a transmission unit(160) outputting the result value of the control unit to the outside.

Description

Apparatus collecting and counting a winged insect}

The present invention relates to a remote insect control system and a insect repeller having a counting function used therein.

In general, in order to check the occurrence density of the insects carrying the infectious disease and to study whether the live insects are infected with pathogens, the insects are collected.

In order to collect the beetle as described above, the manager had to collect the beetle daily from the insect repeller installed at the beetle collecting position and transfer it to the work room.

However, it is not only necessary for the manager to collect and move the beetle to the workshop, but also to spend a lot of time and manpower. It was very hard to do.

On the other hand, the insect repellent is used to collect the blade as described above, such a repellent has a fan mechanism for sucking the blade from the outside, and a trapping net for collecting the blade insect sucked by the fan mechanism, the position to collect the blade Is installed.

At this time, the administrator calculates the number of individual collected beetle, or estimates the total number of beetle by dividing the total weight of the collected beetle by the weight of the beetle.

However, it was unsanitary for the manager to count the beetle every single day because it took a lot of time and labor and the manager was in direct contact with the beetle.

In addition, since the estimated number of collected objects is estimated to be an approximate number, many errors have occurred.

In addition, the conventional collection method could not be confirmed in real time about the collection state according to each insect repellent in a separate integrated management room.

The present invention is an invention for solving the above problems, it is possible to accurately and conveniently count the beetle, remote insect control system that can check the status of the beetle collection according to each insect repellent in a separate integrated management room, and The problem to be solved is to provide a repellent with a counting function to be used.

The present invention for solving the above problems, a detection device for detecting a beetle, a control unit for calculating the number of beetle to be collected by receiving the detection signal of the detection device, and outputting the result value of the control unit to the outside A repeller having a transmission unit, the repeller having a counting function for repelling a beetle; In the remote insect management system consisting of a insect management server for remotely managing the insect repellent state of the insect repeller, the insect repeller is a cylindrical outer body having an upper opening, and is opened up and down, so as to be spaced a predetermined distance from the inner surface of the outer body. A trapping main body composed of a guide cylinder to be installed, a seating portion seated on an upper portion of the guide cylinder to seal the guide cylinder, a guide portion communicated downward from the seating portion and disposed inside the guide cylinder, and a collection provided at the bottom of the guide portion. Equipped with a net, which is detachably seated in the guide cylinder, and is installed in the guide part and is disposed below the collecting net, so that the external air is collected in the state where the blade catch mechanism is seated on the guide cylinder. Through the air discharge path formed between the outer body and the guide cylinder after forced suction into the guide cylinder The fan mechanism forcibly discharged to the outside is provided with reinforcement; The insect repellent management server may include: a receiving unit for receiving an output signal from each insect repellent transmitting unit, a control unit for receiving an output signal of the receiving unit to determine a repelling state of the repeller, an input unit for controlling the operation of the control unit, and a control unit. It is characterized in that the operation is controlled by the output unit for outputting the operation state of the control unit to the outside.

In addition, the present invention, an insect repellent body consisting of a cylindrical outer body having an upper opening, and a guide cylinder which is opened up and down and spaced apart from the inner surface of the outer body by a predetermined distance; It can be inserted into and detached from the guide cylinder with a seating portion seated on the upper portion of the guide cylinder to seal the guide cylinder, a guide portion communicating downwardly from the seating portion and disposed inside the guide cylinder, and a collecting net provided at the lower portion of the guide portion. A beetle collecting device that is seated; Installed in the guide part, but disposed below the collecting network, the air formed between the outer body and the guide cylinder after forced suction of the outside air into the guide cylinder through the blade trap mechanism in the state that the blade trap mechanism is seated on the guide cylinder A fan mechanism for forcibly discharging to the outside through the discharge path; It is installed in the guide unit, the detection device for detecting the beetle that is moved to the collecting network along the guide unit, the control unit for calculating the number of the beetle collected by receiving the detection signal of the detection device, and the result value of the control unit to the outside It characterized in that it comprises a transmitting unit for output.

According to the present invention as described above, it is possible to collect and count the blades at the same time through the detection device, it is possible to check the status of collecting the insects according to each insect repellent in a separate integrated management room in real time, there is an effect capable of integrated management.

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

1 is a block diagram showing a remote insect management system according to the present invention, and a insect repeller with a counting function used in it, Figure 2 is a cross-sectional view showing a insect repeller according to the present invention, Figure 3 is an enlarged view of X of FIG. 4 is a perspective view illustrating main parts of a sensing device according to the present invention, which will be described below with reference to FIGS. 1 to 4.

The remote insect control system according to the present invention, the insect repeller 100 having a counting function, and the insect repellent management server 200 for remotely managing the insect repellent state of the insect repeller 100.

The insect repeller 100, the insect repellent base 110, the beetle collecting mechanism 120 seated on the insect repellent base 110, the protection member 180 is installed on the insect repellent base 110, and the insect repellent base 110 Fan mechanism 130 is installed in the inner, the beetle collecting mechanism 120 is installed in the detection device 140 for detecting the beetle, the control unit 150 for counting the beetle by operating the detection device 140, It consists of a transmitting unit 160 for outputting the result value of the control unit 150 to the outside, and a receiving unit 170 for receiving a radio signal from the insect management server 200.

The main body 110 is installed in the outer body 111 through the outer body 111, the fixing bar 112, which is installed in the outer body 111, and the fixing bar 112, which is opened upward. It consists of the guide cylinder 113.

The outer body 111 has a circular cylindrical shape in which the lower portion is closed. In the present embodiment, the outer body 111 has a closed circular tubular shape, but if the lower portion is a closed tubular shape, it may be variously modified.

The fixing bar 112, one end is fixed to the inner peripheral surface of the outer body 111 and the other end protrudes outward. At this time, it is preferable that a plurality of fixing bars 112 are provided.

The guide cylinder 113 has a circular tube shape penetrated up and down. In addition, the guide cylinder 113, the outer circumferential surface is fixed to the other end of the fixing bar 112, is inserted into the outer body 111 is disposed. At this time, the guide cylinder 113 is spaced apart from the inner circumferential surface of the outer body 111 by the fixing bar 112, and between the outer body 111 and the guide cylinder 113 by the fan mechanism 130. An air discharge path A is formed to discharge the sucked air. On the other hand, in the present embodiment, the guide cylinder 113 has a circular tubular shape, but can be variously modified if the tubular shape penetrated up and down.

In addition, the outer peripheral surface of the guide cylinder 113 is installed beetle attractant (F). In this embodiment, the beetle attractant (F) is hung in the mesh to facilitate the ventilation, is caught by the locking member (13a) protruding from the outer peripheral surface of the guide cylinder (113). On the other hand, as the beetle attractant (F) is used lactic acid, ammonia, acetic acid, octenol, and the like, as long as it can attract the beetle, it can be variously modified.

The blade collecting mechanism 120, the seating portion 121 is seated on the upper portion of the guide cylinder 113, the guide portion 122 extending from the seating portion 121 is inserted into the guide cylinder 113, and It consists of a collecting network 123 is installed in the lower portion of the guide portion 122.

The seating portion 121 has a funnel shape that becomes narrower toward the bottom so that the beetle gathered around can be easily sucked into the guide portion 122.

The guide part 122 penetrates up and down and communicates with the seating part 121 and the guide cylinder 113 of the insect repellent base 110, and guides the beetle sucked into the seating part 121 to the collecting net 123. do. In this case, the guide part 122 includes a first guide part 122a positioned at an upper portion and a second guide part 122b positioned at a lower portion and spaced apart from the first guide portion 122a.

The collecting network 123 is meshed and fitted to the lower portion of the second guide portion 122b to collect the beetle from the guide portion 122.

The protection member 180 is composed of a support bar 181 which is provided on the outer surface 111 outer peripheral surface of the insect trapping body 10, and the screening film 182 formed on the support bar 181.

The support bar 181 is composed of an insect repellent base support (S1) is installed in the lower portion of the outer body 10, and a shielding membrane support (S2) is fixed to the circumferential surface of the outer body 111 to protrude upward.

The insect repellent base support (S1) is composed of a base (S1a) to be seated on the ground, and a support (S1b) is projected upward of the base (S1a) is fixed to the bottom of the outer body (111).

The shielding membrane support (S2) is for supporting the shielding membrane 182, one end is fixed to the outer body 111, the other end is projected to the upper position than the seating portion 121 of the beetle collecting mechanism 120 do.

The shielding film 182 has a disk shape and is fixed to the upper portion of the shielding film support S2 to cover the insect trapping body 10. In this case, the shielding film 182 may cover the insect repellent body 10, and may be variously modified.

The fan mechanism 130 is installed in the guide cylinder 113 of the insect trapping body 110 to suck outside air into the outer body 111 of the insect trapping body 110. At this time, the fan mechanism 130 is located below the collecting network 123 so that the sucked beetle is collected in the collecting network 123.

On the other hand, the fan mechanism 130 is a conventional intake of air, detailed description thereof will be omitted.

The sensing device 140 is installed in the sensing device main body 141 and the sensing device main body 141 disposed between the first guide part 122a and the second guide part 122b of the beetle collecting mechanism 20. It is composed of a detection sensor 142.

The sensing device main body 141 includes a fixing member 141a to which the lower end of the first guide part 122a is inserted and fixed to the upper end of the second guide part 122b, and is installed in the fixing member 141a. Consisting of a light emitting portion mounting member 141b and a light receiving portion mounting member 141c.

The fixing member 141a penetrates up and down, and penetrates in the longitudinal direction with a penetrating portion 141a1 communicating with the first guide portion 122a and the second guide portion 122b of the beetle collecting mechanism 20, respectively. And a light emitting portion mounting portion 141a2 communicating with the penetrating portion 141a1, and a light receiving portion installing portion penetrating in the longitudinal direction to communicate with the penetrating portion 141a1 and facing the light emitting portion installing portion 141a2 around the penetrating portion 141a1. 141a3.

The light emitting portion mounting member 141b has a rectangular panel shape and is detachably fixed to the light emitting portion mounting portion 141a2 of the fixing member 141a.

The light receiving portion mounting member 141c has a rectangular panel shape and is detachably fixed to the light receiving portion mounting portion 141a3 of the fixing member 141a to face the light emitting portion mounting member 141b.

The sensor 142 is a conventional infrared sensor, a light emitting unit 142a for transmitting infrared rays and a light receiving unit 142b for receiving infrared light is built in the sensing device body 141 in pairs.

At this time, the light emitting unit 142a is installed in the light emitting unit installing member 141b of the sensing device body 141 to emit infrared rays toward the through part 141a1, and the light receiving unit 142b is the sensing device body 141. Is received by the light receiving portion mounting member 141c and receives infrared rays from the light emitting portion 142a.

Here, the sensing sensor 142, it is preferable that a plurality is provided for the optimum precision, is installed along the longitudinal direction of the sensing device body 141.

Meanwhile, although the infrared sensor is applied as the detection sensor 142 in the present embodiment, various modifications may be performed, such as a visible light transmission / reception sensor using visible light.

The control unit 150 is installed in the insect repellent body 110 and is electrically connected to each of the sensing sensors 142 to operate and control the light emitting unit 142a and the light receiving unit 142b of the sensing sensor 142. . In addition, the control unit 150 causes the light emitting unit 142a to transmit infrared rays, and receives a signal from the light receiving unit 32a that receives the infrared rays. At this time, the control unit 150 reads the amount of change of the infrared ray through the signal from each light receiving unit 142b, determines whether the beetle flows into the collecting network 123, and passes through the sensing device body 141 The number of blades introduced into the collection network 123 is calculated. On the other hand, the technique that the control unit 150 calculates the beetle through the detection sensor 142 as a well-known technique known widely known will be omitted.

On the other hand, in the present embodiment, the control unit 150 is provided on the bottom surface of the shielding film 182. When the screen 182 is installed as described above, it is possible to protect the insect repellent from external factors such as rain, wind, defecation of birds falling from the sky, it is possible to protect each component safely. In particular, if the rain and algae defecation buried in the insect repellent causes the corrosion of the repellent, the insect repellent can not perform the original function in the long term, in the case of the present invention, the screening film 182 prevents this, the insect repellent Can be performed for a long time. In addition, the shielding film 182 forms a shade. Therefore, due to the nature of the beetle that likes the shade of paper is gathered around the screen 182, thereby making it easier to collect the beetle.

The transmitting unit 160 is installed on the upper surface of the screen 182, and wirelessly outputs the calculated beetle number data to the outside.

The receiving unit 170 is installed on an upper surface of the screen 182 adjacent to the transmitting unit 160 to receive a radio signal from the insect management server 200.

In this case, since the transmitting unit 160 and the receiving unit 170 are installed in a relatively high place, the transmission and reception rate is improved.

The insect management server 200, the control unit 220 for receiving the output signal from the transmitting unit 160 of the insect repeller 100, and the control unit 220 for receiving the output signal of the receiving unit 210 to determine the insect trapping state ), An input unit 230 for inputting a control signal to the controller 220, a transmitter 250 for outputting a repeller operation control signal from the controller 220, and an operation state of the controller 220 to the outside. Consists of output unit 240 for outputting, is installed in a separate integrated management room.

In this case, the controller 220 remotely controls the control unit 150 in accordance with a control signal of the input unit 230 to remotely control the electrical components controlled by the control unit 150. In addition, the control unit 220 receives a radio signal indicating an operating state of the control unit 150 via the receiving unit 210, and based on this, indicates the operating state of the control unit 150 to the output unit 240. .

The output unit 240 is a conventional display device, which is operated and controlled by the controller 220 to indicate an operating state of the control unit 150 and an operating state of the control unit 220 to the outside.

5 is a view showing the operation of the sensing device according to the present invention, with reference to Figures 1 to 5, the operation of the remote insect management system of the present invention will be described as follows.

First, the insect repeller 100 is installed at the beetle collecting position.

On the other hand, if the worker in a separate integrated management room to operate the insect repeller 100, input the insect repeller operation control signal to the control unit 220 via the input unit 230, the control unit 220 is a transmitter 220 Outputs the insect repeller control signal. At this time, the receiving unit 170 of the insect repeller 100 receives the repeller operation control signal and outputs it to the control unit 150, and the control unit 150 drives each electric component through the repeller operation control signal. do.

Here, when the fan mechanism 130 is driven by the insect repeller operation control signal, the fan mechanism 130 sucks external air into the guide cylinder 113 of the insect repellent base 110.

At this time, when the insect beetle attractant installed in the outer main body 111 of the insect repellent body 110 spreads around the insect repellent body 110, the insects that live in the vicinity of the insect repellent body 110, collecting the insects by the insect repellent agent It is attracted around the seating portion 121 of the instrument 120.

When the beetle is attracted around the seating portion 121 of the blade collecting mechanism 120, the beetle is sucked into the seating portion 121 by the air sucked into the outer body 111, the blade of the beetle collecting mechanism 120 It moves downward along the first guide portion 122a. At this time, the blade insect is discharged from the first guide portion (122a), and passes through the through portion (141a1) of the fixing member body (141a), and moves to the collecting network (123).

When the blade bug passes through the penetrating portion (141a1) of the fixing member body (141a), the infrared rays transmitted from the light emitting part (142a) of the sensor 142 and moved to the light receiving part (142b) is blocked by the blade bug.

In this case, the control unit 150 receives a detection signal indicating that the infrared rays are blocked from the light receiving unit 142b which does not receive the infrared rays, and reads them to determine whether the beetle flows into the collecting network 123.

Subsequently, the control unit 150 calculates the number of blades introduced into the collecting network 123 based on the determined information.

At this time, the control unit 150 wirelessly transmits the number of insects through the transmission unit 160.

On the other hand, the air passing through the trapping net 123 of the blade collecting mechanism 120 is discharged to the outside via the air discharge path (A). At this time, the air passing through the air discharge path (A) is mixed with the beetle attractant (F), and discharges the beetle attractant (F) to the outside of the insect repellent base (110). Therefore, the beetle attractant (F) is further diffused to the outside of the insect repellent base 110, a large number of beetle gathers around the seating portion 121 of the beetle collecting mechanism 120.

In addition, when the air is discharged through the air discharge path (A), the air is discharged to the outside while applying air pressure to the blades gathered around the seating portion 121. At this time, the fan mechanism 130 is set to the driving force of the fan mechanism according to the load of the blades to be collected, the blades that the load is less than the reference value is the seating portion 121 by the air pressure discharged from the air discharge path (A) Blown away from Therefore, only the beetle to be collected is guided to the seating portion 121.

Then, as described above, when the insect insect number value is wirelessly transmitted from the insect repeller 100, the control unit 220 of the insect management server 200 receives the insect number data via the receiver 210 as a medium.

At this time, the control unit 220 of the insect control server 200 outputs the number of blades of each insect repeller 100 through the value of the number of insects from the insect repeller 100 installed in each collection position 240 To indicate, the manager of the integrated management room to be able to integrally check the state of the beetle collection of each insect repellent 100 through the output unit 240.

In addition, the worker inputs a control signal to the control unit 220 through the input unit 230 of the insect control server 200, it is possible to control the operation of the electrical component of the insect repeller 100. That is, when the operator inputs the insect repellent operation control signal to the control unit 220, the control unit 220 transmits the insect repellent operation control signal via the receiver 210. At this time, the control unit 150 of the insect repeller 100 receives the control signal through the receiving unit 170, and controls the operation of the electrical component. Therefore, the worker can remotely control the electrical components of the insect repeller 100 via the insect repellent management server 200.

On the other hand, the control unit 150 of the insect repeller 100 wirelessly outputs a signal indicating the operating state of the electrical component of the repeller 100 to the outside via the transmission unit 160, the insect repellent management server 200 The control unit 220 receives this and indicates the operating state of the repeller 100 at the output unit 240.

6 is a view showing another embodiment of the insect repeller according to the present invention, Figure 7 is a configuration diagram according to Figure 6, with reference to Figures 6 and 7 will be described another embodiment according to the present invention.

 In the present embodiment, the sub-input unit I capable of operating and controlling the electrical components of the repeller 100 to the repeller 100, and the sub-output unit D indicating the operating state of the repeller control unit 150 Reinforcement may be provided.

In this case, the sub input unit I is installed on the top surface of the screen 182 and inputs a control signal to the control unit 150. In addition, the sub output unit D is provided on the upper surface of the screen 182 adjacent to the sub input unit I, and outputs the operation state to the outside by the control unit 150.

Therefore, the worker can control the operation of the insect repellent 100 at the site where the beetle is collected.

1 is a block diagram showing a remote insect control system and a insect repeller with a counting function used in accordance with the present invention,

2 is a cross-sectional view showing a repeller according to the present invention,

3 is an enlarged view of X of FIG. 2,

4 is a perspective view illustrating main parts of a sensing device according to the present invention;

5 is a view showing the operation of the sensing device according to the present invention,

6 is a view showing another embodiment of the insect repellent according to the present invention,

7 is a configuration diagram according to FIG. 6.

-Explanation of terms for main parts of attached drawings-

110; Reptile base 111; External body

112; Fixing bar 113; Guide body

120; Beetle collection mechanism 121; Seating part

122; Guide portion 122a; First guide part

122b; Second guide portion 123; Capture network 130; Fan mechanism 140; Sensing device 150; Control unit 160; Transmitting unit 170; Receiving unit 180; Protective member 181; Support bar 182; Screen 200; Insect management server 210; A transceiver 220; A controller 230; An input unit 240; Output section I; Input unit D; Output unit

Claims (5)

delete delete delete An insect repellent main body (110) including a cylindrical outer body (111) having an upper opening and a guide cylinder (113) installed upward and downward to be spaced a predetermined distance from an inner surface of the outer body (111); A funnel-shaped seating portion 121 detachably seated on an upper portion of the guide cylinder 113, a guide portion 122 communicated under the seating portion 121 and disposed inside the guide cylinder 113, and a guide. Beetle collecting mechanism 120 having a collecting net 123 is provided on the lower portion of the 122; Arranged and fixed below the collecting network 123, the outside air is forced into the guide cylinder 113, and then moved to the outside through an air discharge path A formed between the outer body 111 and the guide cylinder 113. Forced fan mechanism 130; Detecting device 140 for detecting a beetle; A control unit 150 for calculating the number of individual insects of the beetle that is collected by receiving the detection signal of the detection device 140; In the repeller with a counting function including a transmitting unit 160 for outputting the result value of the control unit 150 to the outside, The guide portion 122 is composed of a first guide portion 122a and a second guide portion 122b which communicate with each other, The sensing device 140 includes a light emitting part mounting part 141a2 and a light receiving part mounting part 141a3 facing each other, and a sensing device for sealingly connecting the first guide part 122a and the second guide part 122b in a line. Main body 141; The sensing device main body includes a light emitting unit 142a installed in the light emitting unit installation unit 141a2 of the sensing device main body 141 and a light receiving unit 142b installed in the light receiving unit installation unit 141a3 of the sensing device main body 141. Repeller with a counting function, characterized in that consisting of a sensor 142 for detecting the blade passing through the 141. The method of claim 4, wherein The screening membrane 182 is reinforced and installed through the screening base support S2 on the trapping body 110, and the screening main body 110 is formed by the screening membrane 182 disposed on the top of the main body 110 and the beetle collecting mechanism 120. The upper opening surface of 110 and the upper opening surface of the beetle collecting device 120 are covered; The control unit 150 is installed on the bottom of the screen 182, the transmission unit 160 is installed on the top of the screen 182, the insect repeller with a counting function, characterized in that exposed to the outside.

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