KR101049197B1 - Insect Repeller - Google Patents

Abstract

The present invention relates to a insect repeller having a counting function, the air intake path 110 is sucked into the insect, the intake air trap 110 to collect the insects introduced into the intake 110, and the sucked air is discharged A case 100 having an exhaust path 130 and a collecting network installation unit 140 provided at the collecting unit 120; A fan mechanism 200 installed in the case 100 and sucking air or insects; A detection sensor 320 installed in the case 100 and forcibly suctioning and detecting an insect moving to the collecting network installation unit 140; A control unit 400 that receives the detection signal of the detection sensor 320 and calculates the number of collected insects; Operation control by the control unit 400, including the output unit 500 for outputting the result value of the control unit 400 to the outside, there is an effect that can accurately count the insect.

Description

Insect Repellent {Apparatus for collecting a insect}

The present invention relates to a insect repeller having a counting function, and more particularly to a insect repeller with a counting function capable of accurately counting insects.

Generally, mosquitoes are collected to monitor the incidence of mosquitoes that transmit infectious diseases and to study the pathogens in living mosquitoes.

In order to collect the mosquitoes as described above, a repeller is used, and the repeller sucks an external mosquito with a suction fan and has a structure for collecting it in the repellent net.

On the other hand, the collected mosquitoes are counted by the operator one by one, a conventional counting method is used to measure the weight of the mosquitoes.

That is, the total weight of the collected mosquitoes is divided by the weight of the mosquitoes to reference the total mosquitoes.

However, this method of counting, it is difficult to accurately determine the total weight of the collected mosquitoes, difficult to select the reference mosquitoes, it was difficult to accurately count.

That is, when mosquitoes are collected with the above insect repellents, not only mosquitoes but also heavy insects such as moths are collected in the insect repellent, and thus, when the weight of the mosquitoes collected in the trapping net is measured, Many errors are caused by weight.

At this time, insects such as moths may be separated from each other to measure the weight of pure mosquitoes alone, but this requires a lot of manual work, which wastes a lot of labor and time.

On the other hand, even if only pure mosquitoes are collected, since the individual mosquitoes weigh too small, even if the total weight of the collected mosquitoes divided by the reference mosquitoes, a lot of errors occurred.

As described above, conventional mosquitoes can only collect mosquitoes, not accurate counting of mosquitoes, and accurate counting is difficult due to the counting of unnecessary insects such as moths. Could not get

Therefore, a mosquito is required, of course, the insect repeller that can accurately count the collected mosquitoes, to obtain accurate data.

The present invention has been invented to solve the above problems, it is a technical problem to provide a insect repeller with a counting function that can accurately count the insects, and easy to count the insects.

The present invention for solving the above problems is provided with an intake passage into which air or insects are sucked, a collecting unit for collecting insects introduced into the intake air, an exhaust passage through which the sucked air is discharged, and a collecting unit. A case having a collecting network installation unit; A fan mechanism built into the case and sucking air or insects; A detection sensor installed in the case and forcibly suctioning and detecting an insect moving to the collecting network installation unit; A control unit which receives the detection signal of the detection sensor and calculates the number of collected insects; Operationally controlled by the control unit, characterized in that it comprises an output unit for outputting the result value of the control unit to the outside.

According to the present invention as described above, by accurately measuring the insects introduced into the capture network through the sensor, there is an effect that can accurately count the insects.

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

1 is a perspective view showing a repeller with a counting function according to the present invention, Figure 2 is a cross-sectional view showing a repeller with a counting function according to the present invention, Figure 3 is a detailed view showing a sensing device according to the present invention, Figure 4 is a side cross-sectional view of Figure 3, Figure 5 is a side cross-sectional view showing another embodiment of the sensing device according to the invention, Figure 6 is a block diagram showing a repeller with a counting function according to the present invention.

1 and 2, the insect repellent having a mosquito counting function according to the present invention includes a case 100 having a front surface opened, a fan mechanism 200 installed in the case 100, and a case 100. It consists of a sensing device 300 is built.

The case 100 has an intake passage 110 formed at one side, a collecting portion 120 formed therein and communicating with the intake passage 110, and an exhaust passage formed at a lower portion thereof and communicating with the collecting portion 120. 130 and a collecting network installation unit 140 is installed in the collecting unit 120.

On the other hand, the case 100 is provided with a ring (H) on the upper surface. At this time, the ring (H) is for ease of installation, the case 100 can be hung on the installation place via a wire or the like.

At this time, the front surface of the case 100 is opened and closed by a door (D) that is rotatably installed.

On the other hand, in this embodiment, the intake pipe 110 ′ is applied to form the intake air duct 110.

The intake pipe 110 ′, the upper end is connected to the upper end side of the case 100 to communicate with the collecting unit 120, the lower end is exposed to the outside having a trumpet shape for ease of mosquito collection. At this time, the intake pipe 110 ′ forms a curved shape as a whole.

The collecting unit 120 is formed in the case 100, communicates with the intake passage 110 and the exhaust passage 130, and collects mosquitoes introduced into the intake passage 110.

Meanwhile, in the present embodiment, the exhaust pipe 130 ′ is applied to form the exhaust path 130.

The exhaust pipe 130 ′ has an upper end installed on a bottom surface of the case 100, and communicates with a collecting unit 120 of the case 100, and the lower end forms a trumpet shape and is exposed to the outside. At this time, the exhaust pipe 130 ′ is exposed to the outside, and the mosquitoes sucked into the intake air 110 are sucked into the collecting network N and the air is exposed to the outside.

The collecting network installation unit 140 has a ring shape that becomes narrower toward the bottom, so that the outer surface is spaced apart from the inner surface of the case 10 by a predetermined interval, the collecting unit 120 of the case 100 via the fixing table f. It is installed, the netting trap collecting net (N) is installed at the lower end. At this time, it is preferable that the collecting network installation unit 140 is positioned below the upper end of the intake pipe 110 'so that the mosquitoes naturally flow into the collecting network (N).

The fan mechanism 200 is installed inside the case 10 to be located below the collection network installation unit 140, and sucks the air around the inlet of the intake pipe 110 ′ and discharges it to the exhaust path 130. At this time, the fan mechanism 200 is preferably used a conventional fan mechanism consisting of a motor and a fan, as long as it can suck air.

On the other hand, in the present embodiment, the wind speed generated from the fan mechanism 200 is applied to 5km / h, because in relation to the sensor circuit design, the wind speed of 5km / h is the most preferable, depending on the design Wind speeds may apply.

In addition, the fan mechanism 200 may be further provided in the collecting network installation unit 140. That is, when the fan mechanism 200 is further provided in the collecting network installation unit 140 and drives the fan mechanism 200, the insects introduced into the collecting unit 120 are collected by the blowing of the fan mechanism 200. Guided securely to the tooth 140, the insect is not damaged.

2 to 4, the sensing device 300 is composed of a frame-shaped fixing member 310 and a sensing sensor 320 installed in the fixing member 310.

The fixing member 310 has a through portion 311 formed therein so that mosquitoes introduced from the intake pipe 110 'may pass therethrough, and the through portion 311 communicates with an upper end of the intake pipe 110'. It is installed on the upper surface of the case collecting unit 120. In this case, although the bolting is used to fix the fixing member 310, any means may be used as long as the fixing member 310 may be fixed.

3 and 4, an infrared sensor is applied to the sensing sensor 320 in the present embodiment, and thus the sensing sensor 320 emits infrared light through the light emitting part 321 and the light emitting part 321. It consists of a light receiving unit 322 for receiving the infrared rays from.

In this case, the light emitting part 321 is installed on the inner side of the through part 311, and emits infrared rays to the light receiving part 322, the light receiving part 322 penetrates the fixing member 310 to face the light emitting part 321. It is installed in the unit 311 and receives the infrared rays from the light emitting unit 321. In this case, it is preferable that the light emitting unit 321 and the light receiving unit 322 are provided in a corresponding number.

Here, it is preferable that a plurality of detection sensors 320 are provided for optimum precision.

Meanwhile, in the present embodiment, although an infrared sensor composed of the light emitting unit 321 and the light receiving unit 322 is used, when the visible light transmitting / receiving sensor using visible light instead of infrared light is used, the sensor can be detected more precisely. Sensors may be used. That is, the detection sensor 320 according to the present invention can be variously modified if it can detect insects.

On the other hand, the sensor 320 according to the present invention is arranged in a zigzag as shown in Figure 5 may be more than two columns multiplexed. This is to reduce the portion of the insect is not detected as much as possible, it is possible to more precise insect count through multiple arrays.

6, the control unit 400 is installed on the inner upper surface of the case collecting unit 120, and is electrically connected to each of the sensing sensors 320 so as to emit light of the sensing sensor 320. 321 and the light receiving unit 322 to operate. At this time, the control unit 400 causes the light emitting unit 321 to transmit infrared rays, and receives a signal from the light receiving unit 322 which receives the infrared rays, reads the amount of change of the transmitted infrared rays and checks whether the mosquitoes enter the collecting unit 120. Determine. Subsequently, the control unit 400 calculates the number of mosquitoes introduced into the collecting unit 120 with the determined signal.

The output unit 500 is installed on the upper outer surface of the case 100, the operation is controlled by the control unit 400, and outputs the result value calculated by the control unit 400 to the outside.

In the present embodiment, the display unit 510 is applied to the output unit 500 to visually represent the result of the control unit 400.

On the other hand, in the present embodiment, although the display device 510 is applied to the output unit 500, a transmitter 520 that can output the result of the control unit 400 by wire or wireless may be applied.

In addition, the present invention may further include a pyloric lamp 600 in the inlet portion of the suction pipe (110 '). That is, by further providing a pyloric lamp 600 can attract more insects, it is possible to efficiently collect.

Attractants can be used to attract insects as described above. In the present embodiment, a mosquito attractant is applied as an attractant, and as the mosquito attractant, lactic acid, ammonia, acetic acid, octenol, and the like may be used. On the other hand, various attractants are applied depending on the insects, of course.

7 is an operation of the insect repeller with a counting function according to the present invention, referring to FIG.

First, the insect repeller having a counting function according to the present invention, the collecting net (N) is installed in the collecting network installation unit 140, the wire (D) is connected to the ring (H) in the state in which the door (D) is closed. At this time, one end of the wire is fixed to a separately installed support, the insect repeller with a counting function is spaced apart from the ground at a predetermined distance.

Then, when the user operates the fan mechanism 200, the fan mechanism 200 sucks the outside air into the case 100 and discharges it.

At this time, the insect flying in the air is sucked into the case 100 along the wind sucked into the intake pipe (110 ').

Insects sucked into the case 100 are introduced into the collecting network installation unit 140, and are continuously moved to be collected in the collecting network N.

On the other hand, when an insect sucked into the intake pipe 110 ′ and moves to the collecting part 120 passes through the penetrating part 311 of the fixing member 310, infrared rays emitted from the light emitting part 321 are transmitted to the insect. Will be blocked.

Subsequently, the control unit 400 receives a blocking signal indicating that the infrared rays are blocked from the light receiving unit 322 which does not receive the infrared rays, and reads them to determine whether the insects have entered the collecting unit 120.

On the other hand, through the through part 311 of the fixing member 310, as well as a mosquito as well as various other insects may pass through.

Here, each insect passes through the fixing member 310 with a slight time difference, in which the control unit 400 counts the mosquitoes when one blocking signal comes from the sensor 320 at the same time. When a blocking signal is input from a plurality of detection sensors 320 adjacent to the same time zone, an insect larger than a mosquito passes through the fixing member 310 and does not count.

Subsequently, the control unit 400 calculates the number of insects introduced into the collecting unit 120 with the determined information, and displays the calculated result value through the output unit 500.

On the other hand, in the present embodiment has been described as a repellent counting mosquitoes, it can be applied to various insects, such as flies, fly, etc. as well.

Here, the present invention is provided with an input unit (not shown) for inputting a signal to the control unit 400, the administrator selects insects, such as mosquitoes, flies, birds, etc., and inputs the signal to the input unit, thereby controlling the control unit ( 400, it is desirable to be able to enter a reference value of the size for each insect.

At this time, the administrator can adjust the number of the sensor 320 to operate through the input unit, by adjusting the interval between the sensor 320 operated by the manager, it is possible to count the number of insects of different sizes. have.

As described above, the present invention can automatically increase the accuracy in calculating the number of mosquitoes by automatically counting the collected mosquitoes, and the administrator does not need to separate insects other than the mosquitoes, which saves time and labor. It is convenient.

1 is a perspective view showing a repeller with a counting function according to the present invention,

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

3 is a detailed view showing a fixing member and a sensor according to the invention,

4 is a side cross-sectional view of FIG. 3,

5 is a side cross-sectional view showing another embodiment of a sensing device according to the present invention;

6 is a block diagram showing a repeller with a counting function according to the present invention,

7 is an operation of the insect repeller with a counting function according to the present invention.

Explanation of terms for main parts of attached drawings

100; Case 200; Fan mechanism

300; Detection sensor 400; Control unit

500; Output unit 600; Pyloric lamp

Claims (6)

A pyloric lamp 600 or a mosquito attractant is installed at an inlet, and an intake air 110 in which air and insects are inhaled, a collecting unit 120 for collecting insects introduced into the intake air 110, and inhaled air are discharged. A case 100 having an exhaust path 130 and a collecting network installation unit 140 provided at the collecting unit 120; A fan mechanism 200 installed in the case 100 to suck air and insects; Detecting device consisting of a fixed member 310 of the frame shape is installed in the case 100, and a detection sensor 320 is installed on the fixing member 310 and forced to be sucked to detect the insect moving to the collecting network installation unit 140 300; A control unit 400 that receives the detection signal of the detection sensor 320 and calculates the number of collected insects; In the repeller having a counting function consisting of an output unit 500 which is operationally controlled by the control unit 400 to output the result value of the control unit 400 to the outside, The fan mechanism 200 is installed on the upper or lower side based on the collecting network installation unit 140; The sensing device 300, repeller having a counting function, characterized in that the sensing sensor 320 is installed in the fixing member 310 has a structure in which at least two rows are arranged alternately with each other. The method of claim 1, The output unit 500 is a display device 510 which is operationally controlled by the control unit 400 to visually output a result value from the control unit 400 or is controlled by the control unit 400. Repeller with a counting function, characterized in that any one of the transmitter (520) for wired or wirelessly outputting the result value from the unit (400) to the outside. delete delete delete delete

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