TWM620503U - High-density detection of mosquito killing structure - Google Patents

Abstract

This new model is a high-density detection mosquito-killing structure, which includes: a plurality of aperture shielding sheets, a plurality of photoresistors, a plurality of a low-power laser light source, a plurality of a high-power laser light source, and two power supplies A controller, the power controller is connected with a photoresistor, a low-power laser light source and a high-power laser light source; and two support frames. The novel optical array with high detection coverage and the structure of rapid response to kill mosquitoes can omit or shorten the calculation time of the killing time, so that it has the effect of increasing the killing rate.

Description

High-density detection of mosquito killing structure

The new model relates to a structure used for optical pollution-free and high-density detection of mosquitoes and killing equipment.

Seasonal mosquito infestation can easily cause bodily injury and disease transmission. Today's mosquito control equipment has electric shocks, wind entanglement and drug contamination. The optical mosquito killing is limited by the complexity of the automatic control architecture and the inability to improve the accuracy. The above problems still need to be resolved.

The prior art focuses on the research on methods of repelling insects, as disclosed in the Republic of China Patent No. TW108117779, which prevents insects from staying in specific areas or even losing their flying ability after being irradiated by laser light under specific conditions, thereby effectively repelling insects, especially with Insects that cause harm to the human body after human contact. As disclosed in the Republic of China Patent No. TW108212245, a laser removal device is arranged near an entrance and exit. The laser removal device includes a laser module, a driving device, and a detection device. The driving device can be used to mold the laser The laser light generated by the group is guided to the entrance and exit, and a dynamic scanning laser light is formed at the entrance and exit to repel mosquitoes. The detection device can be used to detect non-mosquito creatures approaching the entrance and exit to stop the operation of the laser module.

The prior art focuses on the research of optical tracking equipment for mosquitoes. As disclosed in the Republic of China Patent No. TW10921406, a laser mosquito indicator includes at least: a multi-angle rotatable base with a cloud that can be rotated at full angles according to a tracking command Station; a detection device for detecting the position of the mosquito and sending out an activation signal; a power supply, receiving the activation signal and turning on the supply power; a controller, electrically connected to the power supply and detection device, to receive the activation signal Generate a tracking command to dynamically track the position of the mosquito; and at least one laser unit, electrically connected to the controller, for generating at least one laser light according to the tracking command, so that the laser light illuminates the mosquito in flight or on the object . The laser mosquito indicator can indicate the position of the mosquito and let the user know the position of the mosquito. Further, the previous technology for the research of mosquito catching equipment, as disclosed in the Republic of China Patent No. TW098214033, uses sound waves and lasers to track the movement of mosquitoes, making it easier to catch mosquitoes. Another example is the prior art research on non-powered mosquito catching devices, as disclosed in the Republic of China Patent No. TW09521743, which is used to stick and catch mosquitoes. It includes a container, a lid and a mosquito-trapping tape. The container has a hollow cylinder. , A closed bottom plate and an opening are respectively formed at both ends of the cylinder. The cover system is connected to the opening of the container and has a through hole. It is coated with an adhesive layer; thereby, it does not require any power supply, which greatly saves the purchase cost of the battery, and at the same time, it can kill the female mosquitoes and larvae in a large amount and for a long time. Another example is the prior art research on the electronic mosquito swatter with laser transmitters, as disclosed in the Republic of China Patent No. TW095212654, which includes an electronic mosquito swatter and a laser transmitter. The laser transmitter is arranged on the electronic mosquito swatter and connected with the storage element, and emits a laser; before the electronic mosquito swatter is used to kill mosquitoes, the laser of the laser transmitter is used to irradiate the mosquitoes. The high-energy and high-brightness characteristics of the laser deprive mosquitoes of vision, so that the electronic mosquito swatter can easily kill mosquitoes.

The prior art has focused on a device that kills mosquitoes but does not have the function of detecting mosquitoes. As disclosed in the Republic of China Patent No. TW104140352, an optoelectronic device includes a frame-shaped body, a reflecting unit, and a first laser transmitter. The reflecting unit is arranged on the inner surface of the frame-shaped body. The first laser transmitter is arranged on the inner surface of the frame-shaped body corresponding to the reflection unit, the first laser transmitter emits laser light, and the laser light is continuously reflected to form a first laser optical network. As disclosed in the ROC Patent No. TW097203592, a laser scanning device is used to emit low-power laser light from a high tower, and this low-power laser, which is less harmful to the human body, is used to destroy the weak wings of insects. The effect of insects. The creator also disclosed in the prior art Republic of China Patent No. TW109214158, an optical pest control equipment, which includes: a first optical bracket, at least one positioning detection light source, a second optical bracket, a plurality of photosensitive elements, at least one high The power kills the light source, a program processing unit and at least one insect to attract the target. Wherein, the plurality of positioning and detecting light sources covers the irradiation area of the linear light source with a large area. The positioning detection light source emits a linear light source, and a fan-shaped irradiation area is present on the side. The detection light source is at least one of visible light, infrared light, laser light and ultraviolet light. The plurality of light-sensing elements have micro-detection and positioning to detect the amount of light emitted by the linear light source, which is shielded by the flying insects. Furthermore, the program processing unit is connected to the photosensitive element and the controllable angle device to calculate the intensity of the linear light source emitted by the photosensitive element receiving the positioning detection light source to locate the insect coordinate position, and instantaneously calculate that the controllable angle device must rotate To control the rotation angle of the high-power kill light source to aim at the insect coordinate position.

The creator of this creation knows that the sensitivity of the photosensitive element and the detection density of the light source of the optical insect removal device have a great influence on the capture rate. The present invention is a high-density detection mosquito killing structure, which comprises: a plurality of aperture shielding sheets, the aperture shielding sheet has at least one hole; a plurality of photosensitive resistors, the photosensitive resistor has a light-receiving surface, and the light-receiving surface Covered by an aperture shielding sheet; a plurality of low-power laser light sources, the low-power laser light source illuminates at least one opposing photoresistor, so that the photoresistor is continuously detected by light, when mosquitoes block the low-power laser light source, that is The resistance value of the photoresistor is changed, and the light-receiving surface of the photoresistor receives at least one pair of low-power laser light sources through the hole of the aperture shielding sheet; a plurality of high-power laser light sources are arranged at Next to the position of the low-power laser light source, the high-power laser light source is opened and closed by the impedance value of the photoresistor, and the height is the same as that of the low-power laser light source, so that the high-power laser light source of the same height can be opened and closed, and calculation time is omitted. Improve the probability of killing; two power controllers, the power controller is connected to a photoresistor, a low-power laser light source and a high-power laser light source; and two support frames, the two support frames are arranged opposite to each other, the support frame accommodates the fixed photoresistor , Low-power laser light source, high-power laser light source and power controller. A high-density detection mosquito killing structure, comprising: a plurality of aperture shielding sheets, the aperture shielding sheet has at least one hole; a plurality of photoresistors, the photoresistor has a light-receiving surface, the light-receiving surface has an aperture shielding sheet Cover; at least one reflective mirror, the reflective mirror is arranged on the opposite side of the photoresistor; a plurality of low-power laser light sources, the low-power laser light source illuminates at least one opposite reflective mirror, so that the low-power laser of the reflective mirror The light source is reflected back to the photoresistor on the same side. When mosquitoes block the low-power laser light source, the impedance of the photoresistor is changed, and the light-receiving surface passes through the hole of the aperture shielding plate, and the photoresistor receives at least one mirror-reflected low power Laser light source; a plurality of high-power laser light sources, the high-power laser light source is set next to the position of the low-power laser light source. The same height of the light source can be opened and closed by linking the high-power laser light source of the same height, omitting the calculation time to increase the probability of killing; two power controllers, the power controller is connected to the photoresistor, low-power laser light source and high-power laser light source ; And two support frames, the two support frames are arranged oppositely, one of which supports a fixed photoresistor, a low-power laser light source, a high-power laser light source and a power controller, and the other supports a fixed mirror surface. Wherein, the aperture shielding sheet is an opaque plastic or metal sheet. Wherein, the plurality of photoresistors are arranged in at least a straight line and a zigzag line with a reduced pitch, and the pitch of the zigzag line with a reduced pitch is smaller than the length of the light-receiving surface of the photoresistor. Wherein, the width or diameter of the light-receiving surface of the photosensitive resistor is smaller than the width or diameter of the hole of the aperture shielding sheet. Wherein, the plurality of low-power laser light sources are arranged in a straight line. Wherein, the plurality of low-power laser light sources are arranged in a zigzag line with reduced spacing, and the spacing is smaller than the length of the light source surface of the low-power laser light source. Wherein, the plurality of high-power laser light sources are arranged in a straight line, and a focusing lens is arranged on the light source surface of the high-power laser light source, and the focusing lens is connected with an electronic zoom element to control the distance between the high-power laser light source and the focusing lens. Wherein, the plurality of high-power laser light sources are arranged in a zigzag line with reduced spacing, and the spacing is smaller than the length of the light source surface of the high-power laser light source, and the light source surface of the high-power laser light source is provided with a focusing lens, the focusing lens Connect the electronic zoom element to control the distance between the high-power laser light source and the focusing lens. Wherein, the power controller controls the resistance of the plurality of photoresistors to stop the activation of the high-power laser light source, so as to prevent large objects or animals from accidentally touching the low-power laser light source area and being burned. The new type of optical array with high detection coverage and rapid response to kill mosquitoes can omit or shorten the calculation time of the killing time, so that it has the effect of improving the killing rate, which is different from the previous known techniques and differences. Its novelty, progress and practical benefits are correct. Regarding the techniques, methods and effects used in this creation, I will give a preferred embodiment and detailed descriptions in conjunction with the drawings. I believe that the above-mentioned purpose, structure and features of this creation should be understood in depth and concretely. .

The following is a specific embodiment to illustrate the implementation of this creation. Those who are familiar with this technique can easily understand the other advantages and effects of this creation from the content disclosed in this manual. This creation can also be implemented or applied by other different specific embodiments, and various details in this specification can also be based on different viewpoints and applications, and various modifications and changes can be made without departing from the spirit of this creation.

First of all, please read the first picture showing the three-dimensional view of the high-density detection mosquito-killing structure of this creation, and the reference of the front view of the second picture showing the high-density detection mosquito-killing structure of this creation, showing that this new model is a high-density The mosquito-killing detection structure includes: a plurality of aperture shielding sheets, the aperture shielding sheet has at least one hole; a plurality of photoresistors, the photoresistor has a light-receiving surface, the light-receiving surface is covered by the aperture shielding sheet; Count a low-power laser light source. The low-power laser light source irradiates at least one photoresistor to the opposite direction, so that the photoresistor is continuously detected by light. When mosquitoes block the low-power laser light source, the impedance value of the photoresistor is changed , And the light-receiving surface of the photoresistor receives at least one pair of low-power laser light sources through the hole of the aperture shielding sheet; a plurality of high-power laser light sources, the high-power laser light source is arranged next to the position of the low-power laser light source , The high-power laser light source is controlled by the resistance value of the photoresistor to open and close, and the height is the same as the low-power laser light source, to link the high-power laser light source with the same height to open and close, omitting the calculation time to improve the killing probability; The controller, the power controller is connected to the photoresistor, the low-power laser light source, and the high-power laser light source; and two supporting frames, the two supporting frames are arranged opposite to each other, and the supporting frame accommodates the fixed photoresistor, the low-power laser light source, High-power laser light source and power controller. Wherein, the aperture shielding sheet is an opaque plastic or metal sheet. Wherein, the plurality of photoresistors are arranged in at least a straight line and a zigzag line with a reduced pitch, and the pitch of the zigzag line with a reduced pitch is smaller than the length of the light-receiving surface of the photoresistor. Wherein, the width or diameter of the light-receiving surface of the photosensitive resistor is smaller than the width or diameter of the hole of the aperture shielding sheet. Wherein, the plurality of low-power laser light sources are arranged in a straight line. Wherein, the plurality of low-power laser light sources are arranged in a zigzag line with reduced spacing, and the spacing is smaller than the length of the light source surface of the low-power laser light source. Wherein, the plurality of high-power laser light sources are arranged in a straight line, and a focusing lens is arranged on the light source surface of the high-power laser light source, and the focusing lens is connected with an electronic zoom element to control the distance between the high-power laser light source and the focusing lens. Wherein, the plurality of high-power laser light sources are arranged in a zigzag line with reduced spacing, and the spacing is smaller than the length of the light source surface of the high-power laser light source, and the light source surface of the high-power laser light source is provided with a focusing lens, the focusing lens Connect the electronic zoom element to control the distance between the high-power laser light source and the focusing lens. Wherein, the power controller controls the resistance of the plurality of photoresistors to stop the activation of the high-power laser light source, so as to prevent large objects or animals from accidentally touching the low-power laser light source area and being burned.

Figure 3 shows a partial view of the high-density detection mosquito killing structure of this creation. It shows that the aperture shielding sheet covers the photoresistor, and the aperture on the aperture shielding sheet receives at least one low-power laser light source. In order to improve the recognition rate of mosquitoes, when the mosquito emits light through a low-power laser, the low-power laser emission is shielded by the mosquito, so that at least one photoresistor detects a slight change in resistance, and at the same time, the high power is the same height as the photoresistor. The laser light source is activated immediately, and the high-power laser light source emits high-power lightning shots to kill mosquitoes. It can also be equipped with a zoomable high-power laser light source. The zoomable high-power laser light source first kills mosquitoes with a wide range of high-power laser shots. When the photoresistor detects the position of the mosquito, at least one high-power laser shot kills the mosquitoes. The aperture focuses on the position of the mosquito to kill the mosquito. The low-power laser emitting light and the high-power laser light source are set in the same horizontal position, then the high-power laser light source can emit according to the height of the low-power laser light source without calculating the angle. The holes of the aperture shielding sheet are used to produce a grating effect, which improves the sensitivity of the photoresistor, and the misalignment and overlap of the low-power laser light source is used to improve the recognition rate of mosquitoes. Then through the high and low power laser light source at the same height position, the time to calculate the position is omitted.

When the size of the target mosquito is still unable to be effectively detected using the structure in Figure 3, the staggered method can be used. As shown in Figure 4, another partial diagram of the high-density detection mosquito killing structure of this creation is shown. The holes of the aperture shielding sheet are used to generate a grating effect to improve the sensitivity of the photoresistor, and the misalignment and overlap of at least one photoresistor, a low-power laser light source and a high-power laser light source are used to improve the recognition rate of mosquitoes. And through the high and low power laser light source at the same height, omitting the time to calculate the position.

In order to enable the reviewer to further understand the actual application situation of this creation, an example of another reflective application situation is shown. Figure 5 shows another three-dimensional view of the high-density detection mosquito killing structure of this creation, which illustrates a kind of high-density detection of mosquitoes. The killing structure includes: a plurality of aperture shielding sheets, the aperture shielding sheet has at least one hole; a plurality of photoresistors, the photoresistor has a light-receiving surface, the light-receiving surface is covered by the aperture shielding sheet; at least one reflective mirror surface , The reflecting mirror is arranged on the opposite side of the photoresistor; a plurality of low-power laser light sources, the low-power laser light source illuminates at least one opposite reflecting mirror, so that the low-power laser light source of the reflecting mirror is reflected back to the same side The photoresistor, when mosquitoes block the low-power laser light source, the impedance value of the photoresistor is changed, and the light-receiving surface passes through the hole of the aperture shielding sheet, and the photoresistor receives at least one mirror-reflected low-power laser light source; plural A high-power laser light source. The high-power laser light source is set next to the low-power laser light source. The high-power laser light source is opened and closed by the impedance value of the photoresistor, and is at the same height as the low-power laser light source. Link the opening and closing of the high-power laser light source of the same height, omitting the calculation time to increase the killing probability; two power controllers, which are connected to the photoresistor, low-power laser light source and high-power laser light source; and two supporting frames, The two supporting frames are arranged in opposite directions. One supporting frame contains a fixed photoresistor, a low-power laser light source, a high-power laser light source and a power controller, and the other supporting frame contains a fixed reflecting mirror. Wherein, the aperture shielding sheet is an opaque plastic or metal sheet. Wherein, the plurality of photoresistors are arranged in at least a straight line and a zigzag line with a reduced pitch, and the pitch of the zigzag line with a reduced pitch is smaller than the length of the light-receiving surface of the photoresistor. Wherein, the width or diameter of the light-receiving surface of the photosensitive resistor is smaller than the width or diameter of the hole of the aperture shielding sheet. Wherein, the plurality of low-power laser light sources are arranged in a straight line. Wherein, the plurality of low-power laser light sources are arranged in a zigzag line with reduced spacing, and the spacing is smaller than the length of the light source surface of the low-power laser light source. Wherein, the plurality of high-power laser light sources are arranged in a straight line, and a focusing lens is arranged on the light source surface of the high-power laser light source, and the focusing lens is connected with an electronic zoom element to control the distance between the high-power laser light source and the focusing lens. Wherein, the plurality of high-power laser light sources are arranged in a zigzag line with reduced spacing, and the spacing is smaller than the length of the light source surface of the high-power laser light source, and the light source surface of the high-power laser light source is provided with a focusing lens, the focusing lens Connect the electronic zoom element to control the distance between the high-power laser light source and the focusing lens. Wherein, the power controller controls the resistance of the plurality of photoresistors to stop the activation of the high-power laser light source, so as to prevent large objects or animals from accidentally touching the low-power laser light source area and being burned.

This model is a high-density detection mosquito-killing structure. Its high-detection coverage optical array and rapid response to kill mosquitoes are structural features. It is different from the past known techniques and has differentiation. It is novel, advanced and practical. The benefits are correct. Therefore, it can effectively improve the lack of knowledge, and has considerable practicality in use.

In summary, the specific structure disclosed in this creative embodiment can indeed omit or greatly shorten the calculation time for detecting and killing mosquitoes, and has the effect of increasing the mosquito killing rate. In terms of its overall structure, it has never been seen. Among similar products, they have not been disclosed before the application. Since they have met the statutory requirements of the Patent Law, they have filed a new patent application in accordance with the law.

However, the above is only one of the preferred embodiments of this creation, and should not be used to limit the scope of implementation of this creation, that is, all equivalent changes and modifications made in accordance with the scope of the patent application for this creation and the content of the creation specification are all Should still be within the scope of this creation patent.

101: Aperture mask 1011: Hole 201: Photoresistor 301: Low-power laser light source 3011: Low-power laser emission light 3012: Low-power laser reflected light 401: High-power laser light source 4011: High-power thunder shooting kills all 501: Power Controller 601: support frame 701: Mosquito 801: reflective mirror

Picture 1 shows a three-dimensional diagram of the high-density detection mosquito killing structure of this creation. Figure 2 shows the front view of this creation's high-density detection mosquito killing structure. Figure 3 shows a partial view of the high-density detection mosquito killing structure of this creation. Figure 4 shows another partial view of the high-density detection mosquito killing structure of this creation. Figure 5 shows another three-dimensional view of this creative high-density detection mosquito killing structure.

201: Photoresistor

301: Low-power laser light source

3011: Low-power laser emission light

401: High-power laser light source

4011: High-power thunder shooting kills all

601: support frame

701: Mosquito

Claims (10)

A high-density detection mosquito killing structure, which includes: A plurality of aperture shielding sheets, the aperture shielding sheet having at least one hole; A plurality of photoresistors, the photoresistor has a light-receiving surface, and the light-receiving surface is covered by an aperture shielding sheet; A plurality of low-power laser light sources, the low-power laser light source illuminates at least one opposing photoresistor, so that the photoresistor is continuously detected by light, and when mosquitoes block the low-power laser light source, the impedance of the photoresistor is changed Value, and the light-receiving surface of the photoresistor receives at least one pair of low-power laser light sources through the hole of the aperture shielding sheet; A plurality of high-power laser light sources, the high-power laser light source is set next to the low-power laser light source, and the high-power laser light source is controlled by the resistance value of the photoresistor to open and close, and the height is the same as the low-power laser light source , To open and close the high-power laser light source of the same height in conjunction with the same height, omitting the calculation time to improve the killing probability; 2. Power controller, which is connected with photoresistor, low-power laser light source and high-power laser light source; and Two support frames, the two support frames are arranged opposite to each other, and the support frame accommodates a fixed photoresistor, a low-power laser light source, a high-power laser light source and a power controller. A high-density detection mosquito killing structure, which includes: A plurality of aperture shielding sheets, the aperture shielding sheet having at least one hole; A plurality of photoresistors, the photoresistor has a light-receiving surface, and the light-receiving surface is covered by an aperture shielding sheet; At least one reflective mirror surface, the reflective mirror surface being arranged on the opposite side of the photoresistor; A plurality of low-power laser light sources, the low-power laser light source illuminates at least one opposite reflective mirror, so that the low-power laser light source of the reflective mirror is reflected back to the photoresistor on the same side, and when mosquitoes block the low-power laser The light source, that is, the impedance value of the photoresistor is changed, and the light-receiving surface passes through the hole of the aperture shielding sheet, and the photoresistor receives at least one specularly reflected low-power laser light source; A plurality of high-power laser light sources, the high-power laser light source is set next to the low-power laser light source, and the high-power laser light source is controlled by the resistance value of the photoresistor to open and close, and the height is the same as the low-power laser light source , To open and close the high-power laser light source of the same height in conjunction with the same height, omitting the calculation time to improve the killing probability; 2. Power controller, which is connected with photoresistor, low-power laser light source and high-power laser light source; and Two supporting frames, the two supporting frames are arranged opposite to each other, one supporting frame accommodates a fixed photoresistor, a low-power laser light source, a high-power laser light source and a power controller, and the other supporting frame accommodates a fixed reflecting mirror. The high-density detection mosquito killing structure according to claim 1 or 2, wherein the aperture shielding sheet is an opaque plastic or metal sheet. The high-density mosquito-killing structure for detecting mosquitoes according to claim 1 or 2, wherein the plurality of photoresistors are arranged in at least a straight line and a zigzag linear arrangement with a reduced pitch, and the zigzag linear arrangement with a reduced pitch has a pitch Less than the length of the light-receiving surface of the photoresistor. The high-density detection mosquito killing structure according to claim 1 or 2, wherein the light-receiving surface width or diameter of the photoresistor is smaller than the hole width or diameter of the aperture shielding sheet. The high-density detection mosquito killing structure according to claim 1 or 2, wherein the plurality of low-power laser light sources are arranged in a straight line. The high-density detection mosquito killing structure according to claim 1 or 2, wherein the plurality of low-power laser light sources are arranged in a zigzag line with reduced spacing, and the spacing is smaller than the length of the light source surface of the low-power laser light source. The high-density detecting mosquito killing structure according to claim 1 or 2, wherein the plurality of high-power laser light sources are arranged in a straight line, and a focusing lens is arranged on the light source surface of the high-power laser light source, the The focusing lens is connected to the electronic zoom element to control the distance between the high-power laser light source and the focusing lens. The high-density mosquito-killing detection structure according to claim 1 or 2, wherein the plurality of high-power laser light sources are arranged in a zigzag line with reduced spacing, and the spacing is smaller than the length of the light source surface of the high-power laser light source, And a focusing lens is arranged on the light source surface of the high-power laser light source, and the focusing lens is connected with an electronic zoom element to control the distance between the high-power laser light source and the focusing lens. The high-density mosquito-killing detection structure according to claim 1 or 2, wherein the power controller stops the activation of the high-power laser light source when the resistance value of the plurality of photoresistors changes, so as to prevent large objects or animals from accidentally touching Low-power laser light source area and burn.

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