CN113475477A - Energy-saving air-suction type insect killing lamp trapping device and trapping method - Google Patents

Abstract

The invention discloses an energy-saving air-suction type insect-killing lamp trapping device and a trapping method. The energy-saving air-suction type insect-killing lamp trapping device comprises a shell with an upper opening and a lower opening, wherein a killing area is arranged above the shell, and a collecting area and an identification induction area are arranged in the shell; the collecting region is arranged below the killing region, and the identification sensing region is arranged below the collecting region; wherein the killing area is provided with an electric shock net, the collecting area is provided with a collecting box, and the identification induction area is provided with an identification module, a trap lamp and a fan blade; the fan blade sets up in collecting the box below, and the lamp that traps and kills sets up in the fan blade below, and identification module sets up in the casing lower part. The invention can not only sense the number of insects, but also adjust the killing efficiency of the insecticidal lamp in time according to the number of the insects, for example, the power of the fan is adjusted under the condition that the number of the surrounding insects is rare so as to achieve the effect of saving energy.

Description

Energy-saving air-suction type insect killing lamp trapping device and trapping method

Technical Field

The invention relates to the technical field of insecticidal lamps, in particular to an energy-saving air-suction type insecticidal lamp trapping device and method.

Background

The insect lamp is a special device which traps and collects insects and can effectively kill insects, reduce insect pest indexes and prevent and control insect pests and insect-borne diseases by utilizing an insect trapping light source in a specific spectral range sensitive to the insects according to the characteristic that the insects have phototaxis. The insecticide is mainly used for killing pests and reducing the use of insecticides.

In quantity and scale, the use of the insecticidal lamp needs to consume large electric power, the insecticidal lamp on the market at present usually adopts solar energy type power supply to realize 'open source', but does not pay great attention to 'throttling', for example, a patent with publication number CN211510324U discloses a wind-suction type solar insecticidal lamp, which comprises: the insect killing lamp box is provided with an insect killing inlet and a sliding connection groove, a collecting basket is connected in the sliding connection groove in a sliding manner, and the bottom wall of the insect killing lamp box is provided with an insect falling hole communicated with an opening of the collecting basket; the solar panel assembly comprises a support, a solar panel and a storage battery, and the solar panel assembly is arranged on the insecticidal lamp box; the insect killing pipeline is arranged in the insect killing lamp box and connected to the insect killing inlet, and two types of blade bars are arranged on the inner wall of the insect killing pipeline; the fan is arranged on the bottom wall of the insecticidal lamp box and is positioned in the fan installation space; the insecticidal lamp is arranged on the side wall of the insecticidal lamp box, and the solar cell panel, the storage battery and the insecticidal lamp are sequentially and electrically connected. Although the above patent can attract and kill pests, the problem of 'throttling' is still not considered to be much important, so that a more intelligent energy-saving control method for the insecticidal lamp is needed.

Disclosure of Invention

The invention aims to provide an energy-saving air-suction type insect-killing lamp trapping device and a trapping method aiming at the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

an energy-saving air-suction type insect killing lamp trapping device comprises a shell with an upper opening and a lower opening, wherein a killing area is arranged above the shell, and a collecting area and an identification induction area are arranged in the shell; the collecting region is arranged below the killing region, and the identification sensing region is arranged below the collecting region; wherein the killing area is provided with an electric shock net, the collecting area is provided with a collecting box, and the identification induction area is provided with an identification module, a trap lamp and a fan blade; the fan blade sets up in collecting the box below, and the lamp that traps and kills sets up in the fan blade below, and identification module sets up in the casing lower part.

Further, the identification module comprises a photosensitive sensor, a capacitance sensor and a camera; the photosensitive sensor and the capacitance sensor are arranged at the lower part of the shell, and the camera is arranged below the trapping lamp; the photosensitive sensor is used for acquiring a signal shielded by the insect; the capacitance sensor is used for sensing the number density of insects; the camera is used for acquiring image information of the insects.

Furthermore, a flow guide area is covered above the shell.

Further, the collecting area is provided with a chemical attractant and an insect pheromone.

Furthermore, the identification induction area is also provided with a motor, and the motor is used for driving the fan blades to rotate.

Furthermore, the identification induction area is also provided with a controller, and the controller is used for controlling the rotation of the motor and the on/off of the trap lamp.

Correspondingly, the energy-saving air-suction type insect-killing lamp trapping method comprises the following steps:

s1, receiving quantity information of insects acquired by an identification module;

s2, judging whether the number information of the received insects is larger than a preset threshold value or not, if so, executing a step S3;

and S3, controlling the motor to work to drive the fan blades to rotate forwards at a high speed to generate suction force, so that the insects fall into the collecting box through the electric shock net.

Further, step S1 is preceded by:

s0. controls the trap lamp to turn on.

Further, the step S2 of determining whether the received information on the number of insects is greater than the preset threshold further includes:

if the received quantity information of the insects is smaller than the preset threshold value, the motor is controlled to work to drive the fan blades to rotate at a low speed to generate suction force, and the chemical attractant in the collecting area attracts the insects so that the insects fall into the collecting box.

Further, the step S3 further includes:

the motor is controlled to drive the fan blades to rotate reversely, so that insects on the electric shock net fall into the collecting box.

Compared with the prior art, the invention has the following beneficial effects:

1. the fan blades are started at full speed to suck the insects only when the number of the insects is more than that of the insects, and the electric shock net is electrified at the moment, so that the electric energy consumption of the insecticidal lamp is reduced;

2. the insect quantity is judged by photosensitive shielding detection and inductive detection of capacitance plate medium change, and a camera is used for assisting, so that the efficiency is high;

3. the camera is installed in trapping lamp below, strikes light with the help of the light of insecticidal lamp night, has solved the not enough problem that need strike light of night luminance. Meanwhile, the object shot by the camera is not the killed insect but the insect flying outside, so that the complete shape of the insect can be shot, and the identification is more accurate;

4. the method of trapping and killing by chemical and physical light is adopted, and when the trapping and killing light cannot be used in the daytime, insects are trapped by blowing chemical trapping and killing agents, insect pheromones and the like;

5. the electric shock net is cleaned by reversely rotating the motor at regular time, so that the trouble of manual cleaning is reduced;

6. the ventilation channel with special design can make the insect-luring smell diffuse and simultaneously suck insects.

Drawings

FIG. 1 is a structural diagram of an energy-saving air-suction type insecticidal lamp trapping device provided by an embodiment I;

fig. 2 is a schematic view of a killing area, a collecting area and an identification sensing area of the energy-saving air-suction type insecticidal lamp trapping device provided by the first embodiment;

FIG. 3 is a schematic view of an energy-saving air-suction insect-killing lamp trapping device provided by the first embodiment;

FIG. 4 is a schematic diagram illustrating an insect at an opening at the bottom of the housing sensed by the light sensor and the capacitive sensor according to one embodiment;

FIG. 5 is a schematic view of an insect placed on a click-through net according to one embodiment;

FIG. 6 is a schematic view of the first embodiment providing insects falling into the collection box;

FIG. 7 is a schematic diagram of the path of the information provided by the first embodiment of the present invention.

Wherein, 1, a shell; 2. a kill zone; 2-1, electric shock net; 3. a collection region; 3-1, collecting the box; 4. identifying a sensing area; 4-1, trapping and killing the lamp; 4-2. fan blades; 4-3. a light sensitive sensor; 4-4. a capacitive sensor; 4-5, a camera; 5. a flow guide area; 5-1, a flow guide cover.

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

The invention aims to provide an energy-saving air-suction type insect-killing lamp trapping device and a trapping method aiming at the defects of the prior art.

Example one

The embodiment provides an energy-saving air-suction type insect-killing lamp trapping device, which comprises a cylindrical shell 1 with an upper opening and a lower opening, wherein a killing area 2 is arranged above the shell 1, a collecting area 3 and an identification induction area 4 are arranged in the shell 1, and a flow guide area 5 is covered above the shell 1; wherein, the collecting region 3 is arranged below the killing region 2, and the identification induction region 4 is arranged below the collecting region 3; the flow guide area 5 is covered on the shell 1 and the killing area 2.

As shown in fig. 3, the identification sensing area 4 is provided with an identification module, a trap lamp 4-1 and a fan blade 4-2; the identification module comprises a photosensitive sensor 4-3, a capacitive sensor 4-4 and a camera 4-5; the trapping lamp 4-1 is arranged below the fan blade 4-2, the photosensitive sensor 4-3 and the capacitive sensor 4-4 are arranged at the lower part of the shell 1, and the camera 4-5 is arranged below the trapping lamp 4-1.

In this embodiment, the identification sensing area is further provided with a controller (not shown in the figure), and the controller is in communication connection with the capacitive sensor, the photosensitive sensor, the camera, the motor, the trap lamp and the like, and is used for receiving signals of the capacitive sensor, the photosensitive sensor and the camera and controlling the on/off of the motor, the trap lamp, the camera and the like.

The trapping lamp 4-1 is used for trapping insects, and the trapping lamp is turned on under the condition of insufficient light conditions, such as at night, so that the electric energy consumption of the insect killing device is reduced.

The photosensitive sensor 4-3 is arranged on the inner wall of the shell and can sense the position of light, and is used for transmitting the signal to the camera when the insects shield the light interfering the trapping and killing lamp, so that the camera judges the number of the current insects.

Two polar plates are arranged on the inner wall of the air suction port at the lower part of the shell and connected with the capacitive sensor 4-4, so that the capacitive sensor detects the capacitance value in the middle of the polar plates, and the quantity density of insects in the space can be obtained.

Fig. 4 is a schematic diagram showing insects at the bottom opening of the housing when they are sensed by the light-sensitive sensor and the capacitance sensor.

The camera 4-5 is arranged below the trapping lamp 4-1, when the photosensitive sensor and/or the capacitive sensor sense the existence of insects, the controller controls the camera to be started and collects image signals, a main control chip in the camera carries out processing such as image graying, enhancement, pooling, sharpening on the collected image signals to obtain processed images, difference value conditions of each pixel of the images are obtained through comparison of pixel value differences of the images in a previous period of time and the images in a later period of time, statistics is carried out, and when the difference value is larger, the insect activities are obvious; when the difference is small, the insect activity is not significant. The difference condition of the pixel points in the image is as follows:

Δk＝|u(t)-u(t-t0)|

where U represents the gray value of the pixel, t represents the current time, and t0 represents the minimum time of environmental change.

It should be noted that the camera can be turned on after receiving signals of the photosensitive sensor and/or the capacitive sensor, so as to reduce the power consumption of the insect killing device; the opening of the camera can also be opened when the device is started, so that the images of the insects can be acquired in real time, and the quantity can be accurately judged. The specific setting can be more practical.

Photosensitive sensor, capacitive sensor, camera can the isolated operation, also can the combined operation, specifically is: signals acquired by the photosensitive sensor and the capacitive sensor can be directly transmitted to the controller, and the controller judges the quantity of the signals; the photosensitive sensor and the capacitance sensor can also send the acquired signals to the camera, and the camera judges the number and transmits the judgment result to the controller.

The recognition induction area is also provided with a motor (not shown in the figure), the motor is controlled by the controller, and after the controller acquires a signal output by the camera, the motor is controlled to rotate in the forward direction, so that the fan blades are driven to rotate, and insects at the opening at the lower part of the shell are sucked into the collecting area or the killing area.

In this embodiment, after the controller receives the signal sent by the camera, it is determined whether the number of insects at the opening at the lower part of the housing is smaller than a preset threshold, and when it is determined that the number of insects is smaller than the preset threshold, the motor is controlled to rotate at low power, so that the fan blades rotate at low speed to suck the insects into the collecting region; when the judgment result shows that the insect pest is larger than or equal to the preset threshold value, the motor is controlled to rotate at normal power, and then the fan blades rotate at high speed so as to suck insects into the collecting area or the killing area.

As shown in fig. 3, the killing area 2 comprises an electric shock net 2-1, the electric shock net 2-1 is in a hollow round table shape, a small opening is formed at one end, the opening at the other end is the same as the opening at the upper end of the shell in size, so that insects can be sucked into the electric shock net; when the insects are brought to the electric shock net by the airflow of the fan blades, the insects get an electric shock after impacting the electric shock net, so that the insects die or lose mobility, and then fall off from the electric shock net under the action of gravity and finally fall into a collection area; when the insects after electric shock are stuck on the electric shock net and can not fall off, the fan blades rotate reversely through the reverse rotation motor, and the insects remained on the electric shock net fall off to the collecting area through wind power. Fig. 5 is a schematic view showing an insect placed on a click net.

In this embodiment, the electric shock net is electrified when the number of insects is large, so that the power consumption of the insecticidal lamp can be effectively reduced.

As shown in fig. 3, the collecting region 3 is provided with a collecting box 3-1, the collecting box is in a hollow inverted truncated cone shape, one side of the collecting box close to the electric shock net is opened, the size of the opening is smaller than that of the opening of the killing region, and one side far away from the electric shock net is closed, so that the collecting box is used for collecting insects falling off the electric shock net, and the insects which are electrically shocked are prevented from scattering everywhere to cause pollution.

In this embodiment, a chemical attractant and an insect pheromone for attracting insects are also placed in the collection box 3-1; insect pheromones are continuously emitted through small openings above the collecting box and the electric shock net to induce insects to be in the opening below the shell and to fall into the collecting box based on the fan blades, and then the insects are killed through the chemical attractant.

Fig. 6 shows a schematic view of the insects falling into the collection box.

As shown in fig. 3, the diversion area 5 is provided with a diversion cover 5-1 covering the upper half part of the housing and the killing area, and the diversion cover 5-1 is funnel-shaped, so as to divert the information emitted by the insect pheromone. FIG. 7 is a schematic diagram showing the route of information emitted by the insect pheromone.

The kuppe of this embodiment design except can carrying out the water conservancy diversion to the information that insect pheromone distributes, can also realize inducing the insect and fly to the upper end opening part of electric shock net through the kuppe, and then guide it to fly into and kill in the motor net.

In this embodiment, an implementation method of an energy-saving air-suction type insecticidal lamp trapping device is as follows:

when being in the daytime, arrange the insect pheromone of collecting the box in and continuously give off information, and the medium change of capacitive sensor response capacitance polar plate, when sensing the change, the camera is judged to be in the insect quantity that can follow below opening play through the image judgement, if judge when obtaining insect quantity and be less than the predetermined threshold value, controller control motor low-power rotates, and then drive fan blade low-speed rotation, in order to inhale the collection box with the insect in through wind-force and the flight of insect self, kill the insect through the chemical attractant in the collection box, the insect is detained in the collection box.

When the number of the insects is judged to be larger than the preset threshold value, the controller controls the motor to rotate at normal power, so that the fan blades are driven to rotate at high speed, the insects are sucked into the electric shock net and/or the collecting box through wind power and the flying of the insects, when the insects are sucked into the collecting box, the insects are killed through the chemical attractant, and the insects are retained in the collecting box; when the insects are sucked into the electric shock net, the insects get an electric shock after impacting the electric shock net, so that the insects die or lose mobility, then the insects fall off from the electric shock net under the action of gravity, finally fall into the collecting area, and when the insects falling into the collecting area do not die, the insects are killed under the action of the chemical attractant; when the insects after electric shock are stuck on the electric shock net and can not fall off, the fan blades rotate reversely through the reverse rotation motor, and the insects remained on the electric shock net fall off to the collecting area through wind power.

In the present embodiment, when at night, unlike the implementation method when in the daytime, the method is:

still open including the lamp of trapping and killing, can trap and kill the lamp and be attracted when the insect is in casing lower part opening part, and the insect is when discerning the induction zone activity, and the insect can shelter from the light of trapping and killing the lamp, and photosensitive sensor conveys the information transfer who senses this moment to the camera, and then carries out subsequent processing, subsequent processing is similar with daytime.

Compared with the prior art, the embodiment has the following beneficial effects:

1. the fan blades are started at full speed to suck the insects only when the number of the insects is more than that of the insects, and the electric shock net is electrified at the moment, so that the electric energy consumption of the insecticidal lamp is reduced;

2. the insect quantity is judged by photosensitive shielding detection and inductive detection of capacitance plate medium change, and a camera is used for assisting, so that the efficiency is high;

3. the camera is installed in trapping lamp below, strikes light with the help of the light of insecticidal lamp night, has solved the not enough problem that need strike light of night luminance. Meanwhile, the object shot by the camera is not the killed insect but the insect flying outside, so that the complete shape of the insect can be shot, and the identification is more accurate;

4. the method of trapping and killing by chemical and physical light is adopted, and when the trapping and killing light cannot be used in the daytime, insects are trapped by blowing chemical trapping and killing agents, insect pheromones and the like;

5. the electric shock net is cleaned by reversely rotating the motor at regular time, so that the trouble of manual cleaning is reduced;

6. the ventilation channel with special design can make the insect-luring smell diffuse and simultaneously suck insects.

7. The device has simple structure and low cost, and does not need fussy design.

Example two

The embodiment provides an energy-saving air-suction type insect killing lamp trapping method, which comprises the following steps:

s1, receiving quantity information of insects acquired by an identification module;

s2, judging whether the number information of the received insects is larger than a preset threshold value or not, if so, executing a step S3;

and S3, controlling the motor to work to drive the fan blades to rotate forwards at a high speed to generate suction force, so that the insects fall into the collecting box through the electric shock net.

Further, step S1 is preceded by:

s0. controls the trap lamp to turn on.

Further, the step S2 of determining whether the received information on the number of insects is greater than the preset threshold further includes:

if the received quantity information of the insects is smaller than the preset threshold value, the motor is controlled to work to drive the fan blades to rotate at a low speed to generate suction force, and the chemical attractant in the collecting area attracts the insects so that the insects fall into the collecting box.

Further, the step S3 further includes:

the motor is controlled to drive the fan blades to rotate reversely, so that insects on the electric shock net fall into the collecting box.

It should be noted that the trapping method of the energy-saving air-suction type insecticidal lamp provided in this embodiment is similar to that of the embodiment, and details are not repeated herein.

Compared with the prior art, the air-suction type insecticidal lamp trapping method based on image recognition insect quantity sensing not only can sense the quantity of insects, but also can adjust the killing efficiency of the insecticidal lamp in time according to the quantity of the insects, and for example, the power of a fan is adjusted under the condition that the quantity of surrounding insects is rare so as to achieve the effect of saving energy.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. An energy-saving air-suction type insect killing lamp trapping device comprises a shell with an upper opening and a lower opening, and is characterized in that a killing area is arranged above the shell, and a collecting area and an identification induction area are arranged in the shell; the collecting region is arranged below the killing region, and the identification sensing region is arranged below the collecting region; wherein the killing area is provided with an electric shock net, the collecting area is provided with a collecting box, and the identification induction area is provided with an identification module, a trap lamp and a fan blade; the fan blade sets up in collecting the box below, and the lamp that traps and kills sets up in the fan blade below, and identification module sets up in the casing lower part.

2. The energy-saving air-suction type insecticidal lamp trapping device according to claim 1, wherein the identification module comprises a photosensitive sensor, a capacitive sensor, a camera; the photosensitive sensor and the capacitance sensor are arranged at the lower part of the shell, and the camera is arranged below the trapping lamp; the photosensitive sensor is used for acquiring a signal shielded by the insect; the capacitance sensor is used for sensing the number density of insects; the camera is used for acquiring image information of the insects.

3. The energy-saving air-suction insect lamp trapping device according to claim 1, wherein a flow guiding area is covered above the housing.

4. The energy-saving air-suction type insecticidal lamp trapping device according to claim 1, wherein the collecting region is provided with a chemical attractant and an insect pheromone.

5. The energy-saving air-suction type insecticidal lamp trapping device according to claim 1, wherein the identification sensing area is further provided with a motor, and the motor is used for driving the fan blades to rotate.

6. The energy-saving air-suction type insecticidal lamp trapping device according to claim 5, wherein the identification sensing area is further provided with a controller, and the controller is used for controlling the rotation of the motor and the on/off of the trap lamp.

7. A trapping method of the energy-saving air-suction type insecticidal lamp trapping device based on any one of claims 1-6, characterized by comprising the following steps:

s1, receiving quantity information of insects acquired by an identification module;

s2, judging whether the number information of the received insects is larger than a preset threshold value or not, if so, executing a step S3;

and S3, controlling the motor to work to drive the fan blades to rotate forwards at a high speed to generate suction force, so that the insects fall into the collecting box through the electric shock net.

8. The energy-saving air-suction type insecticidal lamp trapping method according to claim 7, wherein the step S1 is preceded by:

s0. controls the trap lamp to turn on.

9. The method for trapping energy-saving wind-absorbing type insecticidal lamps according to claim 8, wherein the step S2 of determining whether the received information on the number of insects is greater than the preset threshold value further comprises:

if the received quantity information of the insects is smaller than the preset threshold value, the motor is controlled to work to drive the fan blades to rotate at a low speed to generate suction force, and the chemical attractant in the collecting area attracts the insects so that the insects fall into the collecting box.

10. The energy-saving air-suction type insecticidal lamp trapping method according to claim 7, wherein the step S3 further comprises:

the motor is controlled to drive the fan blades to rotate reversely, so that insects on the electric shock net fall into the collecting box.

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