CN113545327B - Insect killing lamp based on agricultural ecological environment protection technology - Google Patents

Abstract

The invention relates to a pest control lamp based on an agricultural ecological environment-friendly technology, which comprises a lamp post, a lamp holder, a metal electric shock net, a pest inducing lamp source and a protective shell, wherein the lamp holder comprises a top seat and a base, the top seat is installed on the lamp post through a fixing part, the pest inducing lamp source is installed in the center of the lamp holder, the metal electric shock net is sleeved outside the pest inducing lamp source, the protective shell is sleeved outside the metal electric shock net, the lamp holder is provided with an annular chute, the protective shell is rotatably connected with the lamp holder through the chute, the side wall of the protective shell is provided with an inlet for insects to enter, and a wind shield is installed outside the protective shell.

Description

Insect killing lamp based on agricultural ecological environment protection technology

Technical Field

The invention belongs to the technical field of insect-killing lamps, and particularly relates to an insect-killing lamp based on an agricultural ecological environment-friendly technology.

Background

The insect-killing lamp is a special device which is used for trapping insects and effectively killing the insects, reducing the indexes of diseases and insects and preventing and controlling 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.

Patent document CN112741061A discloses a high-efficient LED bugZapper in energy-saving farmland, through setting up insect luring LED purple light lamp, can tend to make the insect fly around transparent lampshade in the cylindricality casing, the insect need pass polylith heat absorption otter board, has further increased the contact probability of insect with the heat absorption otter board, and the heat absorption otter board passes through the heat conduction silk and contacts with the lamp plate, and the temperature is higher, kills the insect that will be close to, plays good deinsectization effect.

Patent document CN112273348A discloses a frequency conversion type solar insect killing lamp, which uses an intelligent controller connected to a lamp tube to adjust and change the lamp tube to emit ultraviolet light with different wavelengths to induce different insects, and uses a high voltage network to kill insects induced by low temperature plasma generated by the discharge of the ultraviolet light emitted by the lamp tube.

The insects are killed through the high-voltage metal electric shock net arranged outside the trap lamp, the high-voltage metal electric shock net is exposed in the atmospheric environment, plants are more in farmlands, the farmlands have wide terrain, when wind power is high, some leaf branches are easy to be entrained to scatter in the atmosphere, when the dried leaf branches are attached to the high-voltage metal electric shock net along with the wind power, and the insects are shocked by the high-voltage metal electric shock net to generate sparks, the leaf branches are easy to be ignited, the insect killing lamp is damaged slightly, the burning branches and leaves and the like fall into the plants seriously, fire disasters can be caused, and serious safety accidents are caused.

Disclosure of Invention

Therefore, the invention provides the insect killing lamp based on the agricultural ecological environment-friendly technology, which avoids the contact between combustible objects and the metal electric shock net while not influencing the attraction of the insect attracting lamp source to insects, and avoids the occurrence of fire to a certain extent.

The technical scheme of the invention is realized as follows:

the invention provides an insect killing lamp based on an agricultural ecological environment-friendly technology, which comprises a lamp post, a lamp holder, a metal electric shock net, an insect attracting lamp source and a protective shell, wherein the lamp holder comprises a top seat and a base, the top seat is installed on the lamp post through a fixing part, the insect attracting lamp source is installed in the center of the lamp holder, the metal electric shock net is sleeved outside the insect attracting lamp source, the protective shell is sleeved outside the metal electric shock net, the lamp holder is provided with an annular sliding groove, the protective shell is rotatably connected with the lamp holder through the sliding groove, the side wall of the protective shell is provided with an inlet for insects to enter, and the outer side of the protective shell is provided with a wind shield.

Preferably, the inlet is in the shape of a horizontal circular arc, and the inlet is distributed on the circumferential side wall of the protective shell in parallel.

Preferably, a collecting groove is formed in the center of the base, a pest collecting hopper is installed on the lower surface of the base, and the lamp holder is communicated with the pest collecting hopper through the collecting groove.

Preferably, the insect collecting hopper is in threaded connection with the base.

Preferably, still include position control subassembly, insect detecting element and control box, the base upper surface has outwards set gradually first circular orbit and the circular orbit of second by the center, first circular orbit passes through vertical track and the circular orbit intercommunication of second, metal electric shock net bottom is provided with the location slider, the location slider is located the circular orbit of second, the control box sets up in the roof top, be provided with the main control unit in the control box, the main control unit respectively with position control subassembly and insect detecting element data connection, the main control unit adjusts the range relation of metal electric shock net according to the data drive position control unit that insect detecting element detected.

Preferably, the position adjusting assembly comprises an electric push rod, a rotating motor, a rotating rod, a first electromagnet, a second electromagnet, a third electromagnet and a fourth electromagnet, a metal plate is arranged at the top of the electric push rod and slides to be arranged on the lower surface of the top plate, the electric push rod is arranged on the outer side of the metal electric shock net, the rotating motor is arranged on the upper surface of the top plate, an output shaft of the rotating motor stretches into the top plate, the rotating rod is arranged inside the top plate and connected with an output shaft of the rotating motor, the first electromagnet, the second electromagnet and the third electromagnet are arranged on the rotating rod, the first electromagnet is arranged above the first circular track, the second electromagnet is arranged above the second circular track, the third electromagnet is arranged above the metal plate, the fourth electromagnet is arranged at the end part of the output shaft of the electric push rod, and the main control unit is respectively in data connection with the electric push rod, the rotating motor, the first electromagnet, the second electromagnet, the third electromagnet and the fourth electromagnet.

Preferably, the insect detection unit includes laser radar, laser radar sets up in the roof side to be located the metal electric shock net outside, main control unit and laser radar data connection.

Preferably, the insect detection unit further comprises a photoelectric detection tube, the photoelectric detection tube is arranged on the bottom surface of the top plate and located on one side of the metal electric shock net, and the main control unit is in data connection with the photoelectric detection tube.

Preferably, the inside insect collecting hopper is divided into a plurality of insect collecting cavities through the partition plates, the insect collecting cavities are located below the metal electric shock net, the insect detecting unit comprises a weighing sensor, the weighing sensor is arranged at the bottom of the insect collecting cavities, and the main control unit is in data connection with the weighing sensor.

Preferably, the main control unit includes weighting unit, monocycle insect quantity calculation unit, insect quantity accumulation unit and the control unit, weighting unit respectively with laser radar, photoelectric detection pipe, weighing sensor and monocycle insect quantity calculation unit data connection, insect quantity accumulation unit and monocycle insect quantity calculation unit data connection, the control unit respectively with monocycle insect quantity calculation unit, insect quantity accumulation unit and position control subassembly data connection.

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

the invention provides an insect killing lamp based on an agricultural ecological environment-friendly technology, insects are attracted by an insect attracting lamp source, the insects are electrically shocked by a metal electric shock net in the process of flying towards the insect attracting lamp source through an inlet of a protective shell, and the insects after electric shock fall into an insect collecting hopper to be collected, so that the insects can be attracted and killed. Protective housing protects the metal electric shock net, when not influencing the attractability of insect trapping lamp source to the insect, separate combustible object and metal electric shock net, avoid combustible object and metal electric shock net to take place the contact, the emergence of conflagration has been stopped to a certain extent, the deep bead can be when receiving the wind power effect, drive protective housing and rotate, will be attached in the object in the protective housing outside throws away to the rear, avoid withered branches and withered leaves or plastic bag etc. to cause the shutoff to protective housing's entry, ensure the noncongestion of entry, in order to keep the effect of killing of insect trapping lamp to the insect.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic front view of a first embodiment of the present invention;

FIG. 2 is a top cross-sectional view of a lamp socket according to an embodiment of the present invention;

FIG. 3 is an exploded view of a second embodiment of the present invention;

fig. 4 is a schematic view of an internal structure of a lamp socket according to a second embodiment of the present invention;

fig. 5 is a schematic block diagram of a second embodiment of the present invention.

In the figure, 1 lamp pole, 2 top seat, 3 base, 4 metal electric shock net, 5 insect attracting lamp source, 6 protective shell, 7 inlet, 8 wind shield, 9 collecting tank, 10 insect collecting hopper, 11 insect detecting unit, 12 control box, 13 first circular track, 14 second circular track, 15 vertical track, 16 positioning slider, 17 main control unit, 18 electric push rod, 19 rotating motor, 20 rotating rod, 21 first electromagnet, 22 second electromagnet, 23 third electromagnet, 24 fourth electromagnet, 25 metal plate, 26 laser radar, 27 photoelectric detecting tube, 28 partition board, 29 insect collecting cavity, 30 weighing sensor, 31 weighting unit, 32 single-period insect quantity calculating unit, 33 insect quantity accumulating unit and 34 control unit.

Detailed Description

In order to better understand the technical content of the invention, specific embodiments are provided below, and the invention is further described with reference to the accompanying drawings.

Example one

Referring to fig. 1 to 2, the invention provides an agricultural ecological environment protection technology-based insect killing lamp, which comprises a lamp post 1, a lamp holder, a metal electric shock net 4, an insect attracting lamp source 5 and a protective shell 6, wherein the lamp holder comprises a top seat 2 and a base 3, the top seat 2 is installed on the lamp post 1 through a fixing part, the insect attracting lamp source 5 is installed in the center of the lamp holder, the metal electric shock net 4 is sleeved on the outer side of the insect attracting lamp source 5, the protective shell 6 is sleeved on the outer side of the metal electric shock net 4, an annular chute is formed in the lamp holder, the protective shell 6 is rotatably connected with the lamp holder through the chute, an inlet 7 for insects to enter is formed in the side wall of the protective shell 6, and a wind shield 8 for driving the protective shell 6 to rotate is installed on the outer side of the protective shell 6.

The insect killing lamp based on the agricultural ecological environment protection technology is used for attracting and killing insects, wherein the metal electric shock net 4 is arranged on the outer side of the insect attracting lamp source 5, the insect attracting lamp source 5 is covered in the insect attracting lamp source, the metal electric shock net 4 is covered in the protective shell 6, when the insect attracting lamp source 5 is started, the insects are attracted, the insects can be blocked by the metal electric shock net 4 in the process of flying towards the insect attracting lamp source 5 through the inlet 7 of the protective shell 6, the metal electric shock net 4 is connected with the alternating current power supply, the insects can be electrically shocked, and the insects after being shocked can fall into the insect collecting hopper 10 to be collected, so that the insects can be attracted and killed.

Because in planting regions such as farmland or field, combustible objects such as dead branches and dead leaves and waste plastic bags may exist, when wind blows, the combustible objects may be carried by wind power and float to the metal electric shock net 4 of the insect killing lamp, the high-temperature effect caused by the metal electric shock net 4 is easily received, when the insects are electrically shocked by the metal electric shock net 4 to generate sparks, the sparks easily ignite the combustible objects to trigger open fire, the insect killing lamp is slightly damaged, the open fire falls into plants, fire disasters may be caused, and major safety accidents are triggered. Protect metal electric shock net 4 through protecting sheathing 6, offer the entry 7 that supplies the insect to get into on protecting sheathing 6 simultaneously, do not influence the attraction of moth-killing lamp source 5 to the insect, it is separated combustible object and metal electric shock net 4 through protecting sheathing 6, avoid combustible object and metal electric shock net 4 to take place the contact, when not influencing the moth-killing, the emergence of conflagration has been stopped to a certain extent, deep bead 8 in the protecting sheathing 6 outside can be when receiving the wind power effect, drive protecting sheathing 6 and rotate, object attached in the protecting sheathing 6 outside is thrown away to the rear, avoid dry branches and dry leaves or plastic bag etc. to cause the shutoff to the entry 7 of protecting sheathing 6, ensure the unblocked of entry 7, in order to keep the effect of killing of moth-killing lamp to the insect.

The inlets 7 are in a horizontal arc shape, and the inlets 7 are distributed on the circumferential side wall of the protective shell 6 in parallel so as to enlarge the area of the insects entering the lamp holder and ensure the attracting effect of the insect attracting lamp source 5 on the insects.

A collecting groove 9 is formed in the center of the base 3, a pest collecting hopper 10 is installed on the lower surface of the base 3, and the lamp holder is communicated with the pest collecting hopper 10 through the collecting groove 9.

The insect collecting hopper 10 is in threaded connection with the base 3. The insect free fall who is shocked by metal electric shock net 4 drops through collecting vat 9 and collects in collection worm fill 10, through the connection of screw thread formula, conveniently with collection worm fill 10 back spin base 3, convenient follow-up unified processing to the insect of trapping and killing.

Example two

Referring to fig. 3 to 5, the difference between the first embodiment and the second embodiment is that the electric shock device further includes a position adjusting assembly, an insect detecting unit 11, and a control box 12, a first circular rail 13 and a second circular rail 14 are sequentially arranged on the upper surface of the base from the center to the outside, the first circular rail 13 is communicated with the second circular rail 14 through a vertical rail 15, a positioning slider 16 is arranged at the bottom of the metal electric shock net 4, the positioning slider 16 is located in the second circular rail 14, the control box 12 is arranged above the top plate, a main control unit 17 is arranged in the control box 12, the main control unit 17 is respectively in data connection with the position adjusting assembly and the insect detecting unit 11, and the main control unit 17 drives the position adjusting unit to adjust the arrangement relationship of the metal electric shock net 4 according to the data detected by the insect detecting unit 11.

Because insects are concentrated in one direction in some regions, when the insects are trapped and killed, the insects are basically shocked by one side of the metal electric shock net 4, the number of the electric shock nets 4 in other regions is small, and in order to ensure that each region of the metal electric shock net 4 can shock the insects, in the embodiment, the metal electric shock net 4 is arranged into a plurality of movable forms, the number of the metal electric shock nets 4 is preferably 4, the metal electric shock nets 4 are combined into a cylindrical shape and then cover the outer side of the insect trapping lamp source 5, the base is provided with a first circular track 13 and a second circular track 14, the first circular track 13 and the second circular track 14 are arranged in a concentric circle mode, the diameter of the second circular track 14 is larger than that of the first circular track 13, the first circular track 13 is communicated with the second circular track 14 through a vertical track 15, and the number of the vertical tracks 15 is consistent with that of the metal electric shock nets 4, the bottom of the metal electric shock net 4 is provided with a positioning slide block 16, under normal conditions, the metal electric shock net 4 is positioned in the second circular track 14, after one period of deinsectization, the insect detection unit 11 can detect the number of insects in each direction, then the main control unit 17 can adjust the position of the metal electric shock net 4 through the position adjusting component, part of the metal electric shock net 4 is moved into the first circular track 13, then the position of the rest metal electric shock net 4 positioned in the second circular track 14 is changed, finally the metal electric shock net 4 in the first circular track 13 is moved into the second circular track 14 after the position of the metal electric shock net 4 is changed, so that the change of the arrangement relation of the metal electric shock nets 4 is realized, the metal electric shock net 4 with the smaller number of deinsectization can be transferred to one direction with the larger number of insects through the control of the main control unit 17, finally, the four metal electric shock nets 4 can evenly and comprehensively shock the insects, and the insect corpses can be evenly adhered to the metal electric shock nets 4, so that the whole replacement or cleaning can be carried out, and the working strength of workers is reduced.

The position adjusting assembly comprises an electric push rod 18, a rotating motor 19, a rotating rod 20, a first electromagnet 21, a second electromagnet 22, a third electromagnet 23 and a fourth electromagnet 24, a metal plate 25 is arranged at the top of the electric push rod 18, the metal plate 25 is arranged on the lower surface of a top plate in a sliding mode, the electric push rod 18 is located on the outer side of a metal electric shock net 4, the rotating motor 19 is arranged on the upper surface of the top plate, an output shaft of the rotating motor extends into the top plate, the rotating rod 20 is arranged inside the top plate and connected with an output shaft of the rotating motor 19, the first electromagnet 21, the second electromagnet 22 and the third electromagnet 23 are arranged on the rotating rod 20, the first electromagnet 21 is located above a first circular track 13, the second electromagnet 22 is located above a second circular track 14, the third electromagnet 23 is located above the metal plate 25, the fourth electromagnet 24 is arranged at the end portion of the output shaft of the electric push rod 18, and the main control unit 17 is in data connection with the electric push rod 18, the rotating motor 19, the first electromagnet 21, the second electromagnet 22, the third electromagnet 23 and the fourth electromagnet 24.

When the position of the metal electric shock net 4 is adjusted, firstly, the main control unit 17 controls the rotating motor 19 to drive the rotating rod 20 to rotate, at this time, the third electromagnet 23 on the rotating rod 20 is electrified, so that the third electromagnet 23 can drive the electric push rod 18 to rotate, then the electric push rod 18 can sequentially push the positioning sliders 16 of two opposite metal electric shock nets 4 to move to the first circular track 13 along the vertical sliding groove, after the metal electric shock net 4 is pushed into the first circular track 13, the power supply of the third electromagnet 23 is cut off, then the main control unit 17 controls the second electromagnet 22 to be electrified, when the second electromagnet 22 rotates along with the rotating rod 20, the metal electric shock net 4 on the second circular track 14 is driven to move, so that the position of the metal electric shock net 4 on the second circular track 14 can be changed, after the position of the metal electric shock net 4 on the second circular track 14 is adjusted, the energization of the second electromagnet 22 is cut off, and the first electromagnet 21 is controlled to be energized, so that the first electromagnet 21 can drive the metal electric shock net 4 on the first circular track 13 to move to a corresponding position, then the rotating rod 20 drives the metal plate 25 and the electric push rod 18 to move to one side of the metal electric shock net 4 on the first circular track 13 through the third electromagnet 23, after the output shaft of the electric push rod 18 extends to one side of the metal electric shock net 4, the metal electric shock net 4 is magnetically attracted through the fourth electromagnet 24 on the output shaft of the electric push rod, then the metal electric shock net 4 on the first circular track 13 is pulled to the second circular track 14 along the vertical track 15, a cylindrical structure is formed again, and the position adjustment of all the metal electric shock nets 4 is realized.

Insect detecting element 11 includes laser radar 26, laser radar 26 sets up in the roof side to be located the metal electric shock net 4 outside, main control unit 17 and laser radar 26 data connection.

The insect detection unit 11 further comprises a photoelectric detection tube 27, the photoelectric detection tube 27 is arranged on the bottom surface of the top plate and is positioned on one side of the metal electric shock net 4, and the main control unit 17 is in data connection with the photoelectric detection tube 27.

When the insects contact with the metal electric shock net 4, an electric shock occurs and flash light is generated, the arranged photoelectric detection tube 27 can detect the flash light when the electric shock occurs, the flash light is used as the basis for insect quantity statistics, and the main control unit 17 judges the quantity of the insects.

The inside a plurality of album worm chambeies 29 that divide into through baffle 28 of collection worm fill 10, collection worm chamber 29 is located metal electric shock net 4 below, insect detecting element 11 includes weighing sensor 30, weighing sensor 30 sets up in album worm chamber 29 bottom, main control unit 17 and weighing sensor 30 data connection.

The quantity of insect collecting cavity 29 is the same as the quantity of metal electric shock net 4 to the metal electric shock net 4 below that the one-to-one set up, when the insect was hit by metal electric shock net 4 electricity, can drop in insect collecting cavity 29, the weighing sensor 30 that sets up in insect collecting cavity 29 can detect the weight of insect, thereby main control unit 17 can judge insect quantity according to the weight of insect.

The main control unit 17 comprises a weighting unit 31, a single-period insect quantity calculating unit 32, an insect quantity accumulating unit 33 and a control unit 34, wherein the weighting unit 31 is in data connection with the laser radar 26, the photoelectric detection tube 27, the weighing sensor 30 and the single-period insect quantity calculating unit 32 respectively, the insect quantity accumulating unit 33 is in data connection with the single-period insect quantity calculating unit 32, and the control unit 34 is in data connection with the single-period insect quantity calculating unit 32, the insect quantity accumulating unit 33 and the position adjusting component respectively.

The weighting unit 31 performs weighting operation according to data detected by the laser radar 26, the photoelectric detection tube 27 and the weighing sensor 30, obtains final insect quantity data, and then transmits the insect quantity data to the single-cycle insect quantity calculating unit 32, and the control unit 34 can obtain the insect quantity data in each direction according to different single-cycle insect quantity calculating units 32, so that the position and the arrangement relation of the metal electric shock net 4 can be adjusted according to the insect quantity.

The invention adjusts the position of the metal electric shock net 4 not only once, but also after a certain period, therefore, after a plurality of periods, the position adjustment needs to be carried out by integrating the insect number detected by each metal electric shock net 4 in a single period and the accumulated insect number, the main control unit 17 is provided with an insect number accumulation unit 33 for accumulating the total quantity of insects at each position, when the insect number in a single period shows that the insect numbers in a plurality of directions are basically consistent, the control unit 34 can judge which direction has the largest insect number according to the insect number accumulation unit 33, and then the position adjustment of the metal electric shock net 4 is carried out.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. A deinsectization lamp based on agricultural ecological environment protection technology is characterized by comprising a lamp pole, a lamp holder, a metal electric shock net, a trap lamp source and a protective shell, wherein the lamp holder comprises a top seat and a base, the top seat is installed on the lamp pole through a fixing part, the trap lamp source is installed in the center of the lamp holder, the metal electric shock net is sleeved outside the trap lamp source, the protective shell is sleeved outside the metal electric shock net, an annular chute is formed in the lamp holder, the protective shell is rotatably connected with the lamp holder through the chute, an inlet for insects to enter is formed in the side wall of the protective shell, a wind shield is installed on the outer side of the protective shell, the deinsectization lamp further comprises a position adjusting component, an insect detecting unit and a control box, a first circular track and a second circular track are sequentially arranged on the upper surface of the base from the center to the outside, the first circular track is communicated with the second circular track through the vertical track, a positioning sliding block is arranged at the bottom of the metal electric shock net, the positioning sliding block is located in the second circular track, the control box is arranged above the top plate, a main control unit is arranged in the control box and is respectively in data connection with a position adjusting assembly and an insect detection unit, the main control unit drives the position adjusting unit to adjust the arrangement relation of the metal electric shock net according to data detected by the insect detection unit, the position adjusting assembly comprises an electric push rod, a rotating motor, a rotating rod, a first electromagnet, a second electromagnet, a third electromagnet and a fourth electromagnet, a metal plate is arranged at the top of the electric push rod, the metal plate is arranged on the lower surface of the top plate in a sliding manner, the electric push rod is located on the outer side of the metal electric shock net, and the rotating motor is arranged on the upper surface of the top plate, inside its output shaft stretched into the roof, the rotary rod setting was inside the roof to with rotating electrical machines output shaft, first electro-magnet, second electro-magnet and third electro-magnet set up on the rotary rod, first electro-magnet is located first circular orbit top, the second electro-magnet is located second circular orbit top, the third electro-magnet is located the metal sheet top, the fourth electro-magnet sets up the tip at the electric putter output shaft, the main control unit respectively with electric putter, rotating electrical machines, first electro-magnet, second electro-magnet, third electro-magnet and fourth electro-magnet data connection.

2. An agricultural ecological environment protection technology-based insect killing lamp according to claim 1, wherein the inlet is in the shape of a horizontal circular arc and is distributed on the circumferential side wall of the protective housing in parallel.

3. An agricultural ecological environment protection technology-based insect killing lamp according to claim 2, wherein a collecting groove is formed in the center of the base, an insect collecting hopper is mounted on the lower surface of the base, and the lamp holder is communicated with the insect collecting hopper through the collecting groove.

4. An agricultural ecological environment protection technology-based insect killing lamp according to claim 3, wherein the insect collecting hopper is in threaded connection with the base.

5. An agricultural ecological environment protection technology-based insect killing lamp according to claim 3, wherein the insect detection unit comprises a laser radar, the laser radar is arranged on the side surface of the top plate and located on the outer side of the metal electrode mesh, and the main control unit is in data connection with the laser radar.

6. The pest control lamp based on the agroecological environmental protection technology as claimed in claim 5, wherein the insect detection unit further comprises a photoelectric detection tube, the photoelectric detection tube is arranged on the bottom surface of the top plate and is located on one side of the metal electric shock net, and the main control unit is in data connection with the photoelectric detection tube.

7. The pest control lamp based on the agroecological environment-friendly technology as claimed in claim 6, wherein the inside of the pest collecting hopper is divided into a plurality of pest collecting chambers by partition plates, the pest collecting chambers are located below the metal electric shock net, the insect detecting unit comprises a weighing sensor, the weighing sensor is arranged at the bottom of the pest collecting chambers, and the main control unit is in data connection with the weighing sensor.

8. The pest control lamp based on the agroecological environmental protection technology as claimed in claim 7, wherein the main control unit comprises a weighting unit, a single-cycle insect quantity calculation unit, an insect quantity accumulation unit and a control unit, the weighting unit is respectively in data connection with the laser radar, the photoelectric detection tube, the weighing sensor and the single-cycle insect quantity calculation unit, the insect quantity accumulation unit is in data connection with the single-cycle insect quantity calculation unit, and the control unit is respectively in data connection with the single-cycle insect quantity calculation unit, the insect quantity accumulation unit and the position adjustment component.

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