CN106195891A - A kind of solar energy gardens insecticide with automatic cleaning function flutters collection lamp and method of work thereof - Google Patents

Abstract

The invention discloses a kind of solar energy gardens insecticide with automatic cleaning function and flutter collection lamp and method of work thereof, solar collecting device, solar collecting device bracing frame, lampshade, insecticide flutter acquisition means, carriage of lampshade, controller form；The solar energy that daytime collects is converted into electrical power storage in accumulator by solar collecting device, flutter acquisition means for insecticide and power supply is provided, insecticide flutters acquisition means and utilizes insecticide phototactic characteristics of living, and by high-voltage fence by insecticide electrocution of living, thus reaches insecticide and flutters collection effect.A kind of solar energy gardens insecticide with automatic cleaning function of the present invention flutters collection lamp, and this plant automation degree is high, and it is effective that insecticide flutters collection, makes full use of solar energy resources, energy-conserving and environment-protective.

Description

A kind of solar energy gardens insecticide with automatic cleaning function flutters collection lamp and work thereof Method

Technical field

The invention belongs to insecticide and flutter collection lamp technical field, be specifically related to a kind of solar energy gardens with automatic cleaning function Insecticide flutters collection lamp.

Background technology

Most domestic anthelmintic is proved to be to be harmful to the chemical substance of human health and bad environmental at present.And the sun Can drive insect lamp saving power and preventing pollution dye, to human body fanout free region, use cost is low, will be used widely；In prior art, drive insecticide Lamp mostly is that to drive insecticide fluorescent tube the most exposed outside, drives insecticide fluorescent tube and becomes easily infected by dust and be not easily cleaned, drives insecticide simultaneously It is also the most damaged that fluorescent tube lacks necessary protection.

Summary of the invention

In order to solve above-mentioned technical problem, the present invention provides a kind of solar energy gardens insecticide with automatic cleaning function to flutter Collection lamp, including: solar collecting device 1, solar collecting device bracing frame 2, lampshade 3, insecticide flutters acquisition means 4, and lampshade supports Frame 5, controller 6；Described solar collecting device bracing frame 2 profile is L shape, solar collecting device bracing frame 2 one end with Solar collecting device 1 is fixing to be connected, and solar collecting device bracing frame 2 other end is fixing with carriage of lampshade 5 to be connected；Described Carriage of lampshade 5 upper end is fixedly connected with lampshade 3, the described lampshade 3 trapezoidal structure of upper cover；Described insecticide flutters acquisition means 4 and is positioned at Lampshade 3 center；Described controller 6 is fixedly mounted on carriage of lampshade 5.

Further, described solar collecting device 1 includes: solar panel 1-1, the sun blind photodetector 1-2, Drive motor 1-3, rotary shaft 1-4, fastener shaft 1-5；The wherein said sun blind photodetector 1-2 quantity is 2, the blind light of the sun Electric explorer 1-2 is distributed in solar panel 1-1 length direction both side ends center, and symmetrical above and below along horizontal line Arrangement；Described rotary shaft 1-4 is positioned at below solar panel 1-1, and rotary shaft 1-4 is Rectangular Plate Structure, rotary shaft 1-4 center Have the rotation slot of oval structure, rotary shaft 1-4 by rotation slot and fastener shaft 1-5 chain connection, rotary shaft 1-4 top with Solar panel 1-1 lower surface is fixing to be connected；Described fastener shaft 1-5 extends vertically through solar collecting device bracing frame 2 top, Fastener shaft 1-5 does coaxial rotating motion under the effect driving motor 1-3, and described driving motor 1-3 is positioned at fastener shaft 1-5 mono- End；

The described sun blind photodetector 1-2, driving motor 1-3 control to be connected with controller 6 by wire respectively.

Further, described insecticide flutters acquisition means 4 and includes: electricity insecticide trapper 4-1, cleaning device 4-2, stores up insecticide dish 4- 3, sunlight brightness detector 4-4；Wherein said electricity insecticide trapper 4-1 is positioned at cleaning device 4-2 inside center, and insecticide flutters electricity Storage 4-1 outer surface is in close contact with cleaning device 4-2 interior surface；Described storage insecticide dish 4-3 is positioned at electricity insecticide trapper Immediately below 4-1, storage insecticide dish 4-3 is circular configuration；Described sunlight brightness detector 4-4 is fixedly mounted under lampshade 3 upper cover Surface, outside distance lampshade 3,25cm～40cm, sunlight brightness detector 4-4 are photoconductive resistance；

Described sunlight brightness detector 4-4 is connected with controller 6 polygon control survey.

Further, described electricity insecticide trapper 4-1 includes: lure insect fluorescence pipe 4-1-1, high voltage shock net 4-1-2, elder brother Worm density detector 4-1-3；Wherein said lure insect fluorescence pipe 4-1-1 to be positioned at high voltage shock net 4-1-2 inside center, lure insecticide Fluorescent tube 4-1-1 is U-shaped fluorescent tube；Described high voltage shock net 4-1-2 is formed by proof copper-wire braided, and high voltage shock net 4-1-2 is rounded Network structure, high voltage shock net 4-1-2 high direct voltage is between 850V～1500V, and its short circuit current is less than 1mA；Described insecticide Density detector 4-1-3 is positioned at high voltage shock net 4-1-2 rear surface, insect density detector 4-1-3 and controller 6 wire control System connects.

Further, described cleaning device 4-2 includes: sliding rail 4-2-1, little brush 4-2-2；Wherein said little brush 4-2-2 top is arranged on sliding rail 4-2-1, and little brush 4-2-2 pumps at sliding rail 4-2-1, little electricity 4-2-2 is internally installed driver for brush；Described sliding rail 4-2-1 is stainless steel tube, and its caliber is between 1cm～2cm；

Described little brush 4-2-2 is connected with controller 6 polygon control survey.

Further, described little brush 4-2-2 shell and bristle are by macromolecular material pressing mold molding, little brush 4-2-2 Shell and the constituent of bristle and manufacture process are as follows:

One, little brush 4-2-2 shell and bristle constituent:

Count by weight, Alpha-Methyl pi-allyl-aralkyl sulfid 32～68 parts, 2,3,5,6-ptfe benzyls (1R, 3S)-3-(2, 2-dichloroethylene)-2,2-dimethyl cyclopropane carboxylic acid's ester 72～124 parts, the chloro-N-2-of 4-(4-morpholinyl) ethyl butylbenzene formyl Amine 104～152 parts, 3-(2,2-dichloroethylene)-2,2-dimethyl cyclopropionate-(1S, 3S)-REL-(R)-cyano group (3-benzene oxygen Phenyl) methyl ester 28～76 parts, (1R, S)-suitable, trans-2,2-dimethyl-3-(2,2-dichloroethylene) cyclopropane-carboxylic acid-a- Cyano group-3-phenoxy group-4-fluoro-methylbenzyl ester 93～163 parts, alpha-cyano phenoxy benzyl (1R, 3R)-3-(2,2-dibromo vinyl)-2, 2 diyl first cyclopropanecarboxylcompounds 21～64 parts, concentration be 46ppm～85ppm cyano group-(3-Phenoxyphenyl) methyl-3-(2, 2-dichloroethylene)-2,2-dimethyl cyclopropane carboxylic acid's ester 102～182 parts, d-frans-2,2-dimethyl-3-(2-first Base-1-acrylic) cyclopropane-carboxylic acid-3,4,5,6-tetrahydrochysene phthalimide ylmethyl esters 18～51 parts, methene cyclopropane-2,2- Diethyl dicarboxylate 98～167 parts, cross-linking agent 72～124 parts, 3-[(2-ethoxy) (3-aminomethyl phenyl) amino] propionitrile 26～ 82 parts, N-[5-(acetylamino)-4-[(2-bromo-4,6-dinitrophenyl) azo]-2-methoxyphenyl]-Β-alanine- 2-methoxy ethyl ester 65～112 parts, N-[2-[(2-bromo-4,6-dinitrophenyl) azo]-4-methoxyl group-5-[(phenyl first Base)-2-allylamino] phenyl] acetamide 37～86 parts, N-[5-[[2-(acetoxyl group) ethyl] (benzyl) amino]-2- [(2-chloro-4,6-dinitrophenyl) azo]-4-methoxyphenyl] acetamide 69～124 parts；

Described cross-linking agent is double (2-the ethoxy)-4-methyl benzenesulfonamide of N, N-, N, N-dicyclohexyl-2-[4-morpholinodithio time sulphonyl Any one in amine, N-acetoacetyl open-chain crown ether；

Two, little brush 4-2-2 shell and the manufacture process of bristle, comprise the steps of

1st step: add ultra-pure water 1028～1354 parts that electrical conductivity is 1.28 μ S/cm～3.42 μ S/cm in a kettle., start Agitator in reactor, rotating speed is 78rpm～135rpm, starts heat pump, makes reactor temperature rise to 52 DEG C～86 DEG C； It is sequentially added into Alpha-Methyl pi-allyl-aralkyl sulfid, 2,3,5,6-ptfe benzyl (1R, 3S)-3-(2,2-dichloroethylene)-2,2- The chloro-N-2-of dimethyl cyclopropane carboxylic acid's ester, 4-(4-morpholinyl) ethyl butylbenzene Methanamide, stirring, to being completely dissolved, regulates pH value Being 4.1～7.2, agitator speed is adjusted to 128rpm～224rpm, temperature is 76 DEG C～118 DEG C, and esterification 10～24 is little Time；

2nd step: take 3-(2,2-dichloroethylene)-2,2-dimethyl cyclopropionate-(1S, 3S)-REL-(R)-cyano group (3-benzene oxygen benzene Base) methyl ester, (1R, S)-suitable, trans-2,2-dimethyl-3-(2,2-dichloroethylene) cyclopropane-carboxylic acid-a-cyano group-3-benzene Epoxide-4-fluoro-methylbenzyl ester is pulverized, and powder diameter is 800～1600 mesh；Addition alpha-cyano phenoxy benzyl (1R, 3R)-3-(2, 2-dibromo vinyl)-2,2 diyl first cyclopropanecarboxylcompound mix homogeneously, it is laid in pallet, tiling thickness is 6mm～14mm, To use dosage be 2.6kGy～8.4kGy, energy is the alpha ray irradiation 71 of 3.0MeV～12.0MeV～125 minutes, and on an equal basis The β x ray irradiation x 63 of dosage～149 minutes；

3rd step: the mixed-powder processed through the 2nd step is dissolved in cyano group-(3-Phenoxyphenyl) methyl-3-(2,2-dichloroethylene Base)-2, in 2-dimethyl cyclopropane carboxylic acid's ester, add reactor, agitator speed is 82rpm～174rpm, and temperature is 93 DEG C ～192 DEG C, start vacuum pump and make the vacuum of reactor reach-0.14MPa～2.04MPa, keep this state response 15～31 Hour；Pressure release is also passed through radon gas, and making reacting kettle inner pressure is 0.45MPa～0.96MPa, and insulation stands 14～28 hours；Stirring Device rotating speed is promoted to 182rpm～226rpm, simultaneous reactions still pressure release to 0MPa；Be sequentially added into d-frans-2,2-dimethyl- 3-(2-methyl-1-propylene base) cyclopropane-carboxylic acid-3,4,5,6-tetrahydrochysene phthalimide ylmethyl ester, methene cyclopropane-2,2- After diethyl dicarboxylate is completely dissolved, add cross-linking agent stirring mixing so that the hydrophile-lipophile balance value of reactor solution is 6.3 ～8.8, insulation stands 6～14 hours；

4th step: when agitator speed is 122rpm～194rpm, is sequentially added into 3-[(2-ethoxy) (3-aminomethyl phenyl) ammonia Base] propionitrile, N-[5-(acetylamino)-4-[(2-bromo-4,6-dinitrophenyl) azo]-2-methoxyphenyl]-Β-aminopropan Acid-2-methoxy ethyl ester, N-[2-[(2-bromo-4,6-dinitrophenyl) azo]-4-methoxyl group-5-[(phenyl methyl)-2- Allylamino] phenyl] acetamide and N-[5-[[2-(acetoxyl group) ethyl] (benzyl) amino]-2-[(the chloro-4,6-of 2-bis- Nitrobenzophenone) azo]-4-methoxyphenyl] acetamide, promote reactor pressure so that it is reach 1.2MPa～2.2MPa, temperature It is 108 DEG C～225 DEG C, polyreaction 9～21 hours；After having reacted, reacting kettle inner pressure is down to 0MPa, is cooled to 32 DEG C ～44 DEG C, discharging, enter molding press and can be prepared by little brush 4-2-2 shell and bristle.

Further, the invention also discloses a kind of solar energy gardens insecticide with automatic cleaning function and flutter the work of collection lamp Making method, the method includes following step:

1st step: switch on power, the sunlight strength letter that the sun blind photodetector 1-2 on solar panel 1-1 will detect Number feeding back to controller 6, controller 6 controls to drive motor 1-3 to start, stop, rotary shaft according to different sunlight strength signals 1-4 rotates around fastener shaft 1-5 under the effect driving motor 1-3, thus drives solar panel 1-1 along sunlight The sun blind photodetector 1-2 side that intensity is higher rotates, and when the solar panel 1-1 anglec of rotation is more than 10 °, drives electricity Machine 1-3 stops operating；The luminous energy that daytime collects is changed into electrical power storage in accumulator by solar panel 1-1；

2nd step: sunlight brightness is monitored by sunlight brightness detector 4-4 in real time that be positioned at lampshade 3 upper cover lower surface；When When sunlight brightness detector 4-4 monitors sun level less than 10lux, feedback signal is sent out by sunlight brightness detector 4-4 Delivering to controller 6, controller 6 is opened and is lured insect fluorescence pipe 4-1-1；When sunlight brightness detector 4-4 monitors sun level During higher than 10lux, feedback signal is sent to controller 6 by sunlight brightness detector 4-4, and controller 6 cuts out and lures insect fluorescence Pipe 4-1-1；

3rd step: the insect fluorescence pipe 4-1-1 that lures being positioned at high voltage shock net 4-1-2 inside center utilizes the insecticide that lives to become the characteristic of light, The insecticide that attracts to live is near luring insect fluorescence pipe 4-1-1, and the insecticide that lives is through high voltage shock net 4-1-2, at high voltage shock net 4- Electrocuting under the high-tension electric shock effect of 1-2, the insecticide that a part electrocutes is sticky in high voltage shock net 4-1-2 surface；

4th step: the insect density on high voltage shock net 4-1-2 surface is monitored by insect density detector 4-1-3 in real time, when insecticide is close Degree detector 4-1-3 detects that the insect density on high voltage shock net 4-1-2 surface is more than 6/cm²Time, insect density detector Detection signal is sent to controller 6 by 4-1-3, and controller 6 starts little brush 4-2-2, little brush 4-2-2 along sliding rail 4-2- 1 pumps, little brush 4-2-2 will be attached to the insecticide on high voltage shock net 4-1-2 sweep drop down onto storage insecticide dish 4-3 In.

A kind of solar energy gardens insecticide with automatic cleaning function disclosed by the invention flutters collection lamp, has an advantage in that:

(1) this device utilizes solar electrical energy generation performance, energy-conserving and environment-protective；

(2) this plant automation degree is high, it is possible to the residue on automated cleaning high-voltage fence；

(3) this apparatus structure is simple, it is simple to be arranged in the greenbelt of residential quarter.

A kind of solar energy gardens insecticide with automatic cleaning function of the present invention flutters collection lamp, this plant automation journey Degree height, it is effective that insecticide flutters collection, makes full use of solar energy resources, energy-conserving and environment-protective.

Accompanying drawing explanation

A kind of solar energy gardens insecticide with automatic cleaning function that Fig. 1 is heretofore described flutters collection lamp schematic diagram.

Fig. 2 is heretofore described solar collecting device structural representation.

The insecticide that Fig. 3 is heretofore described flutters acquisition means structural representation.

Fig. 4 is heretofore described electric insecticide trapper structural representation.

Fig. 5 is heretofore described cleaning device structural representation.

Fig. 6 is that heretofore described little brush shell and the corrosion-resistant degree of bristle material are with using time variation diagram.

The insecticide that Fig. 7 is heretofore described flutters acquisition means light-operated circuit figure.

In figure 1 above～Fig. 5, solar collecting device 1, solar panel 1-1, the sun blind photodetector 1-2, drive Galvanic electricity machine 1-3, rotary shaft 1-4, fastener shaft 1-5, solar collecting device bracing frame 2, lampshade 3, insecticide flutters acquisition means 4, electricity elder brother Worm trapper 4-1, lures insect fluorescence pipe 4-1-1, high voltage shock net 4-1-2, insect density detector 4-1-3, cleaning device 4- 2, sliding rail 4-2-1, little brush 4-2-2, stores up insecticide dish 4-3, sunlight brightness detector 4-4, carriage of lampshade 5, controls Device 6.

Detailed description of the invention

A kind of solar energy gardens elder brother with automatic cleaning function with embodiment, the present invention provided below in conjunction with the accompanying drawings Worm flutters collection lamp and is further described.

As it is shown in figure 1, a kind of solar energy gardens insecticide with automatic cleaning function being heretofore described flutters collection lamp Schematic diagram, it is seen in fig. 1, that include: solar collecting device 1, solar collecting device bracing frame 2, lampshade 3, insecticide flutters collection Device 4, carriage of lampshade 5, controller 6；Described solar collecting device bracing frame 2 profile is L shape, solar collecting device Bracing frame 2 one end is fixing with solar collecting device 1 to be connected, solar collecting device bracing frame 2 other end and carriage of lampshade 5 Fixing connection；Described carriage of lampshade 5 upper end is fixedly connected with lampshade 3, the described lampshade 3 trapezoidal structure of upper cover；Described insecticide Flutter acquisition means 4 and be positioned at lampshade 3 center；Described controller 6 is fixedly mounted on carriage of lampshade 5.

As in figure 2 it is shown, be heretofore described solar collecting device structural representation, find out from Fig. 2 or Fig. 1, Solar collecting device 1 includes: solar panel 1-1, the sun blind photodetector 1-2, drives motor 1-3, rotary shaft 1- 4, fastener shaft 1-5；The wherein said sun blind photodetector 1-2 quantity is 2, and the sun blind photodetector 1-2 is distributed in too Sun energy collecting board 1-1 length direction both side ends center, and along horizontal line arrangement symmetrical above and below；Described rotary shaft 1-4 Being positioned at below solar panel 1-1, rotary shaft 1-4 is Rectangular Plate Structure, and rotary shaft 1-4 center has turning of oval structure Dynamic groove, rotary shaft 1-4 is by under rotation slot and fastener shaft 1-5 chain connection, rotary shaft 1-4 top and solar panel 1-1 Surface is fixing to be connected；Described fastener shaft 1-5 extends vertically through solar collecting device bracing frame 2 top, and fastener shaft 1-5 is driving electricity Doing coaxial rotating motion under the effect of machine 1-3, described driving motor 1-3 is positioned at fastener shaft 1-5 one end；

The described sun blind photodetector 1-2, driving motor 1-3 control to be connected with controller 6 by wire respectively.

As it is shown on figure 3, the insecticide being heretofore described flutters acquisition means structural representation, find out from Fig. 3 or Fig. 1, elder brother Worm flutters acquisition means 4 and includes: electricity insecticide trapper 4-1, cleaning device 4-2, stores up insecticide dish 4-3, sunlight brightness detector 4-4； Wherein said electricity insecticide trapper 4-1 is positioned at cleaning device 4-2 inside center, electricity insecticide trapper 4-1 outer surface and cleaning Device 4-2 interior surface is in close contact；Described storage insecticide dish 4-3 is positioned at immediately below electricity insecticide trapper 4-1, stores up insecticide dish 4-3 For circular configuration；Described sunlight brightness detector 4-4 is fixedly mounted on lampshade 3 upper cover lower surface, 25cm outside distance lampshade 3 ～40cm, sunlight brightness detector 4-4 are photoconductive resistance；

Described sunlight brightness detector 4-4 is connected with controller 6 polygon control survey.

As shown in Figure 4, it is heretofore described electric insecticide trapper structural representation, finds out from Fig. 4 or Fig. 1, electricity Insecticide trapper 4-1 includes: lure insect fluorescence pipe 4-1-1, high voltage shock net 4-1-2, insect density detector 4-1-3；Wherein Described luring insect fluorescence pipe 4-1-1 to be positioned at high voltage shock net 4-1-2 inside center, luring insect fluorescence pipe 4-1-1 is U-shaped fluorescent tube； Described high voltage shock net 4-1-2 is formed by proof copper-wire braided, the rounded network structure of high voltage shock net 4-1-2, high voltage shock net 4- 1-2 high direct voltage is between 850V～1500V, and its short circuit current is less than 1mA；Described insect density detector 4-1-3 is positioned at height Piezoelectricity hits net 4-1-2 rear surface, and insect density detector 4-1-3 is connected with controller 6 polygon control survey.

As it is shown in figure 5, be heretofore described cleaning device structural representation, find out from Fig. 5 or Fig. 1, sanitizer cartridge Put 4-2 to include: sliding rail 4-2-1, little brush 4-2-2；Wherein said little brush 4-2-2 top is arranged on sliding rail 4-2- On 1, little brush 4-2-2 pumps at sliding rail 4-2-1, and little brush 4-2-2 is internally installed driver；Described Sliding rail 4-2-1 is stainless steel tube, and its caliber is between 1cm～2cm；

Described little brush 4-2-2 is connected with controller 6 polygon control survey.

A kind of solar energy gardens insecticide with automatic cleaning function of the present invention flutters the work process of collection lamp:

1st step: switch on power, the sunlight strength letter that the sun blind photodetector 1-2 on solar panel 1-1 will detect Number feeding back to controller 6, controller 6 controls to drive motor 1-3 to start, stop, rotary shaft according to different sunlight strength signals 1-4 rotates around fastener shaft 1-5 under the effect driving motor 1-3, thus drives solar panel 1-1 along sunlight The sun blind photodetector 1-2 side that intensity is higher rotates, and when the solar panel 1-1 anglec of rotation is more than 10 °, drives electricity Machine 1-3 stops operating；The luminous energy that daytime collects is changed into electrical power storage in accumulator by solar panel 1-1；

2nd step: sunlight brightness is monitored by sunlight brightness detector 4-4 in real time that be positioned at lampshade 3 upper cover lower surface；When When sunlight brightness detector 4-4 monitors sun level less than 10lux, feedback signal is sent out by sunlight brightness detector 4-4 Delivering to controller 6, controller 6 is opened and is lured insect fluorescence pipe 4-1-1；When sunlight brightness detector 4-4 monitors sun level During higher than 10lux, feedback signal is sent to controller 6 by sunlight brightness detector 4-4, and controller 6 cuts out and lures insect fluorescence Pipe 4-1-1；

3rd step: the insect fluorescence pipe 4-1-1 that lures being positioned at high voltage shock net 4-1-2 inside center utilizes the insecticide that lives to become the characteristic of light, The insecticide that attracts to live is near luring insect fluorescence pipe 4-1-1, and the insecticide that lives is through high voltage shock net 4-1-2, at high voltage shock net 4- Electrocuting under the high-tension electric shock effect of 1-2, the insecticide that a part electrocutes is sticky in high voltage shock net 4-1-2 surface；

4th step: the insect density on high voltage shock net 4-1-2 surface is monitored by insect density detector 4-1-3 in real time, when insecticide is close Degree detector 4-1-3 detects that the insect density on high voltage shock net 4-1-2 surface is more than 6/cm²Time, insect density detector Detection signal is sent to controller 6 by 4-1-3, and controller 6 starts little brush 4-2-2, little brush 4-2-2 along sliding rail 4-2- 1 pumps, little brush 4-2-2 will be attached to the insecticide on high voltage shock net 4-1-2 sweep drop down onto storage insecticide dish 4-3 In.

A kind of solar energy gardens insecticide with automatic cleaning function of the present invention flutters collection lamp, this plant automation journey Degree height, it is effective that insecticide flutters collection, makes full use of solar energy resources, energy-conserving and environment-protective.

The following is the embodiment of the manufacture process of little brush 4-2-2 shell of the present invention and bristle, embodiment be in order to Further illustrate present disclosure, but should not be construed as limitation of the present invention.Without departing substantially from present invention spirit and essence In the case of, the amendment that the inventive method, step or condition are made and replacement, belong to the scope of the present invention.

If not specializing, the conventional means that technological means used in embodiment is well known to those skilled in the art.

Embodiment 1

Manufacture little brush 4-2-2 shell of the present invention and bristle according to following steps, and count by weight:

1st step: add the ultra-pure water 1028 parts that electrical conductivity is 1.28 μ S/cm in a kettle., start agitator in reactor, turn Speed is 78rpm, starts heat pump, makes reactor temperature rise to 52 DEG C；It is sequentially added into Alpha-Methyl pi-allyl-aralkyl sulfid 32 Part, 2,3,5,6-ptfe benzyls (1R, 3S)-3-(2,2-dichloroethylene)-2,2-dimethyl cyclopropane carboxylic acid's ester 72 parts, 4- Chloro-N-2-(4-morpholinyl) ethyl butylbenzene Methanamide 104 parts, stirring is to being completely dissolved, and regulation pH value is 4.1, is turned by agitator Velocity modulation is to 128rpm, and temperature is 76 DEG C, esterification 10 hours；

2nd step: take 3-(2,2-dichloroethylene)-2,2-dimethyl cyclopropionate-(1S, 3S)-REL-(R)-cyano group (3-benzene oxygen benzene Base) methyl ester 28 parts, (1R, S)-suitable, trans-2,2-dimethyl-3-(2,2-dichloroethylene) cyclopropane-carboxylic acid-a-cyano group- 3-phenoxy group-4-fluoro-methylbenzyl ester 93 parts is pulverized, and powder diameter is 800 mesh；Add alpha-cyano phenoxy benzyl (1R, 3R)-3- (2,2-dibromo vinyl)-2,2 21 parts of mix homogeneously of diyl first cyclopropanecarboxylcompound, are laid in pallet, and tiling thickness is 6mm, the alpha ray irradiation 71 minutes that employing dosage is 2.6kGy, energy is 3.0MeV, and the β x ray irradiation x 63 of Isodose Minute；

3rd step: the mixed-powder processed through the 2nd step be dissolved in cyano group-(3-Phenoxyphenyl) methyl-3-that concentration is 46ppm (2, 2-dichloroethylene)-2, in 2-dimethyl cyclopropane carboxylic acid's ester 102 parts, add reactor, agitator speed is 82rpm, temperature It is 93 DEG C, starts vacuum pump and make the vacuum of reactor reach-0.14MPa, keep this state response 15 hours；Pressure release is also passed through Radon gas, making reacting kettle inner pressure is 0.45MPa, and insulation stands 14 hours；Agitator speed is promoted to 182rpm, simultaneous reactions still Pressure release is to 0MPa；It is sequentially added into d-frans-2,2-dimethyl-3-(2-methyl-1-propylene base) cyclopropane-carboxylic acid-3,4,5, 6-tetrahydrochysene phthalimide ylmethyl ester 18 parts, methene cyclopropane-2, after 2-diethyl dicarboxylate 98 parts is completely dissolved, adds and hand over Connection agent 72 parts stirring mixing so that the hydrophile-lipophile balance value of reactor solution is 6.3, and insulation stands 6 hours；

4th step: when agitator speed is 122rpm, is sequentially added into 3-[(2-ethoxy) (3-aminomethyl phenyl) amino] propionitrile 26 Part, N-[5-(acetylamino)-4-[(2-bromo-4,6-dinitrophenyl) azo]-2-methoxyphenyl]-Β-alanine-2- Methoxy ethyl ester 65 parts, N-[2-[(2-bromo-4,6-dinitrophenyl) azo]-4-methoxyl group-5-[(phenyl methyl)-2-third Alkenyl amino] phenyl] acetamide 37 parts, N-[5-[[2-(acetoxyl group) ethyl] (benzyl) amino]-2-[(2-chloro-4,6- Dinitrophenyl) azo]-4-methoxyphenyl] acetamide 69 parts, promote reactor pressure so that it is reaching 1.2MPa, temperature is 108 DEG C, polyreaction 9 hours；After having reacted, reacting kettle inner pressure is down to 0MPa, is cooled to 32 DEG C, discharging, enter molding press Can be prepared by little brush 4-2-2 shell and bristle；

Described cross-linking agent is double (2-the ethoxy)-4-methyl benzenesulfonamide of N, N-.

Embodiment 2

Manufacture little brush 4-2-2 shell of the present invention and bristle according to following steps, and count by weight:

1st step: add the ultra-pure water 1218 parts that electrical conductivity is 1.96 μ S/cm in a kettle., start agitator in reactor, turn Speed is 109rpm, starts heat pump, makes reactor temperature rise to 68 DEG C；It is sequentially added into Alpha-Methyl pi-allyl-aralkyl sulfid 50 parts, 2,3,5,6-ptfe benzyls (1R, 3S)-3-(2,2-dichloroethylene)-2,2-dimethyl cyclopropane carboxylic acid's ester 96 parts, 4- Chloro-N-2-(4-morpholinyl) ethyl butylbenzene Methanamide 132 parts, stirring is to being completely dissolved, and regulation pH value is 5.6, is turned by agitator Velocity modulation is to 178rpm, and temperature is 96 DEG C, esterification 17 hours；

2nd step: take 3-(2,2-dichloroethylene)-2,2-dimethyl cyclopropionate-(1S, 3S)-REL-(R)-cyano group (3-benzene oxygen benzene Base) methyl ester 61 parts, (1R, S)-suitable, trans-2,2-dimethyl-3-(2,2-dichloroethylene) cyclopropane-carboxylic acid-a-cyano group- 3-phenoxy group-4-fluoro-methylbenzyl ester 128 parts is pulverized, and powder diameter is 1200 mesh；Addition alpha-cyano phenoxy benzyl (1R, 3R)- 3-(2,2-dibromo vinyl)-2,2 45 parts of mix homogeneously of diyl first cyclopropanecarboxylcompound, are laid in pallet, and tiling thickness is 10mm, the alpha ray irradiation 96 minutes that employing dosage is 5.6kGy, energy is 7.5MeV, and the β x ray irradiation x of Isodose 105 minutes；

3rd step: the mixed-powder processed through the 2nd step be dissolved in cyano group-(3-Phenoxyphenyl) methyl-3-that concentration is 68ppm (2, 2-dichloroethylene)-2, in 2-dimethyl cyclopropane carboxylic acid's ester 145 parts, add reactor, agitator speed is 127rpm, temperature Degree is 145 DEG C, starts vacuum pump and makes the vacuum of reactor reach 1.65MPa, keeps this state response 23 hours；Pressure release is also led to Entering radon gas, making reacting kettle inner pressure is 0.72MPa, and insulation stands 21 hours；Agitator speed is promoted to 203rpm, simultaneous reactions Still pressure release is to 0MPa；It is sequentially added into d-frans-2,2-dimethyl-3-(2-methyl-1-propylene base) cyclopropane-carboxylic acid-3,4, 5,6-tetrahydrochysene phthalimide ylmethyl esters 32 parts, methene cyclopropane-2, after 2-diethyl dicarboxylate 133 parts is completely dissolved, add Enter cross-linking agent 98 parts stirring mixing so that the hydrophile-lipophile balance value of reactor solution is 7.5, and insulation stands 10 hours；

4th step: when agitator speed is 158rpm, is sequentially added into 3-[(2-ethoxy) (3-aminomethyl phenyl) amino] propionitrile 56 Part, N-[5-(acetylamino)-4-[(2-bromo-4,6-dinitrophenyl) azo]-2-methoxyphenyl]-Β-alanine-2- Methoxy ethyl ester 132 parts, N-[2-[(2-bromo-4,6-dinitrophenyl) azo]-4-methoxyl group-5-[(phenyl methyl)-2- Allylamino] phenyl] acetamide 63 parts, N-[5-[[2-(acetoxyl group) ethyl] (benzyl) amino]-2-[(2-chloro-4, 6-dinitrophenyl) azo]-4-methoxyphenyl] acetamide 91 parts, promote reactor pressure so that it is reach 1.7MPa, temperature It is 169 DEG C, polyreaction 15 hours；After having reacted, reacting kettle inner pressure is down to 0MPa, is cooled to 38 DEG C, discharging, enter pressure Mould machine can be prepared by little brush 4-2-2 shell and bristle；

Described cross-linking agent is N-acetoacetyl open-chain crown ether.

Embodiment 3

Manufacture little brush 4-2-2 shell of the present invention and bristle according to following steps, and count by weight:

1st step: add the ultra-pure water 1354 parts that electrical conductivity is 3.42 μ S/cm in a kettle., start agitator in reactor, turn Speed is 135rpm, starts heat pump, makes reactor temperature rise to 86 DEG C；It is sequentially added into Alpha-Methyl pi-allyl-aralkyl sulfid 68 parts, 2,3,5,6-ptfe benzyls (1R, 3S)-3-(2,2-dichloroethylene)-2,2-dimethyl cyclopropane carboxylic acid's ester 124 parts, The chloro-N-2-of 4-(4-morpholinyl) ethyl butylbenzene Methanamide 152 parts, stirring is to being completely dissolved, and regulation pH value is 7.2, by agitator Rotating speed is adjusted to 224rpm, and temperature is 118 DEG C, esterification 24 hours；

2nd step: take 3-(2,2-dichloroethylene)-2,2-dimethyl cyclopropionate-(1S, 3S)-REL-(R)-cyano group (3-benzene oxygen benzene Base) methyl ester 76 parts, (1R, S)-suitable, trans-2,2-dimethyl-3-(2,2-dichloroethylene) cyclopropane-carboxylic acid-a-cyano group- 3-phenoxy group-4-fluoro-methylbenzyl ester 163 parts is pulverized, and powder diameter is 1600 mesh；Addition alpha-cyano phenoxy benzyl (1R, 3R)- 3-(2,2-dibromo vinyl)-2,2 64 parts of mix homogeneously of diyl first cyclopropanecarboxylcompound, are laid in pallet, and tiling thickness is 14mm, the alpha ray irradiation 125 minutes that employing dosage is 8.4kGy, energy is 12.0MeV, and the β x ray irradiation x of Isodose 149 minutes；

3rd step: the mixed-powder processed through the 2nd step be dissolved in cyano group-(3-Phenoxyphenyl) methyl-3-that concentration is 85ppm (2, 2-dichloroethylene)-2, in 2-dimethyl cyclopropane carboxylic acid's ester 182 parts, add reactor, agitator speed is 174rpm, temperature Degree is 192 DEG C, starts vacuum pump and makes the vacuum of reactor reach 2.04MPa, keeps this state response 31 hours；Pressure release is also led to Entering radon gas, making reacting kettle inner pressure is 0.96MPa, and insulation stands 28 hours；Agitator speed is promoted to 226rpm, simultaneous reactions Still pressure release is to 0MPa；It is sequentially added into d-frans-2,2-dimethyl-3-(2-methyl-1-propylene base) cyclopropane-carboxylic acid-3,4, 5,6-tetrahydrochysene phthalimide ylmethyl esters 51 parts, methene cyclopropane-2, after 2-diethyl dicarboxylate 167 parts is completely dissolved, add Enter cross-linking agent 124 parts stirring mixing so that the hydrophile-lipophile balance value of reactor solution is 8.8, and insulation stands 14 hours；

4th step: when agitator speed is 194rpm, is sequentially added into 3-[(2-ethoxy) (3-aminomethyl phenyl) amino] propionitrile 82 Part, N-[5-(acetylamino)-4-[(2-bromo-4,6-dinitrophenyl) azo]-2-methoxyphenyl]-Β-alanine-2- Methoxy ethyl ester 112 parts, N-[2-[(2-bromo-4,6-dinitrophenyl) azo]-4-methoxyl group-5-[(phenyl methyl)-2- Allylamino] phenyl] acetamide 86 parts, N-[5-[[2-(acetoxyl group) ethyl] (benzyl) amino]-2-[(2-chloro-4, 6-dinitrophenyl) azo]-4-methoxyphenyl] acetamide 124 parts, promote reactor pressure so that it is reach 2.2MPa, temperature Degree is 225 DEG C, polyreaction 21 hours；After having reacted, reacting kettle inner pressure is down to 0MPa, is cooled to 44 DEG C, discharging, enter Molding press can be prepared by little brush 4-2-2 shell and bristle；

Described cross-linking agent is N, N-dicyclohexyl-2-[4-morpholinodithio sulfenamide.

Reference examples

Reference examples is little brush shell and the bristle of certain brand commercially available.

Embodiment 4

The little brush 4-2-2 shell that embodiment 1～3 is prepared and bristle and the little brush shell described in reference examples and bristle Carry out

Using effect contrasts.The two anti-erosion degree, heat-resisting quantity, clean rate, material aging rate are added up, result such as table Shown in 1.

As seen from Table 1, little brush 4-2-2 shell of the present invention and bristle, its anti-erosion degree, heat-resisting quantity, cleaning The indexs such as speed, material aging rate are superior to the product that prior art produces.

Additionally, as shown in Figure 6, be outer ring of the present invention little brush 4-2-2 shell and the corrosion-resistant degree of bristle material with The statistics of use time change.Finding out in figure, little brush 4-2-2 shell and bristle used by embodiment 1～3, its material is corrosion-resistant Spend with using time intensity of variation to be significantly better than existing product.

As it is shown in fig. 7, the insecticide being heretofore described flutters acquisition means light-operated circuit figure.Finding out in figure, its insecticide flutters collection Device light-operated circuit is significantly better than existing product.

Claims (7)

1. the solar energy gardens insecticide with automatic cleaning function flutters a collection lamp, including: solar collecting device (1), the sun Energy collection device bracing frame (2), lampshade (3), insecticide flutters acquisition means (4), carriage of lampshade (5), controller (6)；Its feature exists In, described solar collecting device bracing frame (2) profile is L shape, solar collecting device bracing frame (2) one end and solar energy Collection device (1) is fixing to be connected, and solar collecting device bracing frame (2) other end is fixing with carriage of lampshade (5) to be connected；Described Carriage of lampshade (5) upper end is fixedly connected with lampshade (3), the trapezoidal structure of described lampshade (3) upper cover；Described insecticide flutters acquisition means (4) lampshade (3) center it is positioned at；Described controller (6) is fixedly mounted on carriage of lampshade (5).

A kind of solar energy gardens insecticide with automatic cleaning function the most according to claim 1 flutters collection lamp, and its feature exists In, described solar collecting device (1) including: solar panel (1-1), the blind photodetector of the sun (1-2), drives motor (1-3), rotary shaft (1-4), fastener shaft (1-5)；The wherein said sun blind photodetector (1-2) quantity is 2, the blind light of the sun Electric explorer (1-2) is distributed in solar panel (1-1) length direction both side ends center, and upper and lower along horizontal line Symmetric arrays；Described rotary shaft (1-4) is positioned at solar panel (1-1) lower section, and rotary shaft (1-4) is Rectangular Plate Structure, turns Moving axis (1-4) center has the rotation slot of oval structure, and rotary shaft (1-4) is by rotation slot with fastener shaft (1-5) hinge even Connecing, rotary shaft (1-4) top is fixing with solar panel (1-1) lower surface to be connected；Described fastener shaft (1-5) extends vertically through too Sun energy collection device bracing frame (2) top, fastener shaft (1-5) does coaxial rotating motion, institute under the effect driving motor (1-3) State driving motor (1-3) and be positioned at fastener shaft (1-5) one end；

The blind photodetector of the described sun (1-2), driving motor (1-3) control to be connected with controller (6) by wire respectively.

A kind of solar energy gardens insecticide with automatic cleaning function the most according to claim 1 flutters collection lamp, and its feature exists In, described insecticide flutters acquisition means (4) and including: electricity insecticide trapper (4-1), cleaning device (4-2), storage insecticide dish (4-3), the sun Brightness detector (4-4)；Wherein said electricity insecticide trapper (4-1) is positioned at cleaning device (4-2) inside center, and insecticide flutters electricity Storage (4-1) outer surface is in close contact with cleaning device (4-2) interior surface；Described storage insecticide dish (4-3) is positioned at electricity insecticide Immediately below trapper (4-1), storage insecticide dish (4-3) is circular configuration；Described sunlight brightness detector (4-4) is fixedly mounted on Lampshade (3) upper cover lower surface, distance lampshade (3) outside 25cm～40cm, sunlight brightness detector (4-4) is photoconductive resistance；

Described sunlight brightness detector (4-4) is connected with controller (6) polygon control survey.

A kind of solar energy gardens insecticide with automatic cleaning function the most according to claim 3 flutters collection lamp, and its feature exists In, described electricity insecticide trapper (4-1) including: lures insect fluorescence pipe (4-1-1), high voltage shock net (4-1-2), and insect density is examined Survey device (4-1-3)；Wherein said lure insect fluorescence pipe (4-1-1) to be positioned at high voltage shock net (4-1-2) inside center, lure insecticide glimmering Light pipe (4-1-1) is U-shaped fluorescent tube；Described high voltage shock net (4-1-2) is formed by proof copper-wire braided, high voltage shock net (4-1-2) in Circular network structure, high voltage shock net (4-1-2) high direct voltage is between 850V～1500V, and its short circuit current is less than 1mA；Institute State insect density detector (4-1-3) and be positioned at high voltage shock net (4-1-2) rear surface, insect density detector (4-1-3) with Controller (6) polygon control survey connects.

A kind of solar energy gardens insecticide with automatic cleaning function the most according to claim 3 flutters collection lamp, and its feature exists In, described cleaning device (4-2) including: sliding rail (4-2-1), little brush (4-2-2)；Wherein said little brush (4-2-2) Top is arranged on sliding rail (4-2-1), and little brush (4-2-2) pumps at sliding rail (4-2-1), little electricity (4-2-2) is internally installed driver for brush；Described sliding rail (4-2-1) is stainless steel tube, and its caliber is between 1cm～2cm；

Described little brush (4-2-2) is connected with controller (6) polygon control survey.

A kind of solar energy gardens insecticide with automatic cleaning function the most according to claim 5 flutters collection lamp, and its feature exists In, described little brush (4-2-2) shell and bristle are by macromolecular material pressing mold molding, little brush (4-2-2) shell and bristle Constituent and manufacture process as follows:

One, little brush (4-2-2) shell and bristle constituent:

Count by weight, Alpha-Methyl pi-allyl-aralkyl sulfid 32～68 parts, 2,3,5,6-ptfe benzyls (1R, 3S)-3-(2, 2-dichloroethylene)-2,2-dimethyl cyclopropane carboxylic acid's ester 72～124 parts, the chloro-N-2-of 4-(4-morpholinyl) ethyl butylbenzene formyl Amine 104～152 parts, 3-(2,2-dichloroethylene)-2,2-dimethyl cyclopropionate-(1S, 3S)-REL-(R)-cyano group (3-benzene oxygen Phenyl) methyl ester 28～76 parts, (1R, S)-suitable, trans-2,2-dimethyl-3-(2,2-dichloroethylene) cyclopropane-carboxylic acid-a- Cyano group-3-phenoxy group-4-fluoro-methylbenzyl ester 93～163 parts, alpha-cyano phenoxy benzyl (1R, 3R)-3-(2,2-dibromo vinyl)-2, 2 diyl first cyclopropanecarboxylcompounds 21～64 parts, concentration be 46ppm～85ppm cyano group-(3-Phenoxyphenyl) methyl-3-(2, 2-dichloroethylene)-2,2-dimethyl cyclopropane carboxylic acid's ester 102～182 parts, d-frans-2,2-dimethyl-3-(2-first Base-1-acrylic) cyclopropane-carboxylic acid-3,4,5,6-tetrahydrochysene phthalimide ylmethyl esters 18～51 parts, methene cyclopropane-2,2- Diethyl dicarboxylate 98～167 parts, cross-linking agent 72～124 parts, 3-[(2-ethoxy) (3-aminomethyl phenyl) amino] propionitrile 26～ 82 parts, N-[5-(acetylamino)-4-[(2-bromo-4,6-dinitrophenyl) azo]-2-methoxyphenyl]-Β-alanine- 2-methoxy ethyl ester 65～112 parts, N-[2-[(2-bromo-4,6-dinitrophenyl) azo]-4-methoxyl group-5-[(phenyl first Base)-2-allylamino] phenyl] acetamide 37～86 parts, N-[5-[[2-(acetoxyl group) ethyl] (benzyl) amino]-2- [(2-chloro-4,6-dinitrophenyl) azo]-4-methoxyphenyl] acetamide 69～124 parts；

Described cross-linking agent is double (2-the ethoxy)-4-methyl benzenesulfonamide of N, N-, N, N-dicyclohexyl-2-[4-morpholinodithio time sulphonyl Any one in amine, N-acetoacetyl open-chain crown ether；

Two, little brush (4-2-2) shell and the manufacture process of bristle, comprise the steps of

1st step: add ultra-pure water 1028～1354 parts that electrical conductivity is 1.28 μ S/cm～3.42 μ S/cm in a kettle., start Agitator in reactor, rotating speed is 78rpm～135rpm, starts heat pump, makes reactor temperature rise to 52 DEG C～86 DEG C； It is sequentially added into Alpha-Methyl pi-allyl-aralkyl sulfid, 2,3,5,6-ptfe benzyl (1R, 3S)-3-(2,2-dichloroethylene)-2,2- The chloro-N-2-of dimethyl cyclopropane carboxylic acid's ester, 4-(4-morpholinyl) ethyl butylbenzene Methanamide, stirring, to being completely dissolved, regulates pH value Being 4.1～7.2, agitator speed is adjusted to 128rpm～224rpm, temperature is 76 DEG C～118 DEG C, and esterification 10～24 is little Time；

2nd step: take 3-(2,2-dichloroethylene)-2,2-dimethyl cyclopropionate-(1S, 3S)-REL-(R)-cyano group (3-benzene oxygen benzene Base) methyl ester, (1R, S)-suitable, trans-2,2-dimethyl-3-(2,2-dichloroethylene) cyclopropane-carboxylic acid-a-cyano group-3-benzene Epoxide-4-fluoro-methylbenzyl ester is pulverized, and powder diameter is 800～1600 mesh；Addition alpha-cyano phenoxy benzyl (1R, 3R)-3-(2, 2-dibromo vinyl)-2,2 diyl first cyclopropanecarboxylcompound mix homogeneously, it is laid in pallet, tiling thickness is 6mm～14mm, To use dosage be 2.6kGy～8.4kGy, energy is the alpha ray irradiation 71 of 3.0MeV～12.0MeV～125 minutes, and on an equal basis The β x ray irradiation x 63 of dosage～149 minutes；

3rd step: the mixed-powder processed through the 2nd step is dissolved in cyano group-(3-Phenoxyphenyl) methyl-3-(2,2-dichloroethylene Base)-2, in 2-dimethyl cyclopropane carboxylic acid's ester, add reactor, agitator speed is 82rpm～174rpm, and temperature is 93 DEG C ～192 DEG C, start vacuum pump and make the vacuum of reactor reach-0.14MPa～2.04MPa, keep this state response 15～31 Hour；Pressure release is also passed through radon gas, and making reacting kettle inner pressure is 0.45MPa～0.96MPa, and insulation stands 14～28 hours；Stirring Device rotating speed is promoted to 182rpm～226rpm, simultaneous reactions still pressure release to 0MPa；Be sequentially added into d-frans-2,2-dimethyl- 3-(2-methyl-1-propylene base) cyclopropane-carboxylic acid-3,4,5,6-tetrahydrochysene phthalimide ylmethyl ester, methene cyclopropane-2,2- After diethyl dicarboxylate is completely dissolved, add cross-linking agent stirring mixing so that the hydrophile-lipophile balance value of reactor solution is 6.3 ～8.8, insulation stands 6～14 hours；

4th step: when agitator speed is 122rpm～194rpm, is sequentially added into 3-[(2-ethoxy) (3-aminomethyl phenyl) ammonia Base] propionitrile, N-[5-(acetylamino)-4-[(2-bromo-4,6-dinitrophenyl) azo]-2-methoxyphenyl]-Β-aminopropan Acid-2-methoxy ethyl ester, N-[2-[(2-bromo-4,6-dinitrophenyl) azo]-4-methoxyl group-5-[(phenyl methyl)-2- Allylamino] phenyl] acetamide and N-[5-[[2-(acetoxyl group) ethyl] (benzyl) amino]-2-[(the chloro-4,6-of 2-bis- Nitrobenzophenone) azo]-4-methoxyphenyl] acetamide, promote reactor pressure so that it is reach 1.2MPa～2.2MPa, temperature It is 108 DEG C～225 DEG C, polyreaction 9～21 hours；After having reacted, reacting kettle inner pressure is down to 0MPa, is cooled to 32 DEG C ～44 DEG C, discharging, enter molding press and can be prepared by little brush (4-2-2) shell and bristle.

7. the solar energy gardens insecticide with automatic cleaning function flutters the method for work collecting lamp, it is characterised in that the method Including following step:

1st step: switch on power, the blind photodetector of the sun (1-2) on solar panel (1-1) is by strong for the sunlight detected Degree signal feeds back to controller (6), and controller (6) controls to drive motor (1-3) to start, stop according to different sunlight strength signals Only, rotary shaft (1-4) rotates around fastener shaft (1-5) under the effect driving motor (1-3), thus drives solar energy Collecting board (1-1) rotates along the sun that sunlight strength is higher blind photodetector (1-2) side, and solar panel (1-1) revolves When gyration is more than 10 °, motor (1-3) is driven to stop operating；The luminous energy that daytime collects is changed into by solar panel (1-1) Electrical power storage is in accumulator；

2nd step: sunlight brightness is supervised by sunlight brightness detector (4-4) in real time that be positioned at lampshade (3) upper cover lower surface Survey；When sunlight brightness detector (4-4) monitors sun level less than 10lux, sunlight brightness detector (4-4) will be anti- Feedback signal sends to controller (6), and controller (6) is opened and lured insect fluorescence pipe (4-1-1)；As sunlight brightness detector (4- 4), when monitoring sun level higher than 10lux, feedback signal is sent to controller (6), control by sunlight brightness detector (4-4) Device processed (6) cuts out and lures insect fluorescence pipe (4-1-1)；

3rd step: the insect fluorescence pipe (4-1-1) that lures being positioned at high voltage shock net (4-1-2) inside center utilizes the insecticide that lives to become light Characteristic, the insecticide that attracts to live is near luring insect fluorescence pipe (4-1-1), and the insecticide that lives is when high voltage shock net (4-1-2), at high pressure Electrocuting under electric shock net (4-1-2) high-tension electric shock effect, the insecticide that a part electrocutes is sticky in high voltage shock net (4-1-2) surface；

4th step: the insect density on high voltage shock net (4-1-2) surface is monitored by insect density detector (4-1-3) in real time, works as elder brother Worm density detector (4-1-3) detects that the insect density on high voltage shock net (4-1-2) surface is more than 6/cm²Time, insecticide is close Detection signal is sent to controller (6) by degree detector (4-1-3), and controller (6) starts little brush (4-2-2), little brush (4- 2-2) pumping along sliding rail (4-2-1), little brush (4-2-2) will be attached on high voltage shock net (4-1-2) Insecticide sweep and drop down onto in storage insecticide dish (4-3).