CN112293372A

CN112293372A - Energy-saving environment-friendly ecological moth catcher

Info

Publication number: CN112293372A
Application number: CN202011184646.1A
Authority: CN
Inventors: 王益良
Original assignee: Individual
Current assignee: Suzhou Suguo Information Technology Co ltd
Priority date: 2020-10-29
Filing date: 2020-10-29
Publication date: 2021-02-02
Anticipated expiration: 2040-10-29
Also published as: CN112293372B

Abstract

The invention discloses an energy-saving environment-friendly ecological moth catcher, and relates to the technical field of environment protection. The energy-saving environment-friendly ecological moth catcher comprises a base plate, wherein a lamp is fixedly arranged in the middle of the upper surface of the base plate, moth catching devices are arranged on the outer sides of the lamps in a stacked manner, the moth catching device comprises moth catching petals, the shape of the moth catching petals comprises a petal shape, the concave surface of the moth catching petals is opposite to the lamp, catching columns are uniformly arranged on the concave surface of the moth catching flap at equal intervals, the shape of the moth catching device is designed into a layer-by-layer stacking mode through the design of the moth catching device, the design of the catching column is matched, so that the moth-killing lamp has better capability of controlling moths compared with the prior moth-killing lamp at the same time, when the moths are attracted by the light and fly into the periphery of the light, the moths can be hooked on the wings by the big barbs and the small barbs on the capturing columns, thereby restricting the flying of the moths, and catching the moths as much as possible in the same time, thereby efficiently catching the moths.

Description

Energy-saving environment-friendly ecological moth catcher

Technical Field

The invention relates to the technical field of environmental protection, in particular to an energy-saving and environment-friendly ecological moth catcher.

Background

Moths are insects, are of various types and are in a shape similar to butterflies, larvae of the moths are generally called caterpillars and are mostly agricultural pests, and the caterpillars have good smell sense and hearing to adapt to night swim life, so that the moths can move frequently at night, are obviously attracted by light, utilize light to be used as compass navigation, and evolve to utilize fixed parts in eyes to receive light. As long as the light source is far away like the sun or moon, the angles of the light received by the moth eyes are approximately uniformly parallel, and the visual imaging can be maintained as long as the moth moves in a straight line. But when the light sources are very close, the angle of the light it receives changes at each instant of movement if the moth still travels straight. Therefore, the moth will appear to advance spirally toward the light source to the observer, and the tool for catching moths is designed by the phototaxis of the moth.

Most of moth catchers in the market attract moths through lamplight at present, then the moths lose the flying direction, finally fly around the lamp and go to death in a fatigue way, the randomness of the moth catching mode is too strong, and the actual moth catching efficiency is low.

Disclosure of Invention

The invention aims to provide an energy-saving environment-friendly ecological moth catcher to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an energy-concerving and environment-protective ecological moth catcher, includes the chassis, the upper surface middle part fixed mounting on chassis has the lamp, and the outside of lamp piles up layer upon layer is provided with catches the moth device, it includes catches the moth lamella to catch the moth lamella, the shape of catching the moth lamella includes the petal form, the concave surface of catching the moth lamella is relative with the lamp, the even post that is provided with of equidistance on the concave surface of catching the moth lamella, catch the post including catching the main part, the left surface fixed connection who catches the main part is on catching the moth lamella, the right surface fixedly connected with big barb of catching the main part, the shape of big barb includes the barb, the even little barb of fixedly connected with of outside equidistance of catching the main part, little barb is the same with big barb shape.

Preferably, the lower end of the moth-catching petal is fixedly connected with a rotary drum, the rotary drum is sleeved with a sleeve, the rotary drum is positioned in the middle of the sleeve, the rotary drum and the sleeve are positioned in the chassis, and two ends of the sleeve are fixedly connected in the chassis.

Preferably, the left side of the lower end of the moth catching flap is provided with a small barb, the small barb comprises a main air bag, the main air bag is located inside the chassis, the material of the main air bag comprises an elastic material, a gas port is formed in the upper right side of the main air bag, a first plate and a second plate are arranged inside the gas port, the left inner wall of the gas port is fixedly connected with the left surface of the first plate, the second plate is identical to the first plate in shape and size, the right surface of the second plate is fixedly connected onto the right inner wall of the gas port, a third plate is arranged at the left lower end of the first plate and the second plate, a first spring is fixedly connected onto the left side of the upper surface of the third plate in an equidistant mode, a first upper end fixedly connected onto the first spring, a second spring is fixedly connected onto the right side of the upper surface of the third plate.

Preferably, the first plate and the second plate are provided with a compression leg on the side far away from the main air bag, the compression leg is fixedly connected with the air port, the compression leg is provided with a through hole on the side close to the air port, the through hole is opposite to the air port, the compression leg is made of an elastic material, the compression leg is provided with a hole on the side far away from the air port, the compression leg is fixedly connected with a movable air bag on the side far away from the main air bag, the left lower end of the movable air bag is opposite to the hole, the movable air bag, the compression leg and the main air bag are communicated, the movable air bag is made of an inelastic material, and the movable air bag is fixedly connected with the bottom end of the left surface of the moth catching flap on the side far away.

Preferably, the inner layer is provided with a collecting device on the convex surface of the moth-catching petal of the moth-catching device, the collecting device comprises a collecting cylinder, the collecting cylinder is cylindrical, the opening of the collecting cylinder is arranged at the end far away from the moth-catching petal, the left end of the collecting cylinder is fixedly connected with the convex surface of the moth-catching petal, the collecting cylinder is obliquely arranged, the lower end of the collecting cylinder is close to the lamp, and the upper end of the collecting cylinder is far away from the lamp.

Preferably, the collecting device on the innermost layer is fixedly connected to the lamp, and the collecting devices correspond to the moth catching devices one to one.

Preferably, the right end of the collecting cylinder is sleeved with three air compression columns, the three air compression columns are arranged on the upper half portion of the right end port of the air compression column in an equidistant and uniform mode, and an inner column is fixedly connected to the left inner wall of the collecting cylinder.

Preferably, the inner column is internally provided with three air compressing pipes, the number of the air compressing pipes is three, the air compressing pipes correspond to the air compressing columns in position one to one, a pipeline where the air compressing columns are located is communicated with the air compressing pipes, the center air pipe is arranged at the center of the inner column, the communication air pipe is arranged on the outer side of the center air pipe, the number of the communication air pipes is three, and the air compressing pipes are communicated with the center air pipe through the communication air pipe.

Preferably, a heat conduction port is formed in the upper side of the collecting barrel and is communicated with the central air pipe, the inner shape of the heat conduction port comprises an arc shape, a heat conduction column is arranged above the heat conduction port, the radian of the heat conduction column is matched with the inner portion of the heat conduction port, the lower end of the heat conduction column is inserted into the heat conduction port, a spring III is fixedly connected to the lower end of the heat conduction column, and the lower end of the spring III is fixedly connected to the lower inner wall of the heat conduction port.

Preferably, the right-hand member mouth downside fixedly connected with of a collection section of thick bamboo replies the device, reply the device and include the cylinder, the material of cylinder includes metal heat conduction material, the inside of a collection section of thick bamboo is inserted to the rear end of cylinder, the rear end of cylinder contacts with the lower extreme of heat conduction post, the gasbag has been cup jointed and the post is replied to the inside of cylinder, reply the post and be in the upper end of gasbag, the bottom surface of replying the post contacts with the higher authority of gasbag, that one end of replying the device keeping away from a collection section of thick bamboo is relative with the lower extreme of catching the moth lamella.

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

(1) this energy-concerving and environment-protective ecological moth catcher, through the design of catching the moth device, the shape design that will catch the moth device is the form that piles up layer upon layer, the design of catching the post in the cooperation, the contrast has better control moth's ability with current moth-catching lamp at the same time, when the moth is attracted by light and flies into around the lamp, will be caught big barb and the little barb on the post and catch the wing, thereby restrict the flight of moth, like this can be as much as possible in the same time catch the moth, thereby the efficient moth of catching.

(2) The energy-saving environment-friendly ecological moth catcher has the advantages that through the design of the small barbs, after moths are attracted by the lamp and fall into the moth catching device, the moths can be hooked by the catching columns on the moth catching device, in order to break loose the constraint of the catching columns, the moths can initiate own wings as much as possible, in the process of initiating the wings by the moths, due to the existence of the rotary drum and the sleeve, the moths can drive moth catching flaps to slowly vibrate back and forth, in the design of the small barbs, the main body air bag is in a gas-filled state in an initial state, the movable air bag is in a shriveled state, when the moths drive the moth catching flaps to vibrate for one time, the pressing columns can be driven to extrude towards the main body air bag, in the extruding process, the plate III can be separated from the plate I and the plate II temporarily, and due to the gas overflowing effect of the gas, the gas in the main body air bag can inflate the movable air bag when the plate III is separated from the plate I and the plate II, when the moth incites the wing at every turn, can be gradually aerify the activity gasbag, the inflation of activity gasbag can make the moth petal of catching close towards the direction of lamp gradually to wrap up the whole processes of gathering of moth, can effectually prevent that the moth from shaking loose from catching the post, increase the efficiency and the effect of catching the moth.

(3) The moth catching device is matched with the collecting device, the moth catching device can be gradually closed under the driving of moth wings, the closed moth catching device can be contacted with the collecting device, the moth catching device and the collecting device just form a sealed space to wrap the moths, meanwhile, the moth petals are gathered to press the air compression column into the air compression column, the heat conduction column originally positioned in the heat conduction port can be pressed out of the heat conduction port through the channel design of the inner column, the extending heat conduction column can turn with the heat conduction column in front, the heat conduction column closest to the lamp can be contacted with the lamp, so that heat generated when the lamp emits light is injected into the collecting cylinder, the moths on the trapping column are roasted, the moths fall off from the trapping column after being roasted to enter the collecting cylinder for collection, and the problem that the moths fall off the dead body is avoided, the collection effect after catching the moth is finished, and the environmental protection performance of the device is improved.

(4) This ecological moth catcher of energy-concerving and environment-protective, design through the recovery device, carry out the in-process of heat conduction at the heat conduction post, also can carry out thermal conduction to the recovery device, give the gasbag through the cylinder with the heat conduction, the inside gas of gasbag can be heated and expand, thereby it is ejecting from the inside of cylinder slowly to reply the post, ejecting reply post just in time supports the lower extreme of catching the moth petal, slowly will catch the moth petal to the in-process of keeping away from the direction of lamp and supporting out, in the cooperation through little barb, can collect in the main part gasbag with the gas of activity gasbag represses, thereby resume initial state with little barb, also accomplish the holistic reset work of device, be convenient for next time to continuing the seizure of moth.

(5) This ecological moth catcher of energy-concerving and environment-protective, whole device outward appearance looks like the flower, and the appearance is pleasing to the eye, and can collect the corpse of moth, and after using the completion, the moth corpse that the outside of device can not fall into the piece that falls influences beautifully, and conveniently handles the moth corpse, great improvement the aesthetic property and the practicality of device.

(6) This energy-concerving and environment-protective ecological moth-catching device, whole device only the lamp can use electric power, and all the other structure activities all do not consume electric power, compare in current moth-catching lamp, great saving the use of electric power, reduced the required electric power that consumes of device self, further improved the environmental protection performance of device.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the moth-trapping petal of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the invention at B of FIG. 2;

FIG. 5 is a schematic view of the structure of the moth-catching column of the present invention;

FIG. 6 is a schematic view of the construction of an airbag device of the present invention;

FIG. 7 is a schematic illustration of a disassembled configuration of the airbag assembly of the present invention;

FIG. 8 is a schematic illustration of a disassembled configuration of the airbag assembly of the present invention;

FIG. 9 is a schematic view of the collecting device of the present invention in a disassembled configuration;

FIG. 10 is a schematic view of the structure of the collecting device of the present invention;

FIG. 11 is a schematic structural diagram of a recovery device according to the present invention.

In the figure: 1 chassis, 2 lamps, 3 moth catching devices, 301 moth catching petals, 302 rotating cylinders, 303 sleeves, 4 catching columns, 401 catching bodies, 402 large barbs, 403 small barbs, 5 air bag devices, 501 body air bags, 502 air ports, 503 plate I, 504 plate II, 505 plate III, 506 spring I, 507 spring II, 508 pressing columns, 509 holes, 510 movable air bags, 6 collecting devices, 601 collecting cylinders, 602 pressing columns, 603 inner columns, 604 pressing pipes, 605 central air pipes, 606 heat conducting ports, 607 heat conducting columns, 608 spring III and 609 communicating air pipes, 7 restoring devices, 701 columns, 702 air bags and 703 restoring columns.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 11, the present invention provides a technical solution: the utility model provides an energy-concerving and environment-protective ecological moth catcher, which comprises a base 1, the upper surface middle part fixed mounting on chassis 1 has lamp 2, the outside of lamp 2 is piled up layer upon layer and is provided with moth catching device 3, moth catching device 3 is including catching moth petal 301, moth petal 301's shape includes the petal form, moth petal 301's concave surface is relative with lamp 2, the even post 4 that catches that is provided with of equidistance on moth petal 301's the concave surface, catch post 4 including catching main part 401, the left surface fixed connection who catches main part 401 is on moth petal 301, the right surface fixed connection who catches main part 401 has big barb 402, big barb 402's shape includes the barb, the even fixedly connected with little barb 403 of outside equidistance of catching main part 401, little barb 403 is the same with big barb 402 shape.

The lower extreme fixedly connected with rotary drum 302 of catching moth lamella 301, rotary drum 302 cup joints sleeve 303, and rotary drum 302 is in the middle part of sleeve 303, and rotary drum 302 and sleeve 303 are in the inside of chassis 1, and the both ends of sleeve 303 are all fixedly connected inside chassis 1.

The left side of the lower end of the moth catching flap 301 is provided with a small barb 5, the small barb 5 comprises a main body air bag 501, the main body air bag 501 is located inside the chassis 1, the material of the main body air bag 501 comprises an elastic material, the right upper side of the main body air bag 501 is provided with an air port 502, the inside of the air port 502 is provided with a first plate 503 and a second plate 504, the left surface of the first plate 503 is fixedly connected with the left inner wall of the air port 502, the second plate 504 and the first plate 503 are identical in shape and size, the right surface of the second plate 504 is fixedly connected with the right inner wall of the air port 502, the left lower ends of the first plate 503 and the second plate 504 are provided with a third plate 505, the left side of the upper surface of the third plate 505 is fixedly connected with a first spring 506 at equal intervals, the upper end of the first spring 506 is fixedly connected with the first.

The first plate 503 and the second plate 504 are provided with a compression leg 508 on the side far away from the main air bag 501, the compression leg 508 is fixedly connected with the air port 502, the compression leg 508 is provided with a through hole on the side close to the air port 502, the through hole is opposite to the air port 502, the compression leg 508 is made of elastic materials, the compression leg 508 is provided with a hole 509 on the side far away from the air port 502, the compression leg 508 is fixedly connected with a movable air bag 510 on the side far away from the main air bag 501, the left lower end of the movable air bag 510 is opposite to the hole 509, the movable air bag 510, the compression leg 508 and the interior of the main air bag 501 are communicated, the movable air bag 510 is made of non-elastic materials, and the movable air bag 510 is fixedly connected with the bottom end of.

The convex surface of the moth-catching petal 301 of the inner-layer moth-catching device 3 is provided with a collecting device 6, the collecting device 6 comprises a collecting cylinder 601, the shape of the collecting cylinder 601 comprises a cylindrical shape, the opening of the collecting cylinder 601 is arranged at the end far away from the moth-catching petal 301, the left end of the collecting cylinder 601 is fixedly connected with the convex surface of the moth-catching petal 301, the collecting cylinder 601 is obliquely arranged, the lower end of the collecting cylinder 601 is close to the lamp 2, and the upper end of the collecting cylinder 601 is far away from the lamp 2.

The innermost layer collecting device 6 is fixedly connected to the lamp 2, and the collecting devices 6 correspond to the moth catching devices 3 one by one.

The right end of the collecting cylinder 601 is sleeved with three compressed air columns 602, the three compressed air columns 602 are arranged at the upper half part of the right port of the compressed air column 602 in an equidistant and uniform manner, and an inner column 603 is fixedly connected to the left inner wall of the collecting cylinder 601.

The inner column 603 is internally provided with three air compressing pipes 604, the three air compressing pipes 604 correspond to the air compressing columns 602 one by one, a pipeline where the air compressing columns 602 are located is communicated with the air compressing pipes 604, the center air pipe 605 is arranged at the center of the inner column 603, the outer side of the center air pipe 605 is provided with a communication air pipe 609, the number of the communication air pipes 609 is three, and the air compressing pipes 604 are communicated with the center air pipe 605 through the communication air pipe 609.

Heat conduction mouth 606 has been seted up to the upside of collecting vessel 601, heat conduction mouth 606 and central trachea 605 intercommunication, and the inside shape of heat conduction mouth 606 includes the circular arc type, and heat conduction mouth 606 top is provided with heat conduction post 607, and the radian and the inside adaptation of heat conduction mouth 606 of heat conduction post 607, during heat conduction mouth 606 was inserted to the lower extreme of heat conduction post 607, the lower extreme fixedly connected with spring three 608 of heat conduction post 607, the lower extreme fixed connection of spring three 608 is in the lower inner wall of heat conduction mouth 606.

The recovery device 7 is fixedly connected with the right port lower side of the collecting cylinder 601, the recovery device 7 comprises a cylinder 701, the material of the cylinder 701 comprises a metal heat conduction material, the rear end of the cylinder 701 is inserted into the collecting cylinder 601, the rear end of the cylinder 701 is contacted with the lower end of the heat conduction column 607, the air bag 702 and the recovery column 703 are sleeved in the cylinder 701, the recovery column 703 is positioned at the upper end of the air bag 702, the bottom surface of the recovery column 703 is contacted with the upper surface of the air bag 702, and the lower end of the recovery device 7, which is far away from the collecting cylinder 601, is opposite to the lower end of the moth catching.

The working principle is as follows: firstly, the shape of the moth catching device 3 is designed into a layer-by-layer stacking mode through the design of the moth catching device 3, the design of the catching column 4 is matched, the moth catching device has better moth control capability compared with the existing moth catching lamp at the same time, when the moths are attracted by light and fly into the periphery of the lamp 2, the moths can be hooked on wings by the large barbs 402 and the small barbs 403 on the catching column 4, so that the flying of the moths is limited, and the moths can be caught as much as possible at the same time, so that the moths can be efficiently caught.

Secondly, through the design of the small barb 5, after the moths are attracted by the lamp 2 and fall into the moth catching device 3, the moths can be hooked on the wings by the catching column 4 on the moth catching device 3, in order to break loose the constraint of the catching column 4, the moths can incite own wings as much as possible, in the process of inciting the wings by the moths, due to the existence of the rotary drum 302 and the sleeve 303, the moths can drive the moth catching flap 301 to slowly vibrate back and forth, in the design matched with the small barb 5, the main body air bag 501 is in a gas-filled state in the initial state, the movable air bag 510 is in a dry and flat state, when the moths drive the moth catching flap 301 to vibrate for one time, the pressing column 508 can be driven to press towards the main body air bag 501, the third plate 505 can temporarily leave the first plate 503 and the second plate 504 in the pressing process, due to the gas in the main body air bag 501, due to the overflow and dispersion effect of the gas, the gas in the main body air bag 501 can temporarily leave the movable air bag 510 when the third plate 505 leave the first plate 503 and the second The inflation is handled, when the moth incites the wing each time, can be gradually aerify activity gasbag 510, the inflation of activity gasbag 510 can make the moth catching lamella 301 gradually close towards the direction of lamp 2 to wrap up the whole processes of gathering of moth, can effectually prevent that the moth from struggling away from catching post 4, increase the efficiency and the effect of catching the moth.

Thirdly, the moth catching device 3 is gradually closed under the driving of the moth wings to match the collecting device 6 through the cooperation of the moth catching device 3 and the collecting device 6, the closed moth catching device 3 is contacted with the collecting device 6, the moth catching device 3 and the collecting device 6 just form a sealed space to wrap the moths, meanwhile, the gathering of the moth catching petals 301 presses the air pressing column 602 into the air pressing column 610, the heat conducting column 607 originally positioned in the heat conducting port 606 can be pressed out of the heat conducting port 606 through the channel design of the inner column 603, the extending heat conducting column 607 and the heat conducting column 607 in front turn can contact the lamp 2, so that the heat generated when the lamp 2 emits light is injected into the collecting barrel 601, the moths on the catching column 4 are roasted, and the roasted moths fall off from the catching column 4 and then enter the collecting barrel 601 to be collected, the problem that the moth corpses fall to the ground is avoided, the collection effect after the moth is captured is achieved, and the environmental protection performance of the device is improved.

Fourthly, through the design of the recovery device 7, in the process of conducting heat through the heat conduction column 607, heat conduction can be carried out on the recovery device 7, the heat is conducted to the air bag 702 through the cylinder 701, the gas in the air bag 702 can be heated to expand, so that the recovery column 703 is ejected out from the cylinder 701 slowly, the ejected recovery column 703 just props against the lower end of the moth catching flap 301, in the process of slowly ejecting the moth catching flap 301 in the direction away from the lamp 2, the gas in the movable air bag 510 can be pressed into the main air bag 501 again for collection through the matching of the small barb 5, so that the small barb 5 is recovered to the initial state, the integral reset work of the device is also completed, and the moth can be captured continuously next time.

Fifthly, the appearance of the whole device is like a flower, the appearance is attractive, the dead body of the moth can be collected, after the device is used, the dead body of the moth, which is scattered into pieces, of the device does not affect the attractiveness, the dead body of the moth is conveniently treated, and the attractiveness and the practicability of the device are greatly improved.

And sixthly, only the lamp 2 of the whole device can be used for power, and other structural activities do not consume power, so that compared with the existing moth-catching lamp, the power-saving moth-catching lamp greatly saves the use of power, reduces the power consumed by the device, and further improves the environmental protection performance of the device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an energy-concerving and environment-protective ecological moth catcher, includes chassis (1), the upper surface middle part fixed mounting on chassis (1) has lamp (2), its characterized in that: the outside of lamp (2) is piled up layer upon layer and is provided with moth catching device (3), moth catching device (3) are including catching moth petal (301), the shape of catching moth petal (301) includes petal form, the concave surface of catching moth petal (301) is relative with lamp (2), the even catching post (4) that is provided with of equidistance on the concave surface of moth petal (301), catching post (4) are including catching main part (401), the left surface fixed connection of catching main part (401) is on catching moth petal (301), the right surface fixedly connected with big barb (402) of catching main part (401), the shape of big barb (402) includes the barb, the even fixedly connected with little barb (403) of outside equidistance of catching main part (401), little barb (403) are the same with big barb (402) shape.

2. The energy-saving environment-friendly ecological moth-catcher as claimed in claim 1, characterized in that: the lower end of the moth catching flap (301) is fixedly connected with a rotary drum (302), the rotary drum (302) is sleeved with a sleeve (303), the rotary drum (302) is arranged in the middle of the sleeve (303), the rotary drum (302) and the sleeve (303) are arranged in the chassis (1), and two ends of the sleeve (303) are fixedly connected in the chassis (1).

3. The energy-saving environment-friendly ecological moth-catcher as claimed in claim 1, characterized in that: the left side of the lower end of the moth catching flap (301) is provided with a small barb (5), the small barb (5) comprises a main air bag (501), the main air bag (501) is positioned in the chassis (1), the material of the main air bag (501) comprises an elastic material, the right upper side of the main air bag (501) is provided with an air port (502), the inside of the air port (502) is provided with a first plate (503) and a second plate (504), the left surface of the first plate (503) is fixedly connected with the left inner wall of the air port (502), the second plate (504) is identical to the first plate (503 in shape and size, the right surface of the second plate (504) is fixedly connected to the right inner wall of the air port (502), the left lower ends of the first plate (503) and the second plate (504) are provided with a third plate (505), the left side of the upper surface of the third plate (505) is uniformly and fixedly connected with a first spring (506), and the upper end of the first spring (506) is, the even fixedly connected with spring two (507) of upper surface right side equidistance of board three (505), the upper end fixed connection board two (504) of spring two (507).

4. The energy-saving environment-friendly ecological moth-catcher as claimed in claim 3, characterized in that: the first plate (503) and the second plate (504) are provided with compression columns (508) on the side far away from the main air bag (501), the compression leg (508) is fixedly connected with the air port (502), a through hole is arranged on one side of the compression leg (508) close to the air port (502), the through hole is opposite to the air port (502), the material of the compression leg (508) comprises elastic material, the side of the pressure column (508) far away from the air port (502) is provided with a hole (509), the side of the compression leg (508) far away from the main air bag (501) is fixedly connected with a movable air bag (510), the left lower end of the movable air bag (510) is opposite to the hole (509), the movable air bag (510), the compression leg (508) and the main air bag (501) are communicated, the movable air bag (510) is made of non-elastic material, and the bottom end of the left surface of the moth trap (301) is fixedly connected to the side, far away from the main air bag (501), of the movable air bag (510).

5. The energy-saving environment-friendly ecological moth-catcher as claimed in claim 1, characterized in that: the inlayer the convex surface of the moth-catching petal (301) of moth-catching device (3) is provided with collection device (6), collection device (6) are including collection cylinder (601), the shape of collection cylinder (601) is including cylindric, the opening setting of collection cylinder (601) is in that one end of keeping away from moth-catching petal (301), the convex surface of the left end fixed connection moth-catching petal (301) of collection cylinder (601), collection cylinder (601) slope is placed, the lower extreme of collection cylinder (601) is close to lamp (2), lamp (2) are kept away from to the upper end of collection cylinder (601).

6. The energy-saving environment-friendly ecological moth-catcher as claimed in claim 5, characterized in that: the innermost layer is that collection device (6) fixed connection is on lamp (2), collection device (6) and moth device (3) one-to-one correspondence.

7. The energy-saving environment-friendly ecological moth-catcher as claimed in claim 5, characterized in that: the right end of the collecting cylinder (601) is sleeved with three air compression columns (602), the three air compression columns (602) are uniformly arranged on the upper half part of the right port of the air compression column (602) at equal intervals, and an inner column (603) is fixedly connected to the left inner wall of the collecting cylinder (601).

8. The energy-saving environment-friendly ecological moth-catcher as claimed in claim 7, wherein: the inner column (603) is internally provided with three air pressing pipes (604), the number of the air pressing pipes (604) is three, the three air pressing pipes (604) are in one-to-one correspondence with the positions of the air pressing columns (602), a pipeline where the air pressing columns (602) are located is communicated with the air pressing pipes (604), the center of the inner column (603) is provided with a center air pipe (605), the outer side of the center air pipe (605) is provided with a communication air pipe (609), the number of the communication air pipes (609) is three, and the air pressing pipes (604) are communicated with the center air pipe (605) through the communication air pipe (609).

9. The energy-saving environment-friendly ecological moth-catcher as claimed in claim 1, characterized in that: heat conduction mouth (606) have been seted up to the upside of collection cylinder (601), heat conduction mouth (606) and central trachea (605) intercommunication, the inside shape of heat conduction mouth (606) includes the circular arc type, heat conduction mouth (606) top is provided with heat conduction post (607), the radian and the inside adaptation of heat conduction mouth (606) of heat conduction post (607), the lower extreme of heat conduction post (607) is inserted in heat conduction mouth (606), the lower extreme fixedly connected with spring three (608) of heat conduction post (607), the lower extreme fixed connection of spring three (608) is in the lower inner wall of heat conduction mouth (606).

10. The energy-saving environment-friendly ecological moth-catcher as claimed in claim 5, characterized in that: the collecting cylinder is characterized in that a recovery device (7) is fixedly connected to the lower side of a right port of the collecting cylinder (601), the recovery device (7) comprises a cylinder (701), the cylinder (701) is made of metal heat conduction materials, the rear end of the cylinder (701) is inserted into the collecting cylinder (601), the rear end of the cylinder (701) is in contact with the lower end of a heat conduction column (607), an air bag (702) and a recovery column (703) are sleeved in the cylinder (701), the recovery column (703) is located at the upper end of the air bag (702), the bottom surface of the recovery column (703) is in contact with the upper surface of the air bag (702), and the end, far away from the collecting cylinder (601), of the recovery device (7) is opposite to the lower end of the moth catching valve (301).