CN113854256B

CN113854256B - Biological insecticidal equipment for cherry trees

Info

Publication number: CN113854256B
Application number: CN202111121017.9A
Authority: CN
Inventors: 范俊辰
Original assignee: Jiangxi Taisheng Agricultural Ecological Co ltd
Current assignee: Jiangxi Taisheng Agricultural Ecological Co ltd
Priority date: 2021-09-24
Filing date: 2021-09-24
Publication date: 2022-08-30
Anticipated expiration: 2041-09-24
Also published as: CN113854256A

Abstract

The invention relates to an insecticidal device, in particular to a biological insecticidal device for cherry trees. The technical problem of the invention is as follows: the biological insecticidal equipment for the cherry trees can be used for repelling mosquitoes without depending on manpower and also can directly inactivate the mosquitoes. The technical scheme is as follows: the utility model provides a biological insecticidal equipment for cherry tree, is equipped with the branch pole including base, branch pole, stable piece, photovoltaic board, battery, lures worm mechanism and deinsectization mechanism at the base top, and the branch pole downside evenly is equipped with three stable piece along circumference, and the branch pole top is equipped with the photovoltaic board, and photovoltaic board left side lower part is equipped with the battery, and the branch pole upside is equipped with lures worm mechanism, is connected with deinsectization mechanism between branch pole upside and the battery. After the insect killing net is electrified, the trapped mosquitoes can be electrocuted, so that the mosquitoes flying into the enclosing plate can be prevented from still being alive, and the mosquitoes need to be inactivated manually by means of insecticide.

Description

Biological insecticidal equipment for cherry trees

Technical Field

The invention relates to an insecticidal device, in particular to a biological insecticidal device for cherry trees.

Background

The cherries have bright red color and luster, the almond-like aroma makes people get tired of eating the cherries, the cherries basically do not need to be applied with pesticide during the fruit development period, and the cherry-shaped cherry is a genuine green product, so fruit farmers can often plant the cherries, although the pesticide is basically not needed during the cherry planting period, mosquitoes bite fruit trees or fruits, the normal growth of the fruit trees and the fruit yield are affected, the mosquitoes need to be repelled, at present, workers often intermittently fly the fruit trees with cloth, the mosquitoes on the fruit trees can be repelled, the method needs to continuously fly the fruit trees, the method is tired, at night, the spirit of the workers is not good, at night, the workers forget to fly the fruit trees, the mosquitoes are repelled by manpower, and when the medicine is not sprayed well, and sprayed on the surface of the fruit.

Therefore, a biological insect killing device for cherry trees, which can directly inactivate mosquitoes without manually driving the mosquitoes, is needed to be designed.

Disclosure of Invention

In order to overcome the defect that a worker continuously swings a stick with cloth to expel mosquitoes on a fruit tree, which is tired, the invention has the technical problems that: the biological insecticidal equipment for the cherry trees can be used for repelling mosquitoes without depending on manpower and also can directly inactivate the mosquitoes.

The technical scheme is as follows: the utility model provides a biological insecticidal equipment for cherry tree, is equipped with the branch pole including base, branch pole, stable piece, photovoltaic board, battery, lures worm mechanism and deinsectization mechanism at the base top, and the branch pole downside evenly is equipped with three stable piece along circumference, and the branch pole top is equipped with the photovoltaic board, and photovoltaic board left side lower part is equipped with the battery, and the branch pole upside is equipped with lures worm mechanism, is connected with deinsectization mechanism between branch pole upside and the battery.

In a preferred embodiment of the invention, the insect attracting mechanism comprises a mounting frame, a lifting rod, a shielding cover, a trapping window, a coaming and a first spring, the mounting frame is arranged on the upper side of the branch rod, the lifting rod is arranged on the left side of the mounting frame in a sliding mode, the shielding cover is arranged at the bottom of the lifting rod, the trapping window is arranged at the bottom of the shielding cover, the coaming is arranged at the bottom of the trapping window, guide grooves are symmetrically formed in the front and back of the upper portion of the coaming, the first spring is connected between the lower side of the lifting rod and the bottom of the mounting frame, and a thread groove is formed in the lower side of the coaming.

In a preferred embodiment of the invention, the deinsectization mechanism comprises a connecting rod, a connecting frame, a first electric wire and a deinsectization net, wherein the connecting rod is arranged on the upper side of the branch rod and is positioned on the lower side of the mounting frame, the connecting frame is arranged at the left end of the connecting rod, the deinsectization net is arranged in the connecting frame, the first electric wires are symmetrically connected between the deinsectization net and the storage battery in a front-back mode and penetrate through the connecting frame.

In a preferred embodiment of the invention, the attracting device further comprises a pressing mechanism, the pressing mechanism comprises guide rods, guide blocks, attracting plates, sliding blocks, pressing plates and second springs, the guide rods are arranged in the guide grooves of the enclosing plates, the guide blocks are arranged on the guide rods in a sliding mode, the second springs are connected between the bottoms of the guide blocks and the enclosing plates, the second springs are wound on the adjacent guide rods, the pressing plates are connected between the guide blocks, the attracting plates are rotatably arranged in the pressing plates, the sliding blocks are arranged on the right front sides of the attracting plates, the sliding blocks are connected with the thread grooves of the enclosing plates in a sliding mode, two layers of holes are formed in the attracting plates, and the holes in the upper layers are larger than the holes in the lower layers.

In a preferred embodiment of the invention, the device further comprises a driving mechanism, the driving mechanism comprises a first limiting ring, a third spring, a connecting ring, bells, a second limiting ring, an electric push rod and a pressing ring, the first limiting ring is arranged on the upper side of the branch rod, the first limiting ring is arranged on the upper side of the connecting rod, the second limiting ring is arranged on the upper side of the branch rod, the electric push rods are symmetrically arranged in front and back of the second limiting ring, the connecting ring is connected between the bottoms of the telescopic rods of the electric push rods, the connecting ring is connected with the branch rod in a sliding mode, the third spring is connected between the bottom of the connecting ring and the first limiting ring, the pressing ring is arranged on the outer side of the connecting ring, the pressing ring is in contact with the guide block, and the bottom of the connecting ring is provided with a plurality of bells through thin wires.

In a preferred embodiment of the present invention, the collecting device further comprises a collecting mechanism, the collecting mechanism comprises a collecting frame, clamping blocks, a rotating ring and clamping rods, the collecting frame is arranged at the bottom of the connecting frame, three clamping blocks are uniformly arranged on the outer side of the collecting frame along the circumferential direction, the rotating ring is rotatably arranged on the collecting frame, three clamping rods are uniformly arranged on the inner side of the rotating ring along the circumferential direction, and the clamping rods can be clamped into the clamping blocks after rotating.

In a preferred embodiment of the present invention, the device further comprises a descending mechanism, the descending mechanism comprises a servo motor, a fan and a second electric wire, the servo motor is arranged in the middle of the bottom of the shielding cover, the fan is arranged at the bottom of the output shaft of the servo motor, and the second electric wire is connected between the servo motor and the storage battery.

In a preferred embodiment of the invention, the lower side of the shroud is provided with a threaded groove.

The invention has the beneficial effects that: 1. the storage battery can store the electric energy converted from the solar energy to the photovoltaic panel, so that the device requiring the electric energy in the equipment can be powered, and the function of saving energy can be further achieved.

2, after the deinsectization net is electrified, the mosquitoes trapped in can be electrocuted, so that the mosquitoes flying into the enclosing plate can be prevented from still being alive, and need to be inactivated manually with the help of insecticides.

3. Under the effect of the attraction plate, mosquitoes can be prevented from flying into the surrounding plate as far as possible and then can fly above the surrounding plate again to be not fallen to be in contact with the insect killing net, so that the attraction plate can rotate while descending, the movable space of the mosquitoes can be gradually reduced, and the mosquitoes can be gradually and uniformly contacted with the insect killing net to be electrocuted.

4. When the device is used, the electric push rod can work intermittently, so that the guide block can be moved without manual pulling, the bell can sound, birds can be repelled, the birds are prevented from gnawing and biting fruit trees and fruits, and the fruit tree protection effect is better.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic diagram of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a schematic perspective view of a first insect attracting mechanism of the present invention.

Fig. 5 is a schematic perspective view of a second insect attracting mechanism of the present invention.

Fig. 6 is a schematic perspective view of a first insect killing mechanism according to the present invention.

Fig. 7 is a schematic perspective view of a second insect killing mechanism according to the present invention.

Fig. 8 is a schematic perspective view of a first pressing mechanism according to the present invention.

Fig. 9 is a schematic perspective view of a second pressing mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a third embodiment of the pressing mechanism of the present invention.

Fig. 11 is a schematic perspective view of a first driving mechanism according to the present invention.

Fig. 12 is a schematic perspective view of a second driving mechanism according to the present invention.

Fig. 13 is a schematic perspective view of a third driving mechanism according to the present invention.

Fig. 14 is a perspective view of the take-up mechanism of the present invention.

Fig. 15 is a perspective view of the descending mechanism of the present invention.

Wherein the figures include the following reference numerals: 1. a base, 2, a branch rod, 3, a stabilizing block, 4, a photovoltaic panel, 5, a storage battery, 6, an insect attracting mechanism, 61, a mounting rack, 62, a lifting rod, 63, a shielding cover, 64, a trapping window, 65, a coaming, 66, a guide groove, 67, a first spring, 7, an insect killing mechanism, 71, a connecting rod, 72, a connecting frame, 73, a first electric wire, 74, an insect killing net, 8, a pressing mechanism, 81, a guide rod, 82, a guide block and 83, the lure plate, 84, a sliding block, 85, a pressing plate, 86, a second spring, 9, a driving mechanism, 91, a first limiting ring, 92, a third spring, 93, a connecting ring, 94, a bell, 95, a second limiting ring, 96, an electric push rod, 97, a pressing ring, 10, a collecting mechanism, 101, a collecting rack, 102, a clamping block, 103, a rotating ring, 104, a clamping rod, 11, a descending mechanism, 111, a servo motor, 112, a fan, 113 and a second wire.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.

Example 1

The utility model provides a biological insecticidal equipment for cherry tree, as shown in fig. 1-15, including base 1, branch pole 2, stable piece 3, photovoltaic board 4, battery 5, lure worm mechanism 6 and deinsectization mechanism 7, 1 top of base is equipped with

branch pole

2, 2 downside of branch pole evenly are equipped with three stable piece 3 along circumference, 2 tops of branch pole are equipped with photovoltaic board 4, photovoltaic board 4 can be with solar energy transformation to the electric energy, 4 left side lower parts of photovoltaic board are equipped with battery 5, battery 5 can save the electric energy of photovoltaic board 4 conversion, 2 upsides of branch pole are equipped with lures worm mechanism 6, be connected with deinsectization mechanism 7 between 2 upsides of branch pole and the battery 5, deinsectization mechanism 7 can make the mosquito inactivation.

Lure worm mechanism 6 including mounting bracket 61, lifter 62, shelter from lid 63, trap window 64, bounding wall 65 and

first spring

67, 2 upsides on branch pole are equipped with mounting bracket 61 through the welded mode, mounting bracket 61 left side slidingtype is equipped with lifter 62, lifter 62 bottom is equipped with through the welded mode and shelters from lid 63, shelter from lid 63 bottom and be equipped with trap window 64 through the welded mode, trap window 64 bottom is equipped with bounding wall 65 through the welded mode, the symmetry is opened around bounding wall 65 upper portion has guide way 66, be connected with first spring 67 between lifter 62 downside and the mounting bracket 61 bottom, the bounding wall 65 downside is opened there is the thread groove.

Deinsectization mechanism 7 is equipped with connecting rod 71 through the welded mode including connecting rod 71, linking frame 72, first electric wire 73 and deinsectization net 74, 2 upsides of branches and poles, and connecting rod 71 is in the mounting bracket 61 downside, and connecting rod 71 left end is equipped with linking frame 72 through the welded mode, is equipped with deinsectization net 74 in the linking frame 72, and deinsectization net 74 can make the mosquito inactivation, and front and back symmetrical connection has first electric wire 73 between deinsectization net 74 and battery 5, and first electric wire 73 all passes linking frame 72.

When cherry trees are planted, the device can be placed beside the cherry trees for killing insects, in daytime, the photovoltaic panel 4 can absorb solar energy and convert the solar energy into electric energy to be stored by the storage battery 5, in this way, manual insect repelling of workers is not needed to enable the device to work, if automatic insect repelling is needed or unattended cherry trees come at night, the workers can pull the lifting rod 62 to move upwards, the first spring 67 is compressed, the lifting rod 62 moves upwards to drive the shielding cover 63, the trapping window 64 and the surrounding plate 65 to move upwards, the workers can paint an insect attractant on the trapping window 64 and on the inner wall of the surrounding plate 65, then the lifting rod 62 is released, the lifting rod 62, the shielding cover 63, the trapping window 64 and the surrounding plate 65 move downwards to reset under the action of the first spring 67, then the storage battery 5 can be discharged, the electric energy of the storage battery 5 can be introduced into the insect killing net 74 through the first electric wire 73, so that the insect killing net 74 can be electrified, can make the mosquito etc. fly into the bounding wall 65 inside through traping window 64 under the effect of attractant, just can contact with deinsectization net 74 when the mosquito flies down afterwards, deinsectization net 74 is in the on state alright electrocute the mosquito electricity this moment, the mosquito alright drop in the ground through the connection frame 72, so alright automatic insecticidal work that carries on avoids the mosquito etc. to cause the destruction to fruit tree or fruit tree, when need not this equipment to carry out the during operation, make the battery 5 no longer discharge can.

The mosquito attracting device further comprises a pressing mechanism 8, the pressing mechanism 8 comprises guide rods 81, guide blocks 82, attracting plates 83, sliding blocks 84, pressing plates 85 and second springs 86, the guide rods 81 are arranged in the guide grooves 66 of the enclosing plates 65, the guide blocks 82 are arranged on the guide rods 81 in a sliding mode, the second springs 86 are connected between the bottoms of the guide blocks 82 and the enclosing plates 65, the second springs 86 are wound on the adjacent guide rods 81, the pressing plates 85 are connected between the guide blocks 82 in a welding mode, the attracting plates 83 are arranged in the pressing plates 85 in a rotating mode, the attracting plates 83 can prevent mosquitoes in the enclosing plates 65 from flying above the enclosing plates 65 again as far as possible, the sliding blocks 84 are arranged on the right front sides of the attracting plates 83, the sliding blocks 84 are connected with threaded grooves of the enclosing plates 65 in a sliding mode, two layers of holes are formed in the attracting plates 83, and the holes on the upper layers are larger than the holes on the lower layers.

When the mosquitoes fly into the enclosing plate 65, the mosquitoes continue to fly downwards under the action of the insect attractant, if the mosquitoes pass through the attraction plate 83, because the lower layer holes of the attraction plate 83 are smaller than the upper layer holes, the mosquitoes are difficult to fly upwards again, when the device is used, a worker can regularly press the guide block 82 to drive the pressing plate 85 to move downwards, the second spring 86 is compressed, the pressing plate 85 moves downwards to drive the attraction plate 83 and the sliding block 84 to move downwards, the sliding block 84 rotates under the action of the thread groove of the enclosing plate 65, so that the attraction plate 83 rotates, the attraction plate 83 rotates while moving downwards, the movable space of the mosquitoes is gradually reduced, the mosquitoes are difficult to penetrate out of the holes of the attraction plate 83 and fly to the upper part in the enclosing plate 65, the mosquitoes can be contacted with the insect killing net 74 to be electrocuted, and the mosquitoes are prevented from being contacted with the insect killing net 74 in the enclosing plate 65 all the time, when the inside of the enclosing plate 65 is not provided with mosquitoes, the guide block 82 can be released, the guide block 82, the pressing plate 85, the attraction plate 83 and the slide block 84 move upwards to be reset under the action of the second spring 86, and meanwhile, the attraction plate 83 and the slide block 84 rotate to be reset.

The bird repellent device is characterized by further comprising a repellent mechanism 9, wherein the repellent mechanism 9 comprises a first limiting ring 91, a third spring 92, a connecting ring 93, small bells 94, a second limiting ring 95, electric push rods 96 and a pressing ring 97, the first limiting ring 91 is arranged on the upper side of the branch rod 2 in a welding mode, the first limiting ring 91 is located on the upper side of the connecting rod 71, the second limiting ring 95 is arranged on the upper side of the branch rod 2 in a welding mode, the electric push rods 96 are symmetrically arranged on the front side and the rear side of the second limiting ring 95, the connecting ring 93 is connected between the bottoms of telescopic rods of the electric push rods 96 and is connected with the branch rod 2 in a sliding mode, the third spring 92 is connected between the bottom of the connecting ring 93 and the first limiting ring 91, the pressing ring 97 is arranged on the outer side of the connecting ring 93, the pressing ring 97 is in contact with the guide blocks 82, the bottom of the connecting ring 93 is provided with a plurality of small bells 94 through thin lines, and the small bells 94 can make sound to repel birds.

Before the device is used, a worker can set the working state of the electric push rod 96, when the electric push rod 96 works, the telescopic rod of the electric push rod 96 extends for 10 seconds and then shortens for 10 seconds to reset, and after fifteen minutes, the telescopic rod of the electric push rod 96 extends and shortens again, so that the telescopic rod of the electric push rod 96 can extend and shorten intermittently during use, when the device is used, the telescopic rod of the electric push rod 96 extends to drive the connecting ring 93 to move downwards, the connecting ring 93 moves downwards to drive the press ring 97 and the bell 94 to move downwards, the third spring 92 is compressed, the press ring 97 moves downwards to drive the guide block 82 to move downwards, so that the press plate 85 automatically moves downwards, the telescopic rod of the electric push rod 96 shortens to drive the connecting ring 93 to move upwards, the third spring 92 is stretched to reset, the third spring 92 plays a buffering role, so that the press ring 97 and the bell 94 move upwards, further, the press ring 97 does not press the guide block 82 any more, the guide block 82 can automatically move upwards for resetting, the small bell 94 is arranged on the connecting ring 93 through a thin line, so that the small bell 94 can still shake during moving, the small bell 94 can make a sound when shaking, and therefore birds can be repelled, the birds are prevented from gnawing fruit trees and fruits, and when the device is not used, the electric push rod 96 cannot work.

Still including receiving mechanism 10, receiving mechanism 10 is equipped with through the welded mode and receives frame 101 including receiving frame 101, fixture block 102, swivel ring 103 and kelly 104 bottom the link frame 72, receives the frame 101 outside and evenly is equipped with three fixture block 102 through the welded mode along circumference, receives the frame 101 and goes up the rotation type and be equipped with swivel ring 103, and swivel ring 103 is inboard evenly to be equipped with three kellies 104 along circumference, can block into in the fixture block 102 after kelly 104 rotates.

Before the equipment work, the staff can collect the frame 101 with the disposal bag cover, make disposal bag and fixture block 102 contact, it rotates the swivel becket 103 and drives kelly 104 and rotate, make kelly 104 rotate to with fixture block 102 block, thereby can fix the disposal bag on collecting frame 101, when equipment uses, the dead mosquito of electricity by deinsectization net 74 just can drop in the disposal bag, so alright avoid the direct whereabouts of mosquito corpse to need the secondary to clear up, when equipment no longer uses, the staff alright grasp the disposal bag, reverse rotation swivel becket 103 drives kelly 104 reversal, thereby make kelly 104 not with fixture block 102 block, alright take off the disposal bag and clear up.

Still including descending mechanism 11, descending mechanism 11 is equipped with servo motor 111 in the middle of sheltering from the lid 63 bottom including servo motor 111, fan 112 and second electric wire 113, and servo motor 111 output shaft bottom is equipped with fan 112, and the wind that blows out when fan 112 rotates can further avoid the mosquito to fly upwards, is connected with second electric wire 113 between servo motor 111 and battery 5.

When equipment uses, the electric energy in the battery 5 is through second electric wire 113 input servo motor 111 to make servo motor 111 work, servo motor 111 output shaft rotates and drives fan 112 and rotate, fan 112 rotates just can blow out the wind, when the mosquito flies into and traps window 64, alright make the more difficult up flight of mosquito under the effect of wind power, and then make the deinsectization effect of equipment better, when equipment is no longer used, servo motor 111 just can stop work.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims

1. A biological insecticidal equipment for cherry tree which characterized in that: the insect trap comprises a base (1), a branch rod (2), stabilizing blocks (3), photovoltaic panels (4), a storage battery (5), an insect attracting mechanism (6) and an insect killing mechanism (7), wherein the branch rod (2) is arranged at the top of the base (1), the three stabilizing blocks (3) are uniformly arranged on the lower side of the branch rod (2) along the circumferential direction, the photovoltaic panels (4) are arranged at the top of the branch rod (2), the storage battery (5) is arranged at the lower part of the left side of the photovoltaic panels (4), the insect attracting mechanism (6) is arranged on the upper side of the branch rod (2), and the insect killing mechanism (7) is connected between the upper side of the branch rod (2) and the storage battery (5);

the insect attracting mechanism (6) comprises an installation frame (61), a lifting rod (62), a shielding cover (63), an attracting window (64), a coaming (65) and a first spring (67), the installation frame (61) is arranged on the upper side of the branch rod (2), the lifting rod (62) is arranged on the left side of the installation frame (61) in a sliding mode, the shielding cover (63) is arranged at the bottom of the lifting rod (62), the attracting window (64) is arranged at the bottom of the shielding cover (63), the coaming (65) is arranged at the bottom of the attracting window (64), guide grooves (66) are symmetrically formed in the front and back of the upper portion of the coaming (65), and the first spring (67) is connected between the lower side of the lifting rod (62) and the bottom of the installation frame (61);

the pest killing mechanism (7) comprises a connecting rod (71), a connecting frame (72), a first electric wire (73) and a pest killing net (74), the connecting rod (71) is arranged on the upper side of the branch rod (2), the connecting rod (71) is positioned on the lower side of the mounting frame (61), the connecting frame (72) is arranged at the left end of the connecting rod (71), the pest killing net (74) is arranged in the connecting frame (72), the first electric wires (73) are symmetrically connected between the pest killing net (74) and the storage battery (5) in a front-back mode, and the first electric wires (73) penetrate through the connecting frame (72);

the downward pressing mechanism (8) comprises guide rods (81), guide blocks (82), attracting plates (83), sliding blocks (84), pressing plates (85) and second springs (86), the guide rods (81) are arranged in guide grooves (66) of the enclosing plates (65), the guide blocks (82) are arranged on the guide rods (81) in a sliding mode, the second springs (86) are connected between the bottoms of the guide blocks (82) and the enclosing plates (65), the second springs (86) are wound on the adjacent guide rods (81), the pressing plates (85) are connected between the guide blocks (82), the attracting plates (83) are arranged in the pressing plates (85) in a rotating mode, the sliding blocks (84) are arranged on the right front side of the attracting plates (83), the sliding blocks (84) are connected with thread grooves of the enclosing plates (65) in a sliding mode, two layers of holes are formed in the attracting plates (83), and the holes in the upper layer are larger than the holes in the lower layer;

the driving mechanism (9) comprises a first limit ring (91), a third spring (92), a connecting ring (93), a bell (94), a second limit ring (95), an electric push rod (96) and a press ring (97), a first limiting ring (91) is arranged on the upper side of the branch rod (2), the first limiting ring (91) is positioned on the upper side of the connecting rod (71), a second limiting ring (95) is arranged on the upper side of the branch rod (2), electric push rods (96) are symmetrically arranged in the front and back of the second limiting ring (95), a connecting ring (93) is connected between the bottoms of telescopic rods of the electric push rods (96), the connecting ring (93) is connected with the branch rod (2) in a sliding manner, a third spring (92) is connected between the bottom of the connecting ring (93) and the first limiting ring (91), a pressing ring (97) is arranged on the outer side of the connecting ring (93), the pressing ring (97) is in contact with the guide block (82), and a plurality of small bells (94) are arranged at the bottom of the connecting ring (93) through thin wires;

the descending mechanism (11) comprises a servo motor (111), a fan (112) and a second electric wire (113), the servo motor (111) is arranged in the middle of the bottom of the shielding cover (63), the fan (112) is arranged at the bottom of an output shaft of the servo motor (111), and the second electric wire (113) is connected between the servo motor (111) and the storage battery (5).

2. A biopesticide device for cherry trees, according to claim 1, wherein: still including receiving mechanism (10), receiving mechanism (10) is including receiving frame (101), fixture block (102), swivel ring (103) and kelly (104), and the link (72) bottom is equipped with collects frame (101), collects frame (101) outside and evenly is equipped with three fixture block (102) along circumference, collects and rotates on frame (101) and is equipped with swivel ring (103), and swivel ring (103) inboard evenly is equipped with three kellies (104) along circumference, but kelly (104) rotate the back card advance in fixture block (102).

3. A biopesticide device for cherry trees, according to claim 2, wherein: the lower side of the coaming (65) is provided with a thread groove.