CN209950165U

CN209950165U - Natural enemy emitter

Info

Publication number: CN209950165U
Application number: CN201920677811.3U
Authority: CN
Inventors: 李德伟; 覃振强; 罗亚伟; 宋修鹏; 谭宏伟; 何为中; 梁阗; 丁华珍
Original assignee: Guangxi Zhuang Nationality Autonomous Region Academy of Agricultural Sciences
Current assignee: Guangxi Zhuang Nationality Autonomous Region Academy of Agricultural Sciences
Priority date: 2019-05-13
Filing date: 2019-05-13
Publication date: 2020-01-17
Anticipated expiration: 2029-05-13

Abstract

The utility model discloses a natural enemy transmitter, it includes: a case provided with a circular cavity and a cover plate; the poking plate divides the circular cavity into a loading chamber and a launching chamber, and the edge of the poking plate is provided with a poking notch; the lower end of the rotating shaft is arranged at the bottom of the launching chamber, and the upper end of the rotating shaft is connected with the dial-in plate; the ejection supporting plate is arranged in the launching chamber; the middle part of the launching elastic sheet is fixed on the rotating shaft; the front part and the rear part of the ejection supporting plate are respectively provided with a stop lever; the channel plate is arranged in the launching chamber, and the front end and the rear end of the channel plate are respectively provided with a launching channel; the upper end of the emission channel penetrates through the channel plate; the lower end of the launching channel is provided with an ejection guide tube, and the ejection guide tube is provided with an ejection notch corresponding to the end part of the launching elastic sheet. The launching chamber can also be provided with a poking supporting plate, a poking rod and a poking channel, so that the natural enemy container can be released in the left direction, the right direction and the middle direction simultaneously. The utility model discloses can automatic release natural enemy container, its is efficient and effectual to guarantee the effective prevention and cure to the pest.

Description

Natural enemy emitter

Technical Field

The utility model relates to a pest control field, in particular to natural enemy transmitter.

Background

The long-term use of chemical agents for pest control easily causes the pests to generate drug resistance, destroys ecological balance, pollutes the environment, influences the quality of agricultural products and brings about a plurality of side effects. With the continuous development and progress of science and technology, the use of chemical pesticides is reduced, the call for protecting the living environment of human beings is rising day by day, and the research and development of preventing and treating the crop pests by using the natural enemies of organisms becomes one of the important research subjects of plant protection scientists at home and abroad. The natural enemy has the characteristics of safety, effectiveness, no pollution and the like, is in accordance with the requirements of protecting the ecological environment and the social coordination development, and has important significance on the control effect of main pest populations. At present, the propagation and the utilization of natural enemy insects in China have remarkable effect. However, the existing natural enemy release technology mostly adopts manual release, and has the disadvantages of large labor force, long time consumption and low efficiency.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information constitutes prior art already known to a person skilled in the art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a natural enemy transmitter to overcome the big, long and the inefficiency shortcoming consuming time of labour of current natural enemy release technique.

In order to achieve the above object, the utility model provides a natural enemy transmitter, wherein, include: the device comprises a shell, a cover plate and a base, wherein the shell is provided with a circular cavity with an opening at the upper end; a dial-in plate rotatably disposed in the circular cavity, the dial-in plate dividing the circular cavity into an upper loading chamber and a lower launching chamber; the loading chamber is used for placing a natural enemy container; at least two dial-in gaps are arranged on the edge of the dial-in plate along the circumferential direction; the lower end of the rotating shaft is arranged at the bottom of the launching chamber in a rotatable mode, and the rotating shaft is driven to rotate by a power mechanism; the upper end of the rotating shaft is connected with the dial-in plate; the ejection supporting plate is fixedly arranged in the launching chamber, and the rotating shaft penetrates through the ejection supporting plate; the middle part of the launching elastic sheet is fixed on the rotating shaft, and the launching elastic sheet is positioned above the launching supporting plate; the front part and the rear part of the ejection supporting plate are respectively provided with one stop lever; the upper ends of the two stop levers are higher than the launching elastic sheet, and the diameter of the circumference where the two stop levers are located is smaller than that of the two end parts of the launching elastic sheet; the channel plate is fixedly arranged in the emission chamber and is positioned above the emission elastic sheet; the upper end of the rotating shaft penetrates through the channel plate; the front end and the rear end of the channel plate are respectively provided with an emission channel; the upper end of each launching channel penetrates through the channel plate, and the lower end of each launching channel extends downwards to a position corresponding to the end of the launching elastic sheet; the lower end of the launching channel positioned at the front end is provided with a left-bent launching guide pipe, the lower end of the launching channel positioned at the rear end is provided with another right-bent launching guide pipe, and each launching guide pipe is provided with a launching notch corresponding to the end part of the launching elastic sheet; when the dial-in plate rotates to a state that one dial-in notch is aligned with the upper end of one of the launching channels, the other dial-in notch is aligned with the upper end of the other launching channel.

Preferably, in the above technical solution, the power mechanism is a rotating electrical machine.

Preferably, in the above technical solution, the method further includes: the poking supporting plate is arranged in the launching chamber and is positioned above the launching elastic sheet; the middle part of the poking rod is arranged on the rotating shaft, and the poking rod is positioned above the poking supporting plate; and a dial-up channel disposed on the right side of the channel plate; the upper end of the poking channel penetrates through the channel plate, and the lower end of the poking channel extends downwards to a position corresponding to the end part of the poking rod; the lower end of the poking and ejecting channel is provided with a poking and ejecting guide pipe which is bent forwards, and the poking and ejecting guide pipe is provided with a poking and ejecting notch corresponding to the end part of the poking and ejecting rod; the edge of the dial-in plate is provided with at least three dial-in gaps; when the dial-in plate rotates to the state that two dial-in gaps are respectively aligned with the upper ends of the two emission channels, the other dial-in gap is aligned with the upper end of the dial-in channel.

Preferably, in the above technical solution, the edge of the dial-in plate is uniformly provided with four dial-in notches along the circumferential direction.

Preferably, in the above technical solution, the natural enemy container is a hollow sphere with a wall hole on the wall.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses can carry on and come the automatic release natural enemy container on unmanned aerial vehicle, dial into the board and dial into two transmission passageways through dialling into the breach to the natural enemy container, the both ends of the transmission shell fragment that the rotation axis drove are kept off the bending by the pin respectively earlier, in order to gather the energy, the rotation axis continues to rotate just can drive the both ends of transmission shell fragment and cross the pin, launch away from the ejection guide pipe with the natural enemy container in two transmission passageways from launching the breach, and two natural enemy containers that launch in the guide pipe are respectively to left right direction transmission, the rotation axis continuously rotates, just can launch the release to the natural enemy container circularly. The utility model discloses the efficient and effectual of release natural enemy container to can guarantee to prevent and treat the pest effectively.

2. The utility model discloses still be provided with one and dial the passageway of penetrating to when the rotation axis rotates the natural enemy container that makes in two transmission passageways and launches to controlling two directions, dial the pole and also rotate along with the rotation axis, in order to dial the natural enemy container and launch to the place ahead from dialling the stand pipe, because this dial the pole elasticity little, just so can launch about and go out two natural enemy containers when, also release a natural enemy container from the middle, thereby can release the natural enemy better and more high-efficiently.

Drawings

Fig. 1 is a left side view of a natural enemy transmitter according to the present invention.

Fig. 2 is a schematic structural diagram of the launching channel and the dialing channel disposed on the channel plate according to the present invention.

Fig. 3 is a schematic structural view of the dial-in plate according to the present invention.

Fig. 4 is a schematic view of a firing clip in preparation for ejection past a stop lever according to the present invention.

Fig. 5 is a schematic structural view of the striking rod according to the present invention when it is ready to strike.

Description of the main reference numerals:

1-machine shell, 2-cover plate, 3-dial-in plate, 4-loading chamber, 5-emission chamber, 6-rotating shaft, 7-rotating motor, 8-partition plate, 9-ejection supporting plate, 10-emission elastic sheet, 11-stop lever, 12-channel plate, 13-emission channel, 14-dial-in supporting plate, 15-dial-in lever, 16-dial-in channel, 17-ejection guide tube, 18-ejection notch, 19-dial-in guide tube, 20-dial-in notch and 21-dial-in notch.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited by the following detailed description.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Fig. 1 to 5 are schematic structural views showing a natural enemy launcher according to a preferred embodiment of the present invention, which includes a casing 1, a dial-in plate 3, a rotating shaft 6, an ejection support plate 9, an ejection elastic sheet 10, a stop lever 11, and a channel plate 12. Referring to fig. 1, a housing 1 is mounted on an unmanned aerial vehicle, and a natural enemy can be released by the unmanned aerial vehicle. The casing 1 is provided with a circular cavity with an upper end opening, the upper end of the circular cavity is provided with a cover plate 2, and the cover plate 2 is used for controlling the opening and closing of the upper end opening of the circular cavity. The dial-in plate 3 is rotatably disposed in the circular cavity, which is located at the lower portion of the circular cavity. The dip-in plate 3 divides the circular cavity into a loading chamber 4 located above and a launch chamber 5 located below. The loading chamber 4 is used for placing natural enemy containers. Referring to fig. 3, the edge of the dial-in plate 3 is provided with at least two dial-in notches 21 along the circumferential direction.

With continued reference to fig. 1, the lower end of the rotary shaft 6 is rotatably provided at the bottom of the launching chamber 5, and the rotary shaft 6 is driven to rotate by a power mechanism. The axis of the rotating shaft 6 is aligned with the axis of the circular lumen. Preferably, the power mechanism is a rotating electric machine 7. The rotating motor 7 is fixed at the bottom of the launching chamber 5, a partition plate 8 is arranged at the bottom of the launching chamber 5 to separate the rotating motor 7 at the bottom, and the lower end of the rotating shaft 6 penetrates through the partition plate 8 and then is connected with the rotating motor 7. The rotating shaft 6 is driven to rotate at a slow speed by the rotating motor 7. The upper end of rotation axis 6 is connected with dial-in board 3 to drive dial-in board 3 through rotation axis 6 and rotate.

Referring to fig. 1 and 4, the ejection support plate 9 is fixedly disposed in the ejection chamber 5, the rotating shaft 6 penetrates through the ejection support plate 9, the middle of the ejection elastic sheet 10 is fixed on the rotating shaft 6, the ejection elastic sheet 10 is located above the ejection support plate 9, and the rotating shaft 6 can drive the ejection elastic sheet 10 to rotate. The front part and the rear part of the ejection supporting plate 9 are respectively provided with a stop lever 11, the two stop levers 11 are symmetrically distributed from front to back, the upper ends of the two stop levers 11 are higher than the ejection elastic sheet 10, the diameter of the circumference where the two stop levers 11 are located is smaller than that of the two end parts of the ejection elastic sheet 10, therefore, when the two end parts of the ejection elastic sheet 10 respectively rotate to pass through the positions corresponding to the two stop levers 11, the two end parts of the ejection elastic sheet 10 are firstly blocked by the stop levers 11 to be bent and gathered, and after the ejection elastic sheet 10 continuously rotates to reach that the two end parts instantly cross the stop levers 11, the two end parts of the ejection elastic sheet 10 are quickly rebounded to provide.

Referring to fig. 1, 2 and 4, the channel plate 12 is fixedly disposed in the launching chamber 5, the channel plate 12 is located above the launching elastic sheet 10, the channel plate 12 is located below the dial-in plate 3, the upper end of the rotating shaft 6 penetrates through the channel plate 12, the front end and the rear end of the channel plate 12 are respectively provided with a launching channel 13, the upper end of each launching channel 13 penetrates through the channel plate 12, and the lower end of each launching channel 13 extends downward to a position corresponding to the end of the launching elastic sheet 10; the lower end of the firing channel 13 at the front end is provided with a left-hand bent ejection guide tube 17, and the lower end of the firing channel 13 at the rear end is provided with another right-hand bent ejection guide tube 17, so that the two ejection guide tubes 17 face in opposite directions. Each ejection guide tube 17 is provided with an ejection notch 18 corresponding to the end of the launching spring 10. When the dial-in plate 3 is rotated to align one dial-in notch 21 with the upper end of one of the launching channels 13, another dial-in notch 21 is also aligned with the upper end of another launching channel 13. When the dial-in plate 3 rotates in the loading chamber 4, the natural enemy container falls on the dial-in notch 21, and when the dial-in plate 3 rotates until the dial-in notch 21 is aligned with the upper end of the launching channel 13, the natural enemy container falls from the launching channel 13 to the launching guide pipe 17, and then is launched out through the launching notch 18 by the end part of the launching elastic piece 10. After the two end parts of the launching elastic sheet 10 cross the stop lever 11, the launching elastic sheet rebounds rapidly and respectively passes through the two launching gaps 18 so as to launch the natural enemy containers entering the launching guide pipes 17 out, and the natural enemy containers in the two launching guide pipes 17 are respectively launched out in the left and right directions.

The utility model discloses a casing 1 can carry on and come the automatic release natural enemy container that comes on unmanned aerial vehicle, rotation axis 6 drives transmission shell fragment 10 and dials into 3 synchronous rotations of board, dial into board 3 earlier through dial into breach 21 dial into two transmission passageways 13 and enter into launch stand pipe 17 natural enemy container, the both ends of transmission shell fragment 10 are kept off the bending by pin 11 earlier respectively, in order to gather the energy, rotation axis 6 continues to rotate just can drive the both ends of transmission shell fragment 10 and cross two pin 11, in order to launch from launching notch 18 the natural enemy container in two transmission passageways 13 and launch away from launching stand pipe 17, rotation axis 6 continuously rotates, just can launch the release to the natural enemy container circularly. And after the natural enemy container falls down, the natural enemy can come out of the natural enemy container. The distance between the two stop levers 11 and the ejection notch 18 is adjusted, so that the ejection force of the ejection elastic piece 10 can be controlled, the distance between the two natural enemy containers after being ejected can be controlled, and the release requirement of the natural enemy can be met by combining the flight speed of the unmanned aerial vehicle. The utility model discloses the efficient and effectual of release natural enemy container to can guarantee to prevent and treat the pest effectively. Preferably, the natural enemy container is a hollow sphere with wall holes on the wall body, natural enemy eggs are firstly placed into the hollow sphere, and after the hollow sphere is released, the eggs hatch and then go out of the wall holes on the wall body.

Referring to fig. 1, 2 and 5, the present invention further includes a poking support plate 14, a poking rod 15 and a poking channel 16. Dial and penetrate layer board 14 and set up in launching chamber 5, dial and penetrate layer board 14 and be located the top of launching shell fragment 10 and be located the below of passageway board 12, rotation axis 6 passes and dials and penetrate layer board 14, dial the middle part of penetrating the pole 15 and fixedly set up on rotation axis 6 to drive by rotation axis 6 and launch shell fragment 10 and dial into board 3 synchronous rotation, dial and penetrate pole 15 and be located the top of dialling and penetrate layer board 14, dial and penetrate pole 15 and launch shell fragment 10 perpendicular. Dial the passageway 16 and set up in the right side of passageway board 12, dial the upper end of passageway 16 and run through passageway board 12, and dial the lower extreme downwardly extending of passageway 16 and the position that corresponds with the tip of dial pole 15, dial the lower extreme of passageway 16 and be equipped with a kicking guide tube 19 of forward bend, dial the guide tube 19 and be provided with the kicking breach 20 that corresponds with the tip of dial pole 16, dial the tip rotation of pole 16 and penetrate behind breach 20, just can dial the natural enemy container that enters into in the kicking guide tube 19 forward away, the elasticity of kicking the pole 16 is less, thereby not launch out the natural enemy container, make the natural enemy container just freely drop after the kicking guide tube 19 comes out. The two launching channels 13 penetrate through the poking supporting plate 14, and the poking rod 15 is arranged to be short and small, so that the launching channels 13 are prevented from interfering with the end part of the poking rod 15. After the setting dial-in supporting plate 14, the dial-in rod 15 and the dial-in channel 16, the edge of the dial-in plate 3 has at least three dial-in gaps 21, when two dial-in gaps 21 are aligned with the upper ends of the two emission channels 13, respectively, another dial-in gap 21 is aligned with the upper end of the dial-in channel 16. Preferably, the edge of the dial-in plate 3 is provided with four dial-in notches 21 uniformly along the circumferential direction. Every 90 degrees of rotation of dial-in board 3 like this just can dial into two launching channel 13 and dial the passageway 16 with the natural enemy container, and after the natural enemy container in launching channel 13 and the passageway 16 of dialling was full, dial-in board 3 only rotates and can not dial into each passageway with the natural enemy container, only when having the natural enemy container in the passageway to launch out the back, just has new natural enemy container to be dialled into and supplements to guarantee to store the natural enemy container in each passageway all the time.

The utility model discloses still be provided with one and dial and penetrate passageway 16, and dial and penetrate passageway 16 and be located the right side, and both ends around two transmission channel 13 are located, thereby rotate 180 degrees at rotation axis 6 every time, make two natural enemy containers in the transmission channel 13 launch away to two directions of controlling under the elasticity of transmission shell fragment 10, and simultaneously, dial the tip of penetrating pole 15 also to dial out the natural enemy container from dialling injection stand pipe 19, and dial into board 3 dial into breach 21 also dial into the ejection channel 13 and dial in the channel 16 with the natural enemy container, just so can release a natural enemy container again in the centre of the natural enemy container that launches away about two, thereby can be on a left side, on the right side, well three direction releases the natural enemy container simultaneously, with the density of controlling release natural enemy better, and further improve the release efficiency of natural enemy.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims

1. A natural enemy transmitter, comprising:

the device comprises a shell, a cover plate and a base, wherein the shell is provided with a circular cavity with an opening at the upper end;

a dial-in plate rotatably disposed in the circular cavity, the dial-in plate dividing the circular cavity into an upper loading chamber and a lower launching chamber; the loading chamber is used for placing a natural enemy container; at least two dial-in gaps are arranged on the edge of the dial-in plate along the circumferential direction;

the lower end of the rotating shaft is arranged at the bottom of the launching chamber in a rotatable mode, and the rotating shaft is driven to rotate by a power mechanism; the upper end of the rotating shaft is connected with the dial-in plate;

the ejection supporting plate is fixedly arranged in the launching chamber, and the rotating shaft penetrates through the ejection supporting plate;

the middle part of the launching elastic sheet is fixed on the rotating shaft, and the launching elastic sheet is positioned above the launching supporting plate;

the front part and the rear part of the ejection supporting plate are respectively provided with one stop lever; the upper ends of the two stop levers are higher than the launching elastic sheet, and the diameter of the circumference where the two stop levers are located is smaller than that of the two end parts of the launching elastic sheet; and

the channel plate is fixedly arranged in the transmitting chamber and positioned above the transmitting elastic sheet; the upper end of the rotating shaft penetrates through the channel plate; the front end and the rear end of the channel plate are respectively provided with an emission channel; the upper end of each launching channel penetrates through the channel plate, and the lower end of each launching channel extends downwards to a position corresponding to the end of the launching elastic sheet; the lower end of the launching channel positioned at the front end is provided with a left-bent launching guide pipe, the lower end of the launching channel positioned at the rear end is provided with another right-bent launching guide pipe, and each launching guide pipe is provided with a launching notch corresponding to the end part of the launching elastic sheet;

when the dial-in plate rotates to a state that one dial-in notch is aligned with the upper end of one of the launching channels, the other dial-in notch is aligned with the upper end of the other launching channel.

2. The natural enemy emitter of claim 1, wherein the power mechanism is a rotary motor.

3. The natural enemy transmitter of claim 1, further comprising:

the poking supporting plate is arranged in the launching chamber and is positioned above the launching elastic sheet;

the middle part of the poking rod is arranged on the rotating shaft, and the poking rod is positioned above the poking supporting plate; and

a dial-up channel disposed on a right side of the channel plate; the upper end of the poking channel penetrates through the channel plate, and the lower end of the poking channel extends downwards to a position corresponding to the end part of the poking rod; the lower end of the poking and ejecting channel is provided with a poking and ejecting guide pipe which is bent forwards, and the poking and ejecting guide pipe is provided with a poking and ejecting notch corresponding to the end part of the poking and ejecting rod; the edge of the dial-in plate is provided with at least three dial-in gaps; when the dial-in plate rotates to the state that two dial-in gaps are respectively aligned with the upper ends of the two emission channels, the other dial-in gap is aligned with the upper end of the dial-in channel.

4. The natural enemy transmitter of claim 3, wherein the edge of the dial-in plate is provided with four dial-in notches uniformly in the circumferential direction.

5. The natural enemy emitter of claim 1, wherein the natural enemy container is a hollow sphere with wall holes in the wall.