CN210901063U

CN210901063U - Floated agricultural deinsectization equipment

Info

Publication number: CN210901063U
Application number: CN201921905874.6U
Authority: CN
Inventors: 邱健平; 刘浩然; 崔玺晶; 刘明昊; 冀杰; 王旭晖
Original assignee: Southwest University
Current assignee: Southwest University
Priority date: 2019-11-07
Filing date: 2019-11-07
Publication date: 2020-07-03
Anticipated expiration: 2029-11-07

Abstract

The utility model discloses a floated agricultural deinsectization equipment, including the deinsectization device, still include the bed frame, the deinsectization device sets up in the bed frame below, still is equipped with the rotor device on the bed frame, still connects on the bed frame to be provided with floating air bag. The utility model has the advantages of simple structure, the ability of continuously cruising is stronger.

Description

Floated agricultural deinsectization equipment

Technical Field

The utility model belongs to the technical field of the agricultural is harmful removed, concretely relates to floated agricultural deinsectization equipment.

Background

The field management refers to a labor process for creating good conditions for the growth and development of crops, and the deinsectization is a key part. Crops are damaged by pests, the growth state of the crops can be influenced, and the crops can have pathological changes such as withered roots, rottenness and the like, so that the damage is great. Meanwhile, because of the problems of various pest types, strong resistance and the like, the pest killing becomes the field management which most peasants feel troublesome.

With the development of science and technology, chemical control is gradually transiting to physical control, and the advantages are as follows: (1) the use of pesticides is reduced, and the natural ecological environment is protected; (2) the physical disinsection mode avoids the harm of pesticide to human body, liberates labor force and saves labor cost; (3) people have higher and higher requirements on the quality of fruits and vegetables, and physical disinsection has little influence on the quality of crops. The transformation from chemical deinsectization to physical deinsectization is beneficial to improving the yield and quality of crops and meets the national policy and market requirements.

The adoption of cruise formula disinsection equipment at prior art center carries out the deinsectization, and it compares fixed disinsection equipment, has following three advantages: (1) fixed pest control device influence scope is limited, and a single cruise formula bugZapper can carry out the deinsectization management to the farmland of great area. (2) The cruise type insect killing lamp has dense and orderly scanning tracks in the field, the insect killing effect is stable, dead angles exist in the coverage range of the effect of the fixed type insect killing lamp, and the insect killing effect which cannot be guaranteed is consistent. The cruise type deinsectization lamp can ensure that the deinsectization effect in the area is high and uniform. The fixed deinsectization equipment coverage range edge deinsectization effect is relatively poor to have the induction effect to phototaxis insect far away from the deinsectization lamp, there is the threat to edge crop. In view of the above, it is necessary to employ a cruise-type vermin exterminating apparatus.

Chinese patent (CN 107150805A) discloses a dual-purpose disinsection unmanned plane for day and night; chinese patent (CN 107662706A) discloses a pest killing unmanned aerial vehicle; however, the equipment which can complete cruising and deinsectization in the center of the prior art has defects in practical use, when the aircraft drives the deinsectization equipment to complete cruising work, the power consumption is high, and the power consumption of the deinsectization lamp and other components of the equipment can cause the cruising time of the whole equipment to be short.

Therefore, how to provide a suspension type agricultural insect killing device with a simple structure and stronger continuous cruising ability becomes a technical problem to be solved by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art, the utility model aims to solve the technical problem that: how to provide a simple structure, it is stronger to last cruising ability's floated agricultural deinsectization equipment.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a floated agricultural deinsectization equipment, includes the deinsectization device, still includes the bed frame, the deinsectization device sets up in the bed frame below, still is equipped with the rotor device on the bed frame, and its characterized in that still connects on the bed frame and is provided with floating air bag.

Therefore, when the suspended agricultural insect killing device is used, the floating air bag connected and arranged on the base frame can generate upward lifting force to offset or partially offset the gravity of the base frame and the insect killing device; adopt and float the gasbag and combine with the rotor device, because the ascending lift force of superficial gasbag can offset the gravity of bed frame and deinsectization device, the rotor device is whole operation completion cruises again to controlgear, can save the power consumption, improve equipment's the ability of cruising that lasts for the last operating time after once supplying power or charging of equipment is longer.

Preferably, the insect killing device comprises a trap lamp and an electric shock insect killer arranged around the trap lamp.

Like this, the pest control device includes inside moth-killing lamp and outside electric shock insect killer, lures harmful insects class through the moth-killing lamp, carries out the deinsectization operation through the electric shock insect killer, has the better advantage of deinsectization effect.

Preferably, the floating air bag comprises an air bag body and helium filled in the air bag body.

Therefore, the floating air bag can better provide upward lifting force to better offset or partially offset the gravity of the deinsectization device and the base frame, and the continuous cruising ability of the equipment can be better improved.

Preferably, the floating air bag generates upward lifting force equal to the sum of the gravity of the base frame and the insect killing device.

Therefore, the floating air bag generates upward lifting force equal to the sum of the gravity of the base frame and the insect killing device, the gravity of the insect killing device and the base frame can be better offset, and the continuous cruising ability of the equipment can be better improved.

As optimization, the pedestal includes that the whole of lower extreme is the bottom pedestal of cuboid structure, is spaced and in pairs on the terminal surface under the bottom pedestal and is equipped with the undercarriage that sets up downwards, and forms mounting plane and installation between two undercarriage on the terminal surface under the bottom pedestal and be fixed with the pest control device, the lower terminal surface of undercarriage surpasss downwards the high position of terminal surface place under the pest control device.

The lower end face of the undercarriage is arranged on the lower end face of the bottom base frame; the whole structure is simpler, the whole equipment is more compact, and the deinsectization device is convenient to mount; and whole device is when rising and falling to and the during operation, the undercarriage can both effectually avoid the pest control device to receive collision and interference, can improve the deinsectization effect.

As optimization, the landing gear comprises paired bearing rods with the lower ends obliquely and outwards bent, and a stabilizing rod horizontally arranged is connected between the two bearing rods; and the projection of the stabilizer bar in the horizontal direction is positioned outside the horizontal projection of the bottom base frame.

In this way, the structure of the landing gear is simpler and the device can be more stable when landing. Further, both ends of the stabilizer bar respectively extend outwards and the projection in the horizontal direction is arranged beyond the support rod. This results in better stability.

Preferably, the rotor device comprises a lifting rotor; four corner positions on the upper end face of the bottom pedestal are respectively fixedly connected with a supporting rod which is horizontally arranged outwards, and the outer end of the supporting rod forms a mounting end and is provided with the ascending rotor.

Like this, through set up the outside bracing piece of four levels on bottom bed frame up end for the outer end of bracing piece forms the mounting structure who is used for installing the rotor that rises, has simple structure, and easy to assemble arranges the advantage of the rotor that rises. When the whole equipment works, the floating air bag offsets or partially offsets the gravity of the base and the insect killing device, and then the lifting rotor wing drives the whole equipment to lift off to work. Specifically, the rotor that rises includes vertical installation at the driving motor of bracing piece outer end, and driving motor's upper end is power take off end and transmission is connected with the rotor blade that rises.

As an optimization, the support rods are arranged along the side length direction of a group of contour lines parallel to each other on the upper end face of the base frame at the bottom, so that any two support rods are arranged in parallel to each other.

Like this, it is more reasonable to set up, and the ascending lift that the rotor that rises of bracing piece outer end provided is more steady, and influence each other between the rotor that rises is littleer.

As optimization, the pedestal comprises a connecting rod vertically arranged at the middle part, the lower end of the connecting rod is fixedly connected with the pedestal at the bottom, and the upper end of the connecting rod is connected with the floating air bag.

Therefore, the base frame is conveniently connected with the floating air bag, and the structure is simple.

Preferably, the number of the connecting rods is four, and the connecting rods are arranged in a rectangular shape.

Therefore, the base frame and the floating air bag are more reliably connected and more stably connected.

Preferably, the base frame further comprises a mounting frame at the upper end, the mounting frame comprises a circle of annular strip-shaped mounting plate, and the inner side surface of the mounting plate forms an air bag connecting surface and is used for being attached and connected with the floating air bag; the outer side surface of the mounting plate forms a rotor mounting surface; the rotor device also comprises a steering rotor and a driving rotor; the left side and the right side of the rotor wing installation surface are respectively provided with a steering rotor wing for driving the floating air bag to rotate horizontally, and the front side and the rear side of the rotor wing installation surface are respectively provided with a driving rotor wing for driving the floating air bag to move horizontally.

In this way, the mounting plate and the floating air bag are connected in a sticking manner, so that the mounting plate and the floating air bag are reliably connected, and the mounting plate can play a supporting role on the floating air bag, so that the floating air bag is better kept not to deform; and the surface of mounting panel can form the rotor and install the face and can conveniently install and turn to rotor and drive the rotor. Because the volume of the floating air bag is often larger than that of the pedestal and the deinsectization device, the floating air bag has larger resistance when the equipment works, and the steering rotor wing and the driving rotor wing are correspondingly arranged on the floating air bag, so that the steering and driving of the whole equipment can be better completed; the mounting panel that sets up can correspond more conveniently and turn to rotor and drive the rotor and install.

As optimization, an included angle formed by a connecting line between the two steering rotors and a connecting line between the two driving rotors is a right angle.

Like this, turn to the rotor and drive the position that the rotor set up more reasonable, the whole equipment of drive that can be more steady turns to and drives the whole equipment operation.

Preferably, the mounting plate is provided with lightening holes.

In this way, the weight of the equipment can be reduced by arranging the lightening holes on the mounting plate, the load during operation is reduced, and the cruising ability of the equipment is increased.

As optimization, the lightening holes comprise first lightening holes which are long-strip-shaped and are arranged at intervals along the length direction of the mounting plate, and second lightening holes which are correspondingly arranged between two adjacent first lightening holes and are of a rectangular structure; three second lightening holes are uniformly arranged between any two adjacent first lightening holes; and one second lightening hole positioned in the middle of any adjacent three second lightening holes forms a mounting hole, an outwards-arranged connecting block is fixedly inserted in the mounting hole, a horizontally outwards-arranged mounting rod is fixedly connected to the outer end face of the connecting block, and a steering rotor and a driving rotor are correspondingly mounted at the outer end of the mounting rod respectively.

Like this, through set up the installation piece in the mounting hole, set up the installation pole again on the installation piece, the outer end of installation pole is respectively corresponding installs and is turned to rotor and drive rotor, and the convenience is installed turning to rotor and drive rotor. Furthermore, the driving rotor wing comprises a horizontal rod which is connected to the outer end of the mounting rod and is combined with the mounting rod to form a T shape, driving motors which are horizontally arranged are respectively fixed at two ends of the horizontal rod, and the outer end of each driving motor is a power output end and is in transmission connection with a driving rotor wing blade; furthermore, turn to the rotor including fixing the driving motor who is the level setting in the installation pole outer end, driving motor's outer end is power take off end and transmission is connected with and turns to the rotor blade.

As optimization, the bottom base frame comprises a base frame body with a rectangular box body structure with an open upper end, and a supporting framework in a shape like a Chinese character jing is horizontally arranged inside the upper end of the base frame body.

Like this, whole bottom bed frame structure is simpler, and can play the effect that subtracts heavy.

Drawings

Fig. 1 is a schematic axial view of an embodiment of the present invention.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a top view of fig. 2.

Fig. 4 is a bottom view of fig. 2.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In the specific implementation: as shown in fig. 1 to 4, a suspension type agricultural disinsection device comprises a disinsection device 1 and a pedestal 2, wherein the disinsection device is arranged below the pedestal, a rotor wing device 3 is further arranged on the pedestal, and a floating air bag 4 is further connected and arranged on the pedestal.

Therefore, when the suspended agricultural insect killing device is used, the floating air bag connected and arranged on the base frame can generate upward lifting force to offset or partially offset the gravity of the base frame and the insect killing device; adopt and float the gasbag and combine with the rotor device, because the ascending lift force of superficial gasbag can offset the gravity of bed frame and deinsectization device, the rotor device is whole operation completion cruises again to controlgear, can save the power consumption, improve equipment's ability of crusing oneself for the last operating time after equipment once supplies power or charges is longer. During specific implementation, helium is arranged in the floating air bag, so that the floating air bag can better provide the lifting force.

In this embodiment, the insect killer 1 comprises a trap lamp and an electric shock insect killer arranged around the trap lamp.

Like this, the pest control device includes inside moth-killing lamp and outside electric shock insect killer, lures harmful insects class through the moth-killing lamp, carries out the deinsectization operation through the electric shock insect killer, has the better advantage of deinsectization effect. When the trap lamp is used, the trap lamp is connected with a storage battery arranged on the base frame and works by the power supply of the storage battery. The battery supplies power for the rotor device simultaneously.

In the present embodiment, the floating air bag 4 includes an air bag body, and helium gas filled in the air bag body.

Therefore, the floating air bag can better provide upward lifting force to better offset or partially offset the gravity of the deinsectization device and the base frame, and the continuous cruising ability of the equipment can be better improved. Specifically, the airbag body is made of soft PVC materials.

In this embodiment, the floating air bag 4 generates an upward lifting force equal to the sum of the gravity of the base frame and the insect killer.

In this embodiment, the pedestal 2 includes that the whole of lower extreme is the bottom pedestal 5 of cuboid structure, is spaced and the mated undercarriage 6 that is equipped with downward setting on the terminal surface under the bottom pedestal, and forms mounting plane and installation fixed with between two undercarriages on the terminal surface under the bottom pedestal deinsectization device 1, the lower terminal surface of undercarriage surpasss downwards deinsectization device lower terminal surface position.

In the present embodiment, the landing gear 6 includes paired bearing rods 7 with lower ends bent obliquely outward, and a stabilizing rod 8 horizontally disposed is connected between the two bearing rods; and the projection of the stabilizer bar in the horizontal direction is positioned outside the horizontal projection of the bottom base frame.

In this way, the structure of the landing gear is simpler and the device can be more stable when landing. Specifically, both ends of the stabilizer bar extend outwards respectively, and the projection in the horizontal direction is arranged beyond the supporting rod. This results in better stability.

In this embodiment, the rotor device comprises an ascending rotor 9; four corner positions on the upper end face of the bottom pedestal are respectively connected and fixed with a support rod 10 which is horizontally arranged outwards, and the outer end of the support rod forms an installation end and is provided with the ascending rotor wing.

In this embodiment, the support rods 10 are disposed along the length direction of a set of parallel contour lines on the upper end surface of the bottom base frame, so that any two support rods are disposed parallel to each other.

In this embodiment, the base frame 2 includes a connecting rod 11 vertically disposed at the middle portion, the lower end of the connecting rod is fixedly connected to the bottom base frame, and the upper end of the connecting rod is connected to the floating air bag 4.

In this embodiment, the number of the connecting rods 11 is four, which are arranged in a rectangle.

In the present embodiment, the base frame 2 further includes a mounting frame 12 at the upper end, the mounting frame includes a circle of annular strip-shaped mounting plate 13, and the inner side surface of the mounting plate forms an airbag connection surface and is used for being attached to and connected with the floating airbag; the outer side surface of the mounting plate forms a rotor mounting surface; the rotor arrangement further comprises a steering rotor 14 and a drive rotor 15; the left side and the right side of the rotor wing installation surface are respectively provided with a steering rotor wing for driving the floating air bag to rotate horizontally, and the front side and the rear side of the rotor wing installation surface are respectively provided with a driving rotor wing for driving the floating air bag to move horizontally.

In this way, the mounting plate and the floating air bag are connected in a sticking manner, so that the mounting plate and the floating air bag are reliably connected, and the mounting plate can play a supporting role on the floating air bag, so that the floating air bag is better kept not to deform; and the surface of mounting panel can form the rotor and install the face and can conveniently install and turn to rotor and drive the rotor. Because the volume of the floating air bag is often larger than that of the pedestal and the deinsectization device, the floating air bag has larger resistance when the equipment works, and the steering rotor wing and the driving rotor wing are correspondingly arranged on the floating air bag, so that the steering and driving of the whole equipment can be better completed; the mounting panel that sets up can correspond more conveniently and turn to rotor and drive the rotor and install. During concrete implementation, the two steering rotors rotate in a differential mode in pairs to realize horizontal rotation of equipment and complete steering, and the steering structure has the advantages of being simple and reliable.

In this embodiment, the angle formed by the connecting line between the two steering rotors and the connecting line between the two driving rotors is a right angle.

In the present embodiment, the mounting plate 13 is provided with lightening holes.

In the present embodiment, the lightening holes include first lightening holes 16 that are long-strip-shaped and are arranged at intervals along the length direction of the mounting plate, and further include second lightening holes that are correspondingly arranged between two adjacent first lightening holes and have a rectangular structure; three second lightening holes 17 are uniformly arranged between any two adjacent first lightening holes; and one second lightening hole positioned in the middle of any three adjacent second lightening holes forms a mounting hole, an outwards-arranged connecting block 18 is fixedly inserted in the mounting hole, a horizontally outwards-arranged mounting rod 19 is fixedly connected to the outer end face of the connecting block, and a steering rotor wing and a driving rotor wing are correspondingly mounted at the outer end of the mounting rod respectively.

Like this, through set up the installation piece in the mounting hole, set up the installation pole again on the installation piece, the outer end of installation pole is respectively corresponding installs and is turned to rotor and drive rotor, and the convenience is installed turning to rotor and drive rotor. Specifically, the driving rotor comprises a horizontal rod which is connected to the outer end of the mounting rod and is combined with the mounting rod to form a T shape, driving motors which are horizontally arranged are respectively fixed at two ends of the horizontal rod, and the outer end of each driving motor is a power output end and is in transmission connection with a driving rotor blade; concretely speaking, turn to rotor including fixing the driving motor who is the level setting in the installation pole outer end, driving motor's outer end is power take off end and transmission is connected with and turns to the rotor blade.

In this embodiment, the bottom base frame includes the base frame body of the open rectangle box body structure in upper end, is provided with the supporting framework 20 that is the groined type at the inside level of base frame body upper end.

Claims

1. A suspended agricultural disinsection device comprises a disinsection device (1) and a pedestal (2), wherein the disinsection device is arranged below the pedestal, and the pedestal is also provided with a rotor wing device (3), and is characterized in that the pedestal is also connected with a floating air bag (4);

the base frame (2) comprises a bottom base frame (5) of which the whole lower end is of a rectangular body structure, landing gears (6) which are arranged downwards are spaced and paired on the lower end face of the bottom base frame, a mounting plane is formed between the two landing gears on the lower end face of the bottom base frame, the two landing gears are fixedly mounted on the bottom base frame, the lower end face of each landing gear downwards exceeds the height position of the lower end face of each pest killing device, and the lower end face of each landing gear is located on the height position of the corresponding pest.

2. A floating agricultural insect killer according to claim 1, wherein said insect killer means comprises a trap lamp and an electric shock insect killer circumferentially disposed around the trap lamp.

3. The suspended agricultural insect killing device of claim 1, wherein the floating air bag comprises an air bag body, and helium gas filled inside the air bag body.

4. A suspended agricultural insect exterminating apparatus according to claim 1, wherein the floating air bag generates an upward lifting force equal to the sum of the gravity of the base frame and the insect exterminating apparatus.

5. The suspended agricultural insect killing device according to claim 1, wherein the landing gear (6) comprises paired bearing rods (7) with the lower ends bent outwards in an inclined manner, and a stabilizing rod (8) horizontally arranged is connected between the two bearing rods; and the projection of the stabilizer bar in the horizontal direction is positioned outside the horizontal projection of the bottom base frame.

6. The suspended agricultural insect killing device according to claim 1, wherein: the rotor arrangement comprises a lift rotor (9); four corner positions on the upper end face of the bottom pedestal are respectively fixedly connected with a support rod (10) which is horizontally arranged outwards, and the outer end of the support rod forms a mounting end and is provided with the ascending rotor wing.

7. The suspended agricultural insect killing device according to claim 6, wherein: the supporting rods (10) are arranged along the side length direction of a group of contour lines parallel to each other on the upper end face of the bottom base frame, so that any two supporting rods are arranged in parallel to each other.

8. The suspended agricultural insect killing device according to claim 1, wherein: the pedestal (2) comprises a connecting rod (11) vertically arranged in the middle, the lower end of the connecting rod is fixedly connected with the pedestal at the bottom, and the upper end of the connecting rod is connected with the floating air bag (4).

9. A suspended agricultural insect exterminating apparatus according to claim 2, wherein: the base frame (2) further comprises a mounting frame (12) at the upper end, the mounting frame comprises a circle of annular strip-shaped mounting plate (13), and the inner side surface of the mounting plate forms an air bag connecting surface and is used for being attached and connected with the floating air bag; the outer side surface of the mounting plate forms a rotor mounting surface; the rotor device also comprises a steering rotor (14) and a driving rotor (15); the left side and the right side of the rotor wing installation surface are respectively provided with a steering rotor wing for driving the floating air bag to horizontally rotate, and the front side and the rear side of the rotor wing installation surface are respectively provided with a driving rotor wing for driving the floating air bag to horizontally move;

an included angle formed by a connecting line between the two steering rotors and a connecting line between the two driving rotors is a right angle;

a lightening hole is arranged on the mounting plate (13);

the lightening holes comprise first lightening holes (16) which are long-strip-shaped and are arranged at intervals along the length direction of the mounting plate, and also comprise second lightening holes which are correspondingly arranged between two adjacent first lightening holes and are of a rectangular structure; three second lightening holes (17) are uniformly arranged between any two adjacent first lightening holes; one second lightening hole positioned in the middle of any adjacent three second lightening holes forms a mounting hole, an outward connecting block (18) is fixedly inserted into the mounting hole, a horizontal outward mounting rod (19) is fixedly connected to the outer end face of the connecting block, and a steering rotor wing and a driving rotor wing are correspondingly mounted at the outer end of the mounting rod respectively;

the bottom bed frame comprises a bed frame body with a rectangular box body structure with an open upper end, and a supporting framework (20) shaped like a Chinese character jing is horizontally arranged inside the upper end of the bed frame body.