CN117204410A - High-efficient mixed stirring deinsectization device - Google Patents

Abstract

The invention relates to the technical field of deinsectization devices, in particular to a high-efficiency mixing and stirring deinsectization device. The invention provides a high-efficiency mixing and stirring deinsectization device which comprises an outer frame and a mixing cylinder, wherein the mixing cylinder is arranged at the inner side of the outer frame. The cutting blade is matched with the grinding roller, the cutting blade is used for cutting pesticide particles, the grinding roller is used for grinding the cut particles after cutting, and the particles are ground into powder.

Description

High-efficient mixed stirring deinsectization device

Technical Field

The invention relates to the technical field of deinsectization devices, in particular to a high-efficiency mixing and stirring deinsectization device.

Background

The fruit tree deinsectization device for fruit planting comprises a device body, wherein a hydraulic rod is fixedly arranged at the top of the device body, a sliding box is fixedly arranged at the top end of the hydraulic rod, water pumps are fixedly arranged at two sides of the device body, a base is fixedly arranged at the bottom of the device body, rollers are fixedly connected to the bottom surfaces of the base, a medicine box is arranged at the top inside the device body, a first electromagnetic valve is fixedly arranged at the bottom of the medicine box, a water tank is arranged on one side of the medicine box, a second electromagnetic valve is fixedly arranged at the bottom of the water tank, a medicine mixing box is arranged at the lower side of the water tank, a first motor is fixedly arranged at the bottom of the medicine mixing box, a rotating shaft is fixedly connected to the output end of the first motor, and stirring paddles are fixedly arranged on the surface of the rotating shaft.

However, the existing device is usually provided with a mixing cavity, when the mixing cavity is used for stirring and mixing, because the liquid medicine amount is large, the time is required to wait for uniform mixing, and meanwhile, if the deinsectization area is large, after pesticide spraying is finished, the worker is required to stop to mix and stir from the newly prepared material, so that the time is wasted, and the existing device can only drive the spraying outer frame to adjust up and down and can not drive the spraying outer frame to rotate, so that the spraying area is reduced.

Disclosure of Invention

In order to overcome the defects that the prior device is generally provided with a mixing cavity, and when pesticide and water are mixed, the mixing cavity needs to spend time waiting for uniform mixing, and meanwhile, if the deinsectization area is large, when the pesticide is sprayed, the worker is stopped to mix and stir from the newly prepared material, so that the time is wasted, and the prior device can only drive the spraying outer frame to adjust up and down and can not drive the spraying outer frame to rotate, so that the spraying area is reduced, the technical problem of the invention is that: provides a high-efficiency mixing and stirring deinsectization device.

The technical scheme is as follows: the efficient mixing and stirring deinsectization device comprises an outer frame and a mixing drum, wherein one end of the inner side of the outer frame is connected with the mixing drum;

the inside upper portion of mixing drum is connected with the circular arc spout, the mixing drum is close to circular arc spout below and is connected with the inlet tube, the first feed inlet has been seted up in the outside of inlet tube circumference is kept away from to the mixing drum, be connected with the motor directly over the mixing drum, be connected with first movable band on the motor, be close to first movable band below and be connected with the second movable band on the motor, the motor bottom is connected with first rotatory piece, and first rotatory piece nestification is sliding connection on the motor axostylus axostyle, and first rotatory piece bottom all is connected with the connecting rod, and the connecting rod bottom is connected with the spring expansion plate, and the spring expansion plate outside is connected with the circular arc lug, and circular arc lug circumference outside is connected with the embedded rod of embedded rod and the mixing drum and mutually support, install the connection apron directly over the circular arc lug, the spring expansion plate bottom is connected with the hybrid axle, and hybrid axle upper portion is connected with the inner circle stirring board, be close to stirring board below the stirring board on the hybrid axle, the hybrid axle bottom is connected with first baffle, the hybrid axle bottom is connected with down the clamp plate, and the clamp plate is connected with the spring assembly down, and the bottom is connected with the spring expansion plate down.

In addition, it is particularly preferable that a circular hole is formed inside the circular arc protruding block, the spring expansion plate is embedded in the circular hole of the circular arc protruding block, three protruding blocks are arranged on the inner wall of the circular arc protruding block, one side of each protruding block is provided with an inclined plate, and the other end far from the inclined plate is provided with a rectangular plate.

Furthermore, it is particularly preferred that the bottom of the lower pressing ring is connected with a pressing rod, and the lower pressing ring is overlapped on the top of the pressing rod.

In addition, particularly preferred is that the motor other end is kept away from to first movable belt and is connected with the crocus axle, and crocus axle upper portion is connected with cutting blade, crocus axle lower part is connected with the flitch of arranging, cutting blade circumference outside is connected with crocus urceolus, crocus axle bottom is connected with the rotatory piece of second, and the rotatory piece circumference outside of second is connected with a plurality of crocus rollers, and crocus roller bottom is connected with a plurality of crocus lugs, the rotatory piece bottom circumference outside of second is connected with a plurality of delivery plates, crocus urceolus inboard is connected with down the feed cylinder, and the feed cylinder circumference outside is connected with the slope filter screen, second feed inlet has been seted up between feed cylinder and the slope filter screen, the feed cylinder inboard has been seted up the chamber that gathers materials, the feed chute has all been seted up in the chamber that gathers materials of feed cylinder outside, the feed cylinder bottom is connected with crocus inner tube, and the discharge gate has been seted up to crocus inner tube inboard, crocus inner tube and crocus epaxial crocus roller mutually support, crocus roller bottom is connected with down the feed tube.

Furthermore, it is particularly preferred that the collecting chamber of the blanking cylinder cooperates with the discharge plate on the grinding shaft.

In addition, particularly preferred is that the second movable belt is far away from the other end of the motor and is connected with a lifting shaft, the lower part of the lifting shaft is connected with a threaded rod, the bottom of the lifting shaft is connected with a fixed plate, the top of the lifting shaft is connected with a large rotating disc, the circumference outside of the threaded rod is connected with a threaded cylinder, the inner side of the threaded cylinder is provided with a first gear groove, the upper part of the inner side of the threaded cylinder is connected with a clamping block, the circumference outside of the threaded cylinder is connected with a first gear, the first gear is connected with a third movable belt, the other end of the third movable belt is far away from the first gear, the circumference outside of the first gear is far away from the other end of the threaded cylinder and is connected with a lifting rod, the inner side of the lifting rod is provided with a second gear groove, the middle part of the upper part of the lifting rod is connected with a second baffle, the top of the small rotating disc is connected with a rotating rod, the top of the rotating rod is connected with a spraying outer frame, one side of the outer frame is connected with a stretching pipe, the inner side of the outer frame is connected with a plurality of spraying heads, the outer side of the small rotating disc is connected with a cylinder, and one side of the cylinder is close to the small rotating disc is connected with a circular arc clamping groove.

In addition, it is particularly preferable that the circular arc clamping groove of the cylinder is matched with the baffle plate at the upper part of the lifting rod.

In addition, it is particularly preferable that the large rotating disk on the lifting shaft is engaged with the small rotating disk of the lifting rod, and the large rotating disk and the small rotating disk are made of rubber.

Compared with the prior art, the invention has the following advantages: 1. because two cavities are arranged in the mixing drum, the liquid medicine is stirred separately by the two cavities, the stirring time is shortened, and after the liquid medicine in the bottom stirring cavity is used up, the liquid medicine in the upper cavity can be supplemented in time, so that the practicability of the device is improved.

2. Utilize cutting blade and milling roll mutually supporting, utilize cutting blade to flow into pesticide granule and cut up, then utilize milling roll to grind the garrulous granule after cutting up, grind the granule into powder for pesticide is more easy with water-solubility.

3. Then through lifter and big rotary disk mutually supporting, utilize the lifter to improve and spray the frame height, utilize big rotary disk to drive and spray the frame and rotate, and then improve and spray the area.

Drawings

FIG. 1 is a schematic view of the internal planar structure of the outer frame of the present invention.

Fig. 2 is a schematic perspective view of a mixing assembly and a grinding assembly according to the present invention.

Fig. 3 is a schematic perspective view of a mixing drum according to the present invention.

Fig. 4 is a schematic perspective view of a mixing shaft according to the present invention.

Fig. 5 is a schematic perspective view of a spring expansion plate and an arc bump according to the present invention.

Fig. 6 is a schematic perspective view of the pressing ring and the opening and closing plate of the present invention.

Fig. 7 is a schematic perspective view of a lower platen and a second spring assembly according to the present invention.

Fig. 8 is a schematic perspective view of the pulverizing assembly of the present invention.

Fig. 9 is a schematic perspective view of the grinding shaft and the second rotating block according to the present invention.

Fig. 10 is a schematic perspective view of a blanking barrel of the present invention.

Fig. 11 is a schematic plan view of a lifting assembly according to the present invention.

Fig. 12 is a schematic view of a lifting plane structure of the spray frame of the present invention.

Fig. 13 is a schematic perspective view of a lifting shaft according to the present invention.

Fig. 14 is a schematic perspective view of a screw thread cylinder according to the present invention.

Fig. 15 is a schematic perspective view of a lifting frame and lifting rod according to the present invention.

Fig. 16 is a schematic perspective view of the spray frame of the present invention.

Fig. 17 is a schematic diagram of a three-dimensional structure of a cylinder and an arc clamping groove according to the present invention.

In the figure: 1. outer frame, 2, mixing assembly, 21, mixing drum, 2101, circular arc chute, 2102, water inlet tube, 2103, first feed port, 2104, discharge tube, 22, motor, 2201, first movable band, 2202, second movable band, 23, first rotary block 2301, connecting rod, 2302, spring telescoping plate, 2304, circular arc projection, 2305, insert rod, 2306, cover plate, 24, mixing shaft, 2401, inner ring stirring plate, 2, outer ring stirring plate, 2403, first baffle, 2404, stirring ring, 5, lower plate, 25, lower pressing ring, 2501, pressing rod, 2502, opening and closing plate, 2503, first spring assembly, 26, second spring assembly, 3, grinding assembly, 31, grinding shaft, 3101, cutting blade, 3102, discharge plate, 32, grinding drum, 33, second rotary block, 3301, grinding drum, 3302, grinding lugs, 3303, conveying plates, 34, discharging barrels, 3401, inclined filter screens, 3402, second feed inlets, 3403, a collecting cavity, 3404, a discharging chute, 35, a grinding inner barrel, 3501, a discharge hole, 36, a discharging pipe, 4, a water tank, 401, a valve, 5, a water suction pump, 6, a lifting component, 61, a lifting shaft, 6101, a threaded rod, 6102, a fixing plate, 6103, a large rotating disc, 62, a threaded barrel, 6201, a first gear groove, 6202, a clamping block, 63, a first gear, 6301, a third movable belt, 6302, a second gear, 64, a lifting outer frame, 6401, a lifting chute, 65, a lifting rod, 6501, a second gear groove, 6502, a second baffle, 6503, a small rotating disc, 6504, a rotating rod, 66, a spraying outer frame, 6601, a stretching pipe, 6602, a spraying head, 67, a cylinder, 6701 and an arc clamping groove.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

1-7, the efficient mixing and stirring deinsectization device comprises an outer frame 1 and a mixing drum 21, wherein one end of the inner side of the outer frame 1 is connected with the mixing drum 21;

the mixing component 2 comprises a mixing drum 21, an arc chute 2101 is connected to the upper part of the inner side of the mixing drum 21, a water inlet pipe 2102 is connected to the lower part of the mixing drum 21, a first feed inlet 2103 is arranged on the outer side of the circumference of the mixing drum 21 far away from the water inlet pipe 2102, a motor 22 is connected to the right upper part of the mixing drum 21, a first movable belt 2201 is connected to the motor 22, a second movable belt 2202 is connected to the lower part of the motor 22, a first rotating block 23 is connected to the bottom of the motor 22, the first rotating block 23 is nested on a motor 22 shaft rod and is connected in a sliding manner, a connecting rod 2301 is connected to the bottom of the first rotating block 23, a spring expansion plate 2302 is connected to the outer side of the spring expansion plate 2304, an embedded rod 2305 is connected to the outer side of the circumference of the spring expansion plate 2304, the embedded rod 2305 of the arc projection 2304 is matched with the arc chute 2101 of the mixing drum 21, the connecting cover plate 2306 is arranged right above the arc projection 2304, the bottom of the spring expansion plate 2302 is connected with the mixing shaft 24, the upper part of the mixing shaft 24 is connected with the inner ring stirring plate 2401, the outer side of the inner ring stirring plate 2401 on the mixing shaft 24 is connected with the outer ring stirring plate 2402, the mixing shaft 24 is connected with the first baffle 2403 near the lower part of the outer ring stirring plate 2402, the bottom of the mixing shaft 24 is connected with the lower pressing plate 2405, the stirring ring 2404 is connected between the first baffle 2403 and the lower pressing plate 2405 on the mixing shaft 24, the circumference outer side near the upper part of the inner ring stirring plate 2401 on the mixing shaft 24 is connected with the lower pressing ring 25, the bottom of the lower pressing ring 25 is connected with the pressing rod 2501, the other end of the pressing rod 2501 far from the lower pressing ring 25 is connected with the opening and closing plate 2502, the bottom of the opening and closing plate 2502 is connected with the first spring assembly 2503, a second spring assembly 26 is connected to the bottom of the lower platen 2405.

Circular holes are formed in the inner sides of the circular arc protruding blocks 2304, the spring expansion plates 2302 are embedded in the circular holes of the circular arc protruding blocks 2304, three protruding blocks are arranged on the inner walls of the circular arc protruding blocks 2304, one side of each protruding block is provided with an inclined plate, and the other end, far away from the inclined plate, of each protruding block is provided with a rectangular plate, so that the spring expansion plates 2302 can normally slide from one side of the inclined plate, but cannot slide from one side of the rectangular plate; accordingly, the first rotating block 23 can only rotate freely around one direction, at this time, the spring expansion plate 2302 cannot drive the arc protruding block 2304 to rotate, the other is turned to a locking state, and the spring expansion plate 2302 rotates and drives the arc protruding block 2304 to rotate together.

The bottom of the lower pressing ring 25 is connected with a pressing rod 2501, and the lower pressing ring 25 is lapped on the top of the pressing rod 2501, and the lower pressing ring 25 rotates along the top of the pressing rod 2501 due to the lap joint of the lower pressing ring 25 on the top of the pressing rod 2501; conversely, the pressing ring 25 presses downward and drives the pressing rod 2501 to move downward.

The first rotating block 23 is driven to rotate by reversing the motor 22, so that the first rotating block 23 rotates and simultaneously drives the connecting rod 2301 and the spring expansion plate 2302 to rotate along the inner side of the arc convex block 2304, the head of the spring expansion plate 2302 is clamped into the rectangular plate on the inner wall of the arc convex block 2304, the arc convex block 2304 and the embedded rod 2305 are driven to rotate together by the spring expansion plate 2302 along with the continuous reversing of the motor 22, the embedded rod 2305 rotates along the arc chute 2101, the arc convex block 2304 is driven to move downwards together, the arc convex block moves downwards and simultaneously drives the cover plate 2306 to move downwards, the spring expansion plate 2302 and the first rotating block 23 are simultaneously pressed downwards together by the downward movement of the cover plate 2306, the first rotating block 23 slides downwards along the lower rotating rod of the motor 22, the spring expansion plate 2302 rotates downwards and drives the lower pressing ring 25 to move downwards to press the pressing rod 2501, so that the pressing rod 2501 moves downwards and presses the opening plate 2502 and the first spring assembly 2503, powder enters the mixing drum 21 along the blanking pipe 36 due to the fact that the opening plate 2502 moves downwards and then opens the first feeding hole 2103, meanwhile, a valve 401 of the water tank 4 is opened, a water source in the water tank 4 flows into the mixing drum 21 along the water inlet pipe 2102, the mixing drum 21 is provided with two cavities, the embedded rod 2305 continuously rotates in the circular arc chute 2101, and then the mixing shaft 24 and the first baffle 2403 are driven to continuously move repeatedly up and down, powder and water source flow into a cavity below the mixing drum 21, and as the bottom cavity is filled, the powder and the water source fill the upper cavity to the upper middle part, and then the valve 401 is closed; in contrast, the motor 22 drives the spring expansion plate 2302 to rotate positively, so that the spring expansion plate 2302 is scratched on the inclined plate along the inner wall of the arc projection 2304 to drive the mixing shaft 24 to rotate, so that the mixing shaft 24 rotates and simultaneously drives the inner ring stirring plate 2401, the outer ring stirring plate 2402 and the stirring ring 2404 to rotate together, then the inner ring stirring plate 2401 and the outer ring stirring plate 2402 are mutually matched to stir the liquid medicine in the upper cavity of the mixing drum 21, then the stirring ring 2404 is used to stir the liquid medicine in the lower cavity, so that the liquid medicine is uniformly stirred and mixed, and as the two cavities are arranged in the mixing drum 21, the liquid medicine is separated and stirred by the two cavities, the stirring time is shortened.

Example 2

As shown in fig. 8-9, on the basis of embodiment 1, the other end of the first movable belt 2201 far away from the motor 22 is connected with a grinding shaft 31, the grinding assembly 3 comprises the grinding shaft 31, a cutting blade 3101 is connected to the upper part of the grinding shaft 31, a discharging plate 3102 is connected to the lower part of the grinding shaft 31, a grinding outer cylinder 32 is connected to the outer side of the circumference of the cutting blade 3101, a second rotating block 33 is connected to the bottom of the grinding shaft 31, a plurality of grinding rollers 3301 are connected to the bottom of the grinding rollers 3301, a plurality of grinding lugs 3302 are connected to the outer side of the circumference of the bottom of the second rotating block 33, a plurality of conveying plates 3303 are connected to the inner side of the grinding outer cylinder 32, a blanking cylinder 34 is connected to the circumference of the outer side of the blanking cylinder 34, a second feeding port 3402 is formed between the blanking cylinder 34 and the inclined filter 3401, a material collecting cavity 3403 is formed in the inner side of the blanking cylinder 34, a material chute 4 is formed in the inner cylinder 3403, a material discharging chute is formed in the inner cylinder inner side of the circumference of the aggregate cavity 3403, a material discharging cylinder 35 is connected to the bottom of the blanking cylinder 35035, and the grinding rollers 35 are connected to the grinding roller 35, and the grinding roller 35 is connected to the grinding roller 35.

The material collecting cavity 3403 of the discharging barrel 34 is matched with the material discharging plate 3102 on the grinding shaft 31.

In addition, the user will be adjusted the proportion moderate spray pesticide granule and throw into in the crocus urceolus 32, drive first movable belt 2201 and crocus axle 31 through motor 22 rotation and rotate, make crocus axle 31 rotatory drive cutting blade 3101 and row's flitch 3102 together rotate simultaneously, then utilize cutting blade 3101 will flow into the pesticide granule and cut up, cut up the back and then can flow into inclined filter screen 3401 along lower feed cylinder 34 top smooth wall inflow, then utilize inclined filter screen 3401 to filter the crushed pesticide granule, the powder then can flow out along inclined filter screen 3401 mesh, and simultaneously the granule of cutting up then can flow into lower feed cylinder 34 along inclined filter screen 3401 from second feed inlet 3402 and gather materials in chamber 3403, then will flow into the garrulous granule of chamber 3403 through row's flitch 3102 and discharge chute 3404 in, cut up the granule then can flow into crocus 35 along lower feed chute 3404 in, and crocus axle 31 rotates simultaneously still together drive second rotatory piece 33 and rotate, make second rotatory piece 33 rotate together and still drive crocus roller 3301 and carry the flitch roller 3301 and carry out the rotatory piece 3301 simultaneously, then rotate the roller 3301 and then rotate the roller 3302 is equipped with the rotary effect is then can be improved along the same time, the roller 3301 rotates 3301 and is equipped with the rotary drum 3301 and rotates 3301.

Example 3

As shown in fig. 11-17, on the basis of embodiment 2, the other end of the second movable belt 2202 far away from the motor 22 is connected with a lifting shaft 61, the lifting assembly 6 comprises a lifting shaft 61, the lower part of the lifting shaft 61 is connected with a threaded rod 6101, the bottom of the lifting shaft 61 is connected with a fixed plate 6102, the top of the lifting shaft 61 is connected with a large rotary disc 6103, the circumferential outside of the threaded rod 6101 is connected with a threaded cylinder 62, the inner side of the threaded cylinder 62 is provided with a first gear 6201, the inner side upper part of the threaded cylinder 62 is connected with a clamping block 6202, the circumferential outside of the threaded cylinder 62 is connected with a first gear 63, the other end of the third movable belt 6301 far away from the first gear 63 is connected with a second gear 6302, the circumferential outside of the first gear 63 is connected with a lifting rod 65, the inner side of the lifting rod 65 is provided with a second gear groove 6501, the middle part of the upper part of the lifting rod 65 is connected with a second baffle 6502, the top of the lifting rod 65 is connected with a small rotary disc 6503, the top of the lifting rod 65 is connected with a small rotary disc 6504, the top of the small rotary disc 6503 is connected with a small rotary disc 6504, the top of the small rotary disc 6504 is connected with a small rotary disc 6504, and a small rotary disc 6504 is connected with a small rotary disc 6504.

The circular arc clamping groove 6701 of the air cylinder 67 is matched with the baffle plate at the upper part of the lifting rod 65.

The large rotary disc 6103 on the lifting shaft 61 is matched with the small rotary disc 6503 of the lifting rod 65, and the large rotary disc 6103 and the small rotary disc 6503 are made of rubber, so that after the lifting rod 65 drives the small rotary disc 6503 to rise to the height of the large rotary disc 6103, the small rotary disc 6503 is driven to rotate by mutual friction between the edge of the large rotary disc 6103 and the edge of the small rotary disc 6503.

In addition, at the same time, since the motor 22 rotates the first movable belt 2201 positively and simultaneously rotates the second movable belt 2202 together, so that the second movable belt 2202 rotates and simultaneously rotates the lifting shaft 61 together, so that the lifting shaft 61 rotates and simultaneously rotates the threaded rod 6101 together, the threaded rod 6101 is utilized to drive the threaded cylinder 62 to move downwards, the threaded cylinder 62 is utilized to drive the first gear groove 6201 to move downwards and simultaneously intermesh with the first gear 63, so that the third movable belt 6301 and the second gear 6302 are driven to rotate, and the first gear 63 rotates and simultaneously drives the lifting rod 65 to move upwards, and since the section length of the threaded cylinder 62 is longer than the section length of the lifting rod 65, the threaded cylinder 62 moves downwards and simultaneously intermeshes with the first gear 63 to drive the lifting rod 65 to move upwards, so that after the second gear groove 6501 at the top of the lifting rod 65 is intermeshed with the second gear 6302, the second gear 6302 is driven to continuously rotate by the continuous downward movement of the threaded cylinder 62, the lifting rod 65 is driven to continuously move upwards and simultaneously drive the second baffle 6502 to move upwards, so that after the second baffle 6502 moves upwards to a height higher than that of the air cylinder 67, the circular arc clamping groove 6701 is driven to be clamped below the second baffle 6502 on the upper portion of the lifting rod 65 by the air cylinder 67, the second baffle 6502 is matched with the air cylinder 67 to play a fixing effect on the lifting rod 65, the threaded rod 6101 drives the threaded cylinder 62 to move downwards to the bottommost end along with the lifting rod 65 after the second baffle 6502 moves upwards to a height higher than that of the air cylinder 67, the inner wall threaded groove of the threaded cylinder 62 is separated from the threaded rod 6101, the threaded cylinder 62 is clamped below the threaded rod 6101 by the matched fixture 6202 of the threaded cylinder 62 through the fixing plate 6102 of the threaded rod 6101, and because the lifting rod 65 moves upwards and simultaneously drives the small rotating disk 6503 to rotate together with the spraying outer frame 66, after the lifting rod 65 drives the small rotating disk 6503 to rise to the height of the large rotating disk 6103, the small rotating disk 6503 is driven to rotate by mutual friction between the edge of the large rotating disk 6103 and the edge of the small rotating disk 6503, so that the small rotating disk 6503 rotates and simultaneously drives the rotating rod 6504 to rotate together, the spraying outer frame 66 is driven to rotate by the rotating rod 6504, the liquid medicine is pumped out of the mixing drum 21 by the water suction pump 5, the liquid medicine is conveyed into the spraying outer frame 66 along the stretching pipe 6601 by the water suction pump 5 to be sprayed out from the spraying head 6602 by the high-speed rotation, the height of the spraying outer frame 66 is improved by the lifting rod 65, the large rotating disk 6103 is driven to rotate by the large rotating disk 6103, the spraying outer frame 66 is further improved, when the spraying outer frame 66 needs to be recovered, the motor 22 is used to drive the threaded rod 6101 to rotate reversely, at the same time, the cylinder 67 is used to recover the circular arc clamping groove 6701, and the circular arc clamping groove 6701 is recovered, because the spraying outer frame 66 loses the supporting mechanism, the lifting rod 65 is driven by the weight of the spraying outer frame 66 to move downwards together with the second gear groove 6501, so that the second gear groove 6501 is meshed with the second gear 6302, the second gear 6302 is meshed with the third movable belt 6301 to rotate clockwise together with the first gear 63, the first gear 63 is rotated clockwise to drive the first gear groove 6201 to move upwards with the threaded cylinder 62, so that the threaded cylinder 62 moves upwards to match with the reverse threaded rod 6101, the threaded cylinder 62 is driven to move upwards by the reverse threaded rod 6101, so that the threaded cylinder 62 moves upwards to drive the first gear groove 6201 to mesh with the first gear 63 and also mesh with the second gear groove 6501, the lifting rod 65 is driven to slide downwards along the lifting sliding groove 6401 in the lifting outer frame 641 to recycle the spraying outer frame 66 downwards.

The embodiments described above are intended to provide those skilled in the art with a full range of modifications and variations to the embodiments described above without departing from the inventive concept thereof, and therefore the scope of the invention is not limited by the embodiments described above, but is to be accorded the broadest scope consistent with the innovative features recited in the claims.

Claims (8)

1. The efficient mixing and stirring deinsectization device is characterized by comprising an outer frame (1) and a mixing drum (21), wherein one end of the inner side of the outer frame (1) is connected with the mixing drum (21);

the upper part of the inner side of the mixing drum (21) is connected with an arc chute (2101), the mixing drum (21) is connected with a water inlet pipe (2102) close to the lower part of the arc chute (2101), a first feed inlet (2103) is formed in the outer side of the circumference of the water inlet pipe (2102) far away from the mixing drum (21), a motor (22) is connected right above the mixing drum (21), a first movable belt (2201) is connected on the motor (22), a second movable belt (2202) is connected below the first movable belt (2201) close to the motor (22), a first rotating block (23) is connected at the bottom of the motor (22), the first rotating block (23) is nested on a shaft rod of the motor (22) in a sliding mode, a connecting rod (2301) is connected at the bottom of the connecting rod (2301), an arc lug (2304) is connected to the outer side of the spring expansion plate (2302), an embedded rod (2305) is connected to the outer side of the circumference of the motor (22), an embedded rod (2304) is connected with an inner ring (2304) through an embedded rod (21) and an inner ring (2304) through a positive stirring shaft (24) in a matching mode, the mixed shaft (24) is connected with the inner ring (24), the stirring device is characterized in that an outer ring stirring plate (2402) is connected to the outer side of an inner ring stirring plate (2401) on a mixing shaft (24), a first baffle (2403) is connected to the mixing shaft (24) close to the lower side of the outer ring stirring plate (2402), a lower pressing plate (2405) is connected to the bottom of the mixing shaft (24), a stirring ring (2404) is connected between the first baffle (2403) and the lower pressing plate (2405) on the mixing shaft (24), a lower pressing ring (25) is connected to the outer side of the circumference of the upper portion of the mixing shaft (24) close to the inner ring stirring plate (2401), a pressing rod (2501) is connected to the bottom of the lower pressing ring (25), an opening and closing plate (2502) is connected to the other end of the pressing rod (2501), a first spring assembly (2503) is connected to the bottom of the opening and closing plate (2502), and a second spring assembly (26) is connected to the bottom of the lower pressing plate (2405).

2. The efficient mixing and stirring deinsectization device according to claim 1, characterized in that a round hole is formed in the inner side of the arc-shaped protruding block (2304), the spring expansion plate (2302) is embedded in the round hole of the arc-shaped protruding block (2304), three protruding blocks are arranged on the inner wall of the arc-shaped protruding block (2304), one side of each protruding block is an inclined plate, and the other end far away from the inclined plate is a rectangular plate.

3. The efficient mixing and stirring insect killing device according to claim 1, wherein the bottom of the lower pressing ring (25) is connected with a pressing rod (2501), and the lower pressing ring (25) is lapped on the top of the pressing rod (2501).

4. The efficient mixing and stirring deinsectization device according to claim 1, characterized in that a first movable belt (2201) is far away from the other end of a motor (22) and is connected with a grinding shaft (31), a cutting blade (3101) is connected to the upper part of the grinding shaft (31), a discharging plate (3102) is connected to the lower part of the grinding shaft (31), a grinding outer cylinder (32) is connected to the outer side of the circumference of the cutting blade (3101), a second rotating block (33) is connected to the bottom of the grinding shaft (31), a plurality of grinding rollers (3301) are connected to the outer side of the circumference of the second rotating block (33), a plurality of conveying plates (3303) are connected to the outer side of the circumference of the bottom of the grinding roller (3301), a discharging barrel (34) is connected to the inner side of the grinding outer cylinder (32), a second feeding port (2) is formed between the lower barrel (34) and the inclined filtering net (3401), an inner barrel (3403) is formed in the inner side of the grinding barrel (34), an inner barrel (3403) is formed in the inner side of the grinding barrel (3401), a discharging chute (3404) is formed in the inner side of the grinding barrel (3401), the grinding inner cylinder (35) is matched with the grinding roller (3301) on the grinding shaft (31), and the bottom of the grinding inner cylinder (35) is connected with a blanking pipe (36).

5. A high efficiency mixing and insect control device in accordance with claim 3 wherein the aggregate chamber (3403) of the lower barrel (34) is cooperatively engaged with the discharge plate (3102) on the grinding shaft (31).

6. The efficient mixing and deinsectization device according to claim 1, characterized in that a lifting shaft (61) is connected to the other end of the second movable belt (2202) far away from the motor (22), a threaded rod (6101) is connected to the lower part of the lifting shaft (61), a fixed plate (6102) is connected to the bottom of the lifting shaft (61), a large rotating disc (6103) is connected to the top of the lifting shaft (61), a threaded cylinder (62) is connected to the outer side of the circumference of the threaded rod (6101), a first gear groove (6201) is formed in the inner side of the threaded cylinder (62), a clamping block (6202) is connected to the upper part of the inner side of the threaded cylinder (62), a first gear (63) is connected to the outer side of the circumference of the threaded cylinder (62), a third movable belt (6301) is connected to a second gear (6302) and is connected to the other end of the third movable belt (6301), a lifting rod (65) is connected to the other end of the first gear (63), a second gear groove (6501) is formed in the inner side of the lifting rod (65), a small rotating disc (6503) is connected to the top of the lifting rod (6504), the rotary rod (6504) top is connected with sprays frame (66), and spray frame (66) bottom one side is connected with tensile pipe (6601), spray frame (66) inboard is connected with a plurality of sprinkler heads (6602), little rotary disk (6503) circumference outside is connected with cylinder (67), and cylinder (67) are close to little rotary disk (6503) one side and are connected with circular arc draw-in groove (6701).

7. The efficient mixing and stirring insect killing device according to claim 5, wherein the arc clamping groove (6701) of the air cylinder (67) is matched with the baffle plate at the upper part of the lifting rod (65).

8. The efficient mixing and stirring deinsectization device according to claim 5, characterized in that a large rotary disk (6103) on the lifting shaft (61) is connected and matched with a small rotary disk (6503) of the lifting rod (65), and the large rotary disk (6103) and the small rotary disk (6503) are made of rubber materials.