CN115486282B - Precision high-efficiency pesticide application equipment for cotton pest control - Google Patents

Abstract

The invention relates to the field of cotton, in particular to precise and efficient pesticide application equipment for cotton pest control. The technical problems of the invention are as follows: the prior art can not be changed according to the size of cotton seedlings, can not be used for spraying the two sides and the root of the cotton seedlings, can not remove pests from the cotton seedlings, and can be sprayed only by cleaning rainwater after rain. The technical implementation scheme of the invention is as follows: an efficient pesticide application device for controlling cotton diseases and insect pests comprises a movable trolley, a spraying system and the like; the spraying system is arranged on the movable trolley. According to the invention, the annular five spray heads are arranged in an inclined state from front to top to rear and downward, so that the medicine sprayed from the annular five spray heads can spray the two sides of cotton seedling leaves, and meanwhile, part of pests on cotton seedlings can be flushed down, so that the cotton seedling medicine is sprayed once, and the medicine distribution is more comprehensive, and the pest treatment effect is improved.

Description

Precision high-efficiency pesticide application equipment for cotton pest control

Technical Field

The invention relates to the field of cotton, in particular to precise and efficient pesticide application equipment for cotton pest control.

Background

The whole growth period of cotton is long, the time from sowing to harvesting is almost half a year, and the cotton is harvested for a long time, so that the pest and disease control is not careless. The pesticide consumption per mu is determined according to the size of cotton seedlings.

Due to the influence of ecological conditions, meteorological factors and the like, the diseases and insects in the cotton seedling stage have the characteristics of multiple varieties, rapid development and serious harm, the missing seedling and the broken ridge of the cotton field are often caused, and large pieces die when serious, and the cotton seedlings need to be rapidly treated.

Cotton is one of the most important commercial crops in many areas because of its large planting area in china. However, cotton pests are a very troublesome problem, and the current technology can rapidly spray the medicines on cotton seedlings, but cannot spray both sides and roots of cotton seedlings leaves, and cannot remove the pests from cotton seedlings, so that the effect of the medicines is greatly reduced, and the pests still exist.

After the spraying of the medicines is completed on the cotton seedlings, the planting area of the cotton seedlings starts to rain, so that the medicines sprayed on the cotton seedlings are flushed by rain, the medicines are required to be sprayed again, the rainwater on the cotton seedlings is required to be cleaned, the spraying can be performed, the medicines sprayed on the cotton seedlings can slide down along with the rainwater, the spraying is disabled, and the workload of spraying the cotton seedlings is greatly increased.

Disclosure of Invention

The invention provides an efficient precision pesticide application device for cotton pest control, which aims to overcome the defects that the cotton seedling can not be changed according to the size of the cotton seedling, the two sides and the root of a cotton seedling leaf can not be sprayed, pests can not be removed from the cotton seedling, and rainwater can only be cleaned for spraying after rain.

The technical implementation scheme of the invention is as follows: an efficient pesticide application device for controlling cotton diseases and insect pests comprises a movable trolley and a spraying system; a spraying system is arranged on the mobile trolley; the spray system is used to spray the drug onto the leaves and roots of cotton seedlings.

Optionally, the mobile trolley comprises an electric wheel, a supporting frame, an electric push rod, a first bearing plate, a second bearing plate, a first fixed bracket, a water tank and a tank cover; the four electric wheels are distributed in pairs; each two electric wheels are connected with a supporting frame; the upper surfaces of the two supporting frames are fixedly connected with two electric push rods which are distributed front and back; the telescopic parts of the two electric push rods at the left side are fixedly connected with a second bearing plate, and a second sliding groove and a saw tooth slot are formed in the second bearing plate; the telescopic parts of the two electric push rods on the right are fixedly connected with a first bearing plate, and a first chute is formed in the first bearing plate; a first fixing support is connected in each of the first chute and the second chute in a sliding way, and the lower parts of the two first fixing supports are connected with the adjacent supporting frames; the upper surfaces of the first bearing plate and the second bearing plate are fixedly connected with a water tank; the left upper part of the water tank is detachably connected with a tank cover; the support frame and the water tank are connected with the spraying system; the water tank is connected with the waterway system; the first bearing plate and the second bearing plate are connected with the shake smearing system.

Optionally, the spray coating system includes a foliar treatment assembly and a root treatment assembly; the water tank is connected with a leaf surface treatment assembly; the support frame and the water tank are connected with a root treatment assembly, and the leaf surface treatment assembly is positioned above the root treatment assembly; the leaf surface treatment component is used for spraying the medicines on leaves of cotton seedlings; the root processing component is used for spraying the medicines on the roots of cotton seedlings.

Optionally, the foliar treatment component comprises a fixed block and an annular five-nozzle; a fixed block is fixedly connected to the front part of the bottom surface of the water tank; the rear part of the fixed block is fixedly connected with an annular five-nozzle; the annular five spray heads incline from front upper direction to rear lower direction.

Optionally, the root processing component comprises a first water delivery pipe, an outer barrel, a water delivery channel, an atomization plate, an inner barrel and an elastic piece; the lower part of the water tank is communicated with two first water delivery pipes which are distributed left and right; the lower parts of the two supporting frames are fixedly connected with an inner cylinder respectively, and the inner cylinder is provided with a through hole; an outer cylinder is arranged outside each of the two inner cylinders, and the two outer cylinders are rotationally connected with the front parts of the adjacent supporting frames; two opposite sides of the outer cylinder are respectively communicated with a water delivery channel; two atomizing plates distributed left and right are respectively communicated with the opposite sides of the two water delivery channels; the back side surfaces of the two water delivery channels are fixedly connected with an elastic piece respectively, and the other ends of the two elastic pieces are fixedly connected with opposite sides of a supporting frame respectively.

Optionally, the device also comprises a waterway system and a shake smearing system, wherein the waterway system and the shake smearing system are arranged on the mobile trolley, the waterway system is positioned behind the shake smearing system, and the mobile trolley and the shake smearing system are connected with the waterway system; the waterway system is used for transferring the medicines in the mobile trolley into the spraying system and the shaking smearing system and recycling the redundant medicines in the shaking smearing system.

Optionally, the shake-on system includes an applicator assembly and a shake assembly; the first bearing plate and the second bearing plate are connected with a smearing assembly; the second bearing plate is connected with a shaking assembly, and the shaking assembly is positioned at the left rear part of the smearing assembly; the shaking smearing system is used for supplementing medicines to cotton seedlings and shaking off partial pests on the cotton seedlings.

Optionally, the waterway system comprises a first water pump, a second fixing bracket, a first water inlet pipe, a first water outlet pipe, a second water inlet pipe, a first shunt pipe, a hose, a second shunt pipe, a second water outlet pipe and a second water delivery pipe; the rear side surface of the water tank is fixedly connected with a first water pump, a second water pump and a second fixing bracket, the first water pump is positioned on the right of the second water pump, and the second fixing bracket is positioned below the first water pump and the second water pump; the bottom surface of the water tank is fixedly connected with a second shunt pipe; the water inlet of the first water pump is communicated with a first water inlet pipe, and the first water inlet pipe is communicated with the lower part of the water tank; the water outlet of the first water pump is communicated with a first water outlet pipe, and the first water outlet pipe passes through the right part of the second fixed bracket to be communicated with the second shunt pipe; the water inlet of the second water pump is communicated with a second water inlet pipe; the second water inlet pipe is communicated with a first shunt pipe, and the first shunt pipe is fixedly connected with a second fixing bracket; the first shunt tube is communicated with four hoses; the water outlet of the second water pump is communicated with a second water outlet pipe, and the second water outlet pipe is communicated with the upper part of the water tank; the second shunt pipe is communicated with a second water delivery pipe, and the second water delivery pipe is communicated with the annular five-nozzle; the hose is connected with the smearing component.

Optionally, the smearing component comprises a first driving motor, a bearing column, a sliding sleeve, a third water conveying pipe, a fourth water conveying pipe, a fifth water conveying pipe, a sponge and a liquid collector; the right side surface of the first bearing plate is fixedly connected with a first driving motor; the first bearing plate and the second bearing plate are connected with a bearing column in a common rotation way, and a third sliding groove is formed in the bearing column; four sliding sleeves are connected to the bearing column in a sliding manner; each sliding sleeve is wound with a third water pipe, and the upper ends of the four third water pipes are communicated with the second shunt pipes; the lower end of each third water pipe is respectively communicated with a fourth water pipe, and each fourth water pipe is respectively provided with two diversion trenches; each fourth water pipe is uniformly provided with a plurality of fifth water pipes in an array, and each fifth water pipe is provided with two diversion trenches; each fifth water pipe is fixedly connected with a sponge; the lower part of each fourth water pipe is fixedly connected with a liquid collector, each liquid collector is communicated with an adjacent hose, and a filter screen is arranged in each liquid collector.

Optionally, the shaking component comprises a fixed plate, a second driving motor, a first transmission plate, a second transmission plate and a toggle frame; the rear side surface of the second bearing plate is fixedly connected with a fixing plate; the left side surface of the fixed plate is fixedly connected with a second driving motor; the output shaft of the second driving motor is fixedly connected with a first transmission plate; one side of the first transmission plate, which is far away from the output shaft of the second driving motor, is in transmission connection with a second transmission plate; one side of the second transmission plate, which is far away from the first transmission plate, is fixedly connected with a stirring frame, the stirring frame slides in the second sliding groove, and four fourth water conveying pipes are positioned in the stirring frame.

The invention has the following advantages: according to the invention, the annular five spray heads are arranged in an inclined state from front to top to rear and downward, so that the medicine sprayed from the annular five spray heads can spray the two sides of cotton seedling leaves, and meanwhile, part of pests on cotton seedlings can be flushed down, so that the cotton seedling medicine is sprayed once, and the medicine distribution is more comprehensive, and the pest treatment effect is improved.

When the communicating part of the outer cylinder and the water delivery channel is overlapped with the through hole, the cotton seedling root is sprayed, so that the secondary spraying of the cotton seedling medicine is completed, and the medicine is prevented from being sprayed all the time, thereby causing a great amount of medicine waste.

According to the invention, the first transmission plate is driven by the second driving motor to rotate clockwise from right to left, the poking frame drives the fourth water pipe, the fifth water pipe and the sponge to generate shaking and slight lifting effects, so that medicines on the sponge are whipped to cotton seedlings, three spraying of the medicines on the cotton seedlings is completed, the cotton seedlings are treated again, and the pest treatment effect is promoted again.

According to the cotton seedling treatment device, cotton seedlings are combed through the shaking sponge, when pests exist on the cotton seedlings, the sponge scrapes off the residual pests on the cotton seedlings, and meanwhile, the medicines on the sponge are transferred to the cotton seedlings again, so that four spraying of the medicines on the cotton seedlings is completed, the medicines are more uniformly smeared on the cotton seedlings, and the pest treatment effect is improved again.

According to the invention, the second water pump is started, the medicine collected in the liquid collector is transferred into the first shunt tube from the hose, the medicine is transferred into the second water outlet pipe through the second water inlet pipe, and finally the medicine flows back into the water tank through the second water outlet pipe, so that the medicine can be recycled, and the waste of the medicine is reduced again.

According to the invention, the cotton seedlings are sprayed for multiple times through the spraying system and the shaking smearing system, so that the medicines on the cotton seedlings are full and uniform, and the pest treatment effect is greatly improved.

According to the invention, cotton seedlings are combed by the sponge in shaking and simultaneously driven to slightly shake, rainwater on the cotton seedlings is shaken off, and meanwhile, medicines are smeared on the cotton seedlings, so that the effect that the spraying of the medicines after the rainwater is not influenced is realized.

Drawings

FIG. 1 is a schematic diagram of a first construction of an efficient cotton pest control precision applicator according to the present invention;

FIG. 2 is a schematic diagram of a second construction of the high-precision and high-efficiency pesticide application device for controlling cotton diseases and insect pests according to the present invention;

FIG. 3 is a schematic view of a first partial structure of a high-efficiency cotton pest control precision applicator according to the present invention;

FIG. 4 is a schematic view of the structure of a foliar treatment component in the spray system disclosed by the precision high-efficiency pesticide application device for cotton pest control of the present invention;

FIG. 5 is a schematic view of the partial construction of a root treating assembly in a spray system disclosed in the precision high-efficiency application apparatus for cotton pest control of the present invention;

FIG. 6 is a partial cross-sectional view of a root treating assembly of the disclosed spray system of the precision high-efficiency pesticide application apparatus for cotton pest control of the present invention;

FIG. 7 is a diagram showing the operation of the root treating assembly in the spray system disclosed by the precision high-efficiency pesticide application apparatus for controlling cotton diseases and insect pests of the present invention;

FIG. 8 is a schematic diagram of the structure of a dithering module in the dithering and smearing system disclosed by the precision high-efficiency pesticide application device for cotton pest control of the present invention;

FIG. 9 is a schematic diagram of the construction of a waterway system disclosed by the precision high-efficiency pesticide application device for cotton pest control of the present invention;

FIG. 10 is a partial cross-sectional view of the applicator assembly of the dither applicator system disclosed in the precision high-efficiency pesticide application apparatus for cotton pest control of the present invention;

fig. 11 is an enlarged view of fig. 10 showing the high-efficiency cotton pest control precision applicator according to the present invention.

Meaning of reference numerals in the drawings: 101-electric wheels, 102-supporting frames, 103-electric push rods, 104-first bearing plates, 105-second bearing plates, 106-first fixed brackets, 107-water tanks, 108-box covers, 201-fixed blocks, 202-annular five-nozzle, 210-first water pipes, 211-outer cylinders, 212-water delivery channels, 213-atomizing plates, 214-inner cylinders, 215-elastic pieces, 301-first water pumps, 302-second water pumps, 303-second fixed brackets, 304-first water inlet pipes, 305-first water outlet pipes, 306-second water inlet pipes, 307-first shunt pipes, 308-hoses, 309-second shunt pipes, 310-second water outlet pipes, 311-second water pipes, 401-first driving motors, 402-bearing columns, 403-sliding sleeves, 404-third water pipes, 405-fourth water pipes, 406-fifth water pipes, 407-sponges, 408-liquid collectors, 410-fixed plates, 411-second driving motors, 412-first transmission plates, 413-second transmission plates, 414-toggle racks, 104-105 a-second tooth sockets, 105 a-second sliding grooves, 402 a-through holes.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present invention, are used only with reference to the drawings of the present invention, and are not meant to be limiting in any way.

Example 1

An efficient pesticide application device for controlling cotton diseases and insect pests, as shown in figures 1-11, comprises a mobile trolley and a spraying system; the spraying system is arranged on the movable trolley.

The invention specifically works, the power supply is needed to be firstly connected, the power supply is provided for the mobile trolley, the waterway system and the shake smearing system, control components such as a singlechip and the like and control buttons or control screens are arranged, an operator moves precision high-efficiency pesticide application equipment for cotton pest control to a proper position and adjusts the precision high-efficiency pesticide application equipment to a proper angle, the operator controls the mobile trolley to lift and drive the waterway system and the shake smearing system to move downwards, the operator pours sufficient pesticide into the mobile trolley, then the pesticide is conveyed into the spraying system, then the waterway system is started to transfer part of the pesticide in the mobile trolley into the shake smearing system, the operator controls the mobile trolley to lift and drive the waterway system and the shake smearing system to move upwards and reset, the waterway system and the shake smearing system are restored to an initial position, the operator adapts to the sizes of cotton seedlings in two rows through adjusting the shake smearing system, the operator simultaneously the shake smearing system starts to shrink, the rest pesticide in the waterway system is conveyed into the spraying system, the pesticide is sprayed on two sides of leaves of cotton seedlings through the spraying system, and when pests exist on cotton seedlings, the inclined pesticide is sprayed on the cotton seedlings, and the upper parts of the cotton seedlings are sprayed down for one time; then, starting the moving trolley, namely driving the spraying system, the waterway system and the shake smearing system to move forwards, starting the shake smearing system to run at the same time, throwing the medicine on the shake smearing system onto cotton seedlings, finishing the secondary spraying of the medicine on the cotton seedlings, when the spraying system is contacted with the roots of the cotton seedlings, spraying the medicine on the roots of the cotton seedlings through the spraying system, finishing the tertiary spraying of the medicine on the cotton seedlings, continuing to move forwards by the moving trolley, namely driving the spraying system, the waterway system and the shake smearing system to move forwards, when the spraying system is out of contact with the roots of the cotton seedlings, restoring the spraying system to an initial state, when the shake smearing system is contacted with the cotton seedlings, combing the cotton seedlings by the shake smearing system in shake, when pests exist on the cotton seedlings, scraping the residual pests on the cotton seedlings by the shake smearing system, meanwhile, the medicines on the shaking smearing system are transferred to the cotton seedlings again, four spraying of the medicines of the cotton seedlings is completed, in the process that the precision efficient medicine applying equipment for preventing and controlling cotton diseases and insect pests moves forwards, redundant medicines in the shaking smearing system flow back into the moving trolley through the waterway system, cyclic utilization of the medicines is realized, the precision efficient medicine applying equipment for preventing and controlling cotton diseases and insect pests continues to move forwards, the spraying of the medicines of two rows of cotton seedlings is completed by repeating the actions, when the planting area of the cotton seedlings is rained, the medicines sprayed on the cotton seedlings are washed by rain, so that the medicines are required to be sprayed again, the rain on the cotton seedlings is required to be cleaned, otherwise, the medicines sprayed on the cotton seedlings can slide downwards along with the rain, so that the spraying is disabled, and when the precision efficient medicine applying equipment for preventing and controlling cotton diseases and insect pests is contacted with the cotton seedlings, the shaking smearing system in shaking is used for combing cotton seedlings and driving the cotton seedlings to slightly shake, so that rainwater on the cotton seedlings is shaken off and medicines are smeared on the cotton seedlings, and the effect that the spraying medicines are not influenced after the rainwater is realized.

Example 2

On the basis of the embodiment 1, according to fig. 1-7, the mobile trolley comprises an electric wheel 101, a supporting frame 102, an electric push rod 103, a first bearing plate 104, a second bearing plate 105, a first fixed bracket 106, a water tank 107 and a tank cover 108; the four electric wheels 101 are arranged, and the four electric wheels 101 are distributed pairwise left and right; each two electric wheels 101 are commonly connected with a supporting frame 102; the upper surfaces of the two supporting frames 102 are fixedly connected with two electric push rods 103 which are distributed front and back; the telescopic parts of the two electric push rods 103 at the left side are fixedly connected with a second bearing plate 105, and a second sliding groove 105a and a sawtooth groove 105b are formed in the second bearing plate 105; the telescopic parts of the two right electric push rods 103 are fixedly connected with a first bearing plate 104, and a first chute 104a is formed in the first bearing plate 104; a first fixed bracket 106 is slidably connected in each of the first chute 104a and the second chute 105a, and the lower parts of the two first fixed brackets 106 are connected with the adjacent supporting frames 102; the upper surfaces of the first bearing plate 104 and the second bearing plate 105 are fixedly connected with a water tank 107; the upper left part of the water tank 107 is detachably connected with a tank cover 108; the support frame 102 and the water tank 107 are connected with a spraying system; the water tank 107 is connected with a waterway system; the first carrier plate 104 and the second carrier plate 105 are connected with a shake-on system.

The spraying system comprises a leaf surface treatment assembly and a root treatment assembly; the water tank 107 is connected with a leaf surface treatment assembly; the support frame 102 and the water tank 107 are connected with a root treating component, and the leaf surface treating component is positioned above the root treating component.

The foliar treatment component comprises a fixed block 201 and an annular five-nozzle 202; a fixed block 201 is fixedly connected to the front part of the bottom surface of the water tank 107; the rear part of the fixed block 201 is fixedly connected with an annular five-nozzle 202; the ring-shaped five spray heads 202 incline from front upper to rear lower.

The root processing assembly comprises a first water delivery pipe 210, an outer barrel 211, a water delivery channel 212, an atomization plate 213, an inner barrel 214 and an elastic piece 215; the lower part of the water tank 107 is communicated with two first water delivery pipes 210 which are distributed left and right; an inner cylinder 214 is fixedly connected to the lower parts of the two support frames 102 respectively, and a through hole 214a is formed in the inner cylinder 214; an outer cylinder 211 is arranged outside each of the two inner cylinders 214, and the two outer cylinders 211 are rotatably connected with the front parts of the adjacent supporting frames 102; two outer cylinders 211 are communicated with a water delivery channel 212 respectively on opposite sides; two atomizing plates 213 distributed left and right are respectively communicated with the opposite sides of the two water delivery channels 212; the back sides of the two water delivery channels 212 are fixedly connected with an elastic piece 215 respectively, and the other ends of the two elastic pieces 215 are fixedly connected with opposite sides of one support frame 102 respectively.

Example 3

On the basis of embodiment 2, according to the figures 8-11, the device further comprises a waterway system and a shaking smearing system, wherein the waterway system and the shaking smearing system are arranged on the mobile trolley, the waterway system is positioned behind the shaking smearing system, and the mobile trolley and the shaking smearing system are connected with the waterway system.

The shaking smearing system comprises a smearing assembly and a shaking assembly; the first bearing plate 104 and the second bearing plate 105 are connected with a smearing component; the second carrying plate 105 is connected with a shaking assembly, and the shaking assembly is positioned at the left rear of the smearing assembly.

The waterway system comprises a first water pump 301, a second water pump 302, a second fixing bracket 303, a first water inlet pipe 304, a first water outlet pipe 305, a second water inlet pipe 306, a first shunt pipe 307, a hose 308, a second shunt pipe 309, a second water outlet pipe 310 and a second water delivery pipe 311; the rear side surface of the water tank 107 is fixedly connected with a first water pump 301, a second water pump 302 and a second fixing bracket 303, the first water pump 301 is positioned on the right of the second water pump 302, and the second fixing bracket 303 is positioned below the first water pump 301 and the second water pump 302; the bottom surface of the water tank 107 is fixedly connected with a second shunt pipe 309; the water inlet of the first water pump 301 is communicated with a first water inlet pipe 304, and the first water inlet pipe 304 is communicated with the lower part of the water tank 107; the water outlet of the first water pump 301 is communicated with a first water outlet pipe 305, and the first water outlet pipe 305 passes through the right part of the second fixed bracket 303 and is communicated with a second shunt pipe 309; a water inlet of the second water pump 302 is communicated with a second water inlet pipe 306; the second water inlet pipe 306 is communicated with a first shunt pipe 307, and the first shunt pipe 307 is fixedly connected with the second fixing bracket 303; the first shunt 307 is in communication with four hoses 308; a second water outlet pipe 310 is communicated with the water outlet of the second water pump 302, and the second water outlet pipe 310 is communicated with the upper part of the water tank 107; the second shunt tube 309 is communicated with a second water delivery tube 311, and the second water delivery tube 311 is communicated with the annular five-nozzle 202; a hose 308 is connected to the applicator assembly.

The smearing component comprises a first driving motor 401, a bearing column 402, a sliding sleeve 403, a third water conveying pipe 404, a fourth water conveying pipe 405, a fifth water conveying pipe 406, a sponge 407 and a liquid collector 408; the right side surface of the first bearing plate 104 is connected with a first driving motor 401 through bolts; the first bearing plate 104 and the second bearing plate 105 are connected with a bearing column 402 in a rotating way, and a third chute 402a is formed on the bearing column 402; four sliding sleeves 403 are connected to the bearing column 402 in a sliding manner; each sliding sleeve 403 is wound with a third water pipe 404, and the upper ends of the four third water pipes 404 are communicated with the second shunt tubes 309; the lower end of each third water pipe 404 is respectively communicated with a fourth water pipe 405, and each fourth water pipe 405 is respectively provided with two diversion trenches; a plurality of fifth water pipes 406 are uniformly arranged on each fourth water pipe 405, and two diversion trenches are respectively arranged on each fifth water pipe 406; each fifth water pipe 406 is fixedly connected with a sponge 407; a liquid collector 408 is fixedly connected to the lower portion of each fourth water pipe 405, each liquid collector 408 is communicated with the adjacent hose 308, and a filter screen is arranged in each liquid collector 408.

The shaking component comprises a fixed plate 410, a second driving motor 411, a first transmission plate 412, a second transmission plate 413 and a stirring frame 414; the rear side of the second bearing plate 105 is fixedly connected with a fixing plate 410; the left side surface of the fixed plate 410 is connected with a second driving motor 411 through bolts; the output shaft of the second driving motor 411 is fixedly connected with a first transmission plate 412; a second transmission plate 413 is connected to one side of the first transmission plate 412 far away from the output shaft of the second driving motor 411 in a transmission way; one side of the second transmission plate 413, which is far away from the first transmission plate 412, is fixedly connected with a stirring frame 414, the stirring frame 414 slides in the second sliding groove 105a, and four fourth water conveying pipes 405 are positioned in the stirring frame 414.

The invention specifically works by firstly switching on a power supply to provide power for the electric wheel 101, the electric push rod 103, the first water pump 301, the second water pump 302, the first driving motor 401 and the second driving motor 411, and arranging control components such as a single chip microcomputer and control buttons or control screens, enabling an operator to move the precision efficient pesticide application equipment for preventing and controlling cotton diseases and insect pests to a proper position, adjusting the precision efficient pesticide application equipment to a proper angle, enabling the operator to control the electric push rod 103 to stretch and draw the first bearing plate 104 and the second bearing plate 105 to move downwards, namely driving the waterway system and the shaking smearing system to move downwards, enabling the operator to take the box cover 108 aside, enabling the operator to pour sufficient pesticide into the water box 107, then enabling the pesticide to be conveyed into the inner barrel 214 through the first water pipe 210, enabling the first water pump 301 to transfer the pesticide in the water box 107 into the first water outlet pipe 305 through the first water inlet pipe 304, the medicine is transported from the first water outlet pipe 305 to the second shunt pipe 309, part of the medicine in the second shunt pipe 309 flows into the third water delivery pipe 404 on the sliding sleeve 403, then the medicine in the third water delivery pipe 404 is transferred into the fourth water delivery pipe 405, the medicine is finally transferred from the fifth water delivery pipe 406 to the sponge 407, the medicine is in a saturated state on the sponge 407, the box cover 108 is put back to the initial position by an operator, the operator controls the electric push rod 103 to push and drive the first bearing plate 104 and the second bearing plate 105 to move upwards for resetting, namely, the waterway system and the shaking smearing system are driven to move upwards for resetting, the waterway system and the shaking smearing system are restored to the initial positions, the operator adapts to the size of cotton seedlings by sliding the sliding sleeve 403 and adapts to the size of the first row of cotton seedlings by adjusting the interval between the two sliding sleeves 403 at the left, the size of the second row of cotton seedlings is adapted by adjusting the distance between the two sliding sleeves 403 on the right, an operator adapts to the height of the cotton seedlings by lifting the electric push rod 103, meanwhile, the first driving motor 401 drives the bearing column 402 to rotate anticlockwise when seen from left to right, namely, the sliding sleeve 403 is driven to rotate anticlockwise when seen from left to right, the fourth water pipe 405, the fifth water pipe 406 and the sponge 407 on the upper part are wound on the sliding sleeve 403, the rest of medicines in the second shunt pipe 309 are conveyed into the second water pipe 311, the medicines conveyed into the second water pipe 311 are transferred to the annular five spray heads 202, the medicines are sprayed on the two sides of leaves of the cotton seedlings through the annular five spray heads 202, and when pests exist on the cotton seedlings, the inclined sprayed medicines wash down part of pests on the cotton seedlings, so that the primary spraying of the medicines on the cotton seedlings is completed;

then, the electric wheel 101 is started, namely, the supporting frame 102, the electric push rod 103, the first bearing plate 104, the second bearing plate 105, the first fixed bracket 106, the water tank 107, the tank cover 108, the spraying system, the waterway system and the shake smearing system are driven to move forwards, meanwhile, the second driving motor 411 on the fixed plate 410 drives the first driving plate 412 to rotate clockwise from right to left, namely, the second driving plate 413 is driven to reciprocate forwards and backwards, the stirring frame 414 slides forwards and backwards in the second sliding groove 105a, the stirring frame 414 drives the fourth water pipe 405, the fifth water pipe 406 and the sponge 407 to generate shaking and lifting effects, as the sponge 407 is full of liquid medicine, the liquid medicine on the sponge 407 can be sputtered when the sponge 407 is thrown, the medicine on the sponge 407 is thrown to cotton seedlings, the secondary spraying of the cotton seedling medicine is completed, the liquid collector 408 at the bottom of the fourth water pipe 405 ensures the shaking stability and reduces the shaking amplitude of the fourth water pipe 405, the fifth water pipe 406 and the sponge 407, so that the damage to cotton seedlings caused by overlarge shaking amplitude of the fourth water pipe 405, the fifth water pipe 406 and the sponge 407 is prevented, when the atomizing plate 213 contacts with the roots of the cotton seedlings, the atomizing plate 213 is blocked by the roots of the cotton seedlings to drive the outer cylinder 211 and the water delivery channel 212 to rotate towards the corresponding elastic piece 215, the elastic piece 215 starts to shrink, when the communicating part of the outer cylinder 211 and the water delivery channel 212 is overlapped with the through hole 214a in the rotating process, as shown in fig. 7, the medicine in the inner cylinder 214 flows into the outer cylinder 211 and the water delivery channel 212, the medicine is transferred into the atomizing plate 213 from the inner cylinder 211 and the water delivery channel 212, the medicine is sprayed on the roots of the cotton seedlings through the atomizing plate 213, three spraying of the cotton seedlings is completed, and the electric wheel 101 continues to move forwards, namely the support frame 102 is driven, the electric push rod 103, the first bearing plate 104, the second bearing plate 105, the first fixed bracket 106, the water tank 107, the box cover 108, the spraying system, the waterway system and the shaking smearing system continue to move forwards, when the atomizing plate 213 is out of contact with the root of the cotton seedling, the elastic piece 215 is restored to the initial state, namely, the outer cylinder 211, the water delivery channel 212 and the atomizing plate 213 are driven to restore to the initial state, when the sponge 407 is in contact with the cotton seedling, the sponge 407 in shaking carries out carding on the cotton seedling, when pests exist on the cotton seedling, the sponge 407 scrapes off the residual pests on the cotton seedling, and simultaneously, the medicine on the sponge 407 is transferred to the cotton seedling again, four times of spraying of cotton seedling medicine is completed, in the process that the high-efficiency pesticide application equipment for preventing and controlling cotton pests moves forwards, redundant medicine in the sponge 407 can ooze out, the oozed medicine is transferred into the guide groove on the fourth water delivery pipe 405 through the guide groove on the fifth water delivery pipe 406, finally, the medicine in the diversion trench of the fourth water pipe 405 is transferred into the liquid collector 408, and simultaneously, the second water pump 302 is started, the medicine collected in the liquid collector 408 is transferred into the first diversion pipe 307 from the hose 308, the medicine is transferred into the second water outlet pipe 310 through the second water inlet pipe 306, finally, the medicine is returned into the water tank 107 through the second water outlet pipe 310, the recycling of the medicine is realized, the high-efficiency pesticide application equipment for preventing and controlling cotton diseases and insect pests continues to move forwards, the spraying of the two rows of cotton seedling medicines is completed by repeating the actions, when the planting area of the cotton seedlings starts to rain, the medicine sprayed on the cotton seedlings is washed by rainwater, so that the cotton seedlings need to be sprayed again, the medicine sprayed on the cotton seedlings needs to be cleaned, otherwise, the medicine sprayed on the cotton seedlings can slide down along with the rainwater, when the precision efficient pesticide application equipment for preventing and controlling cotton diseases and insect pests is contacted with cotton seedlings, the sponge 407 in shaking drives the cotton seedlings to slightly shake while carding the cotton seedlings, and the rainwater on the cotton seedlings is shaken off to smear the pesticide on the cotton seedlings at the same time, so that the effect that the spraying of the pesticide after rain is not influenced is achieved.

The above embodiments are only preferred embodiments of the present invention and are not intended to limit the scope of the present invention, so that all equivalent modifications made by the appended claims shall be included in the scope of the present invention.

Claims (5)

1. An efficient pesticide application device for controlling cotton diseases and insect pests comprises a movable trolley; the method is characterized in that: the spraying system is also included; a spraying system is arranged on the mobile trolley; the spraying system is used for spraying the medicines on the leaves and the roots of cotton seedlings;

the mobile trolley comprises electric wheels (101), a supporting frame (102), an electric push rod (103), a first bearing plate (104), a second bearing plate (105), a first fixed bracket (106), a water tank (107) and a tank cover (108); four electric wheels (101) are arranged, and the four electric wheels (101) are distributed in pairs; each two electric wheels (101) are commonly connected with a supporting frame (102); the upper surfaces of the two supporting frames (102) are fixedly connected with two electric push rods (103) which are distributed front and back; the telescopic parts of the two electric push rods (103) at the left side are fixedly connected with a second bearing plate (105), and a second sliding groove (105 a) and a sawtooth groove (105 b) are formed in the second bearing plate (105); the telescopic parts of the two right electric push rods (103) are fixedly connected with a first bearing plate (104), and a first chute (104 a) is formed in the first bearing plate (104); a first fixed bracket (106) is connected in each of the first chute (104 a) and the second chute (105 a) in a sliding way, and the lower parts of the two first fixed brackets (106) are connected with the adjacent supporting frames (102); the upper surfaces of the first bearing plate (104) and the second bearing plate (105) are fixedly connected with a water tank (107) together; the left upper part of the water tank (107) is detachably connected with a tank cover (108); the support frame (102) and the water tank (107) are connected with the spraying system; the device also comprises a waterway system and a shaking smearing system, wherein the waterway system and the shaking smearing system are arranged on the movable trolley, the waterway system is positioned behind the shaking smearing system, and the movable trolley and the shaking smearing system are connected with the waterway system; the waterway system is used for transferring the medicines in the mobile trolley into the spraying system and the shaking smearing system and recycling the redundant medicines in the shaking smearing system; the water tank (107) is connected with the waterway system; the first bearing plate (104) and the second bearing plate (105) are connected with the shake smearing system;

the shaking smearing system comprises a smearing assembly and a shaking assembly; the first bearing plate (104) and the second bearing plate (105) are connected with a smearing component; the second bearing plate (105) is connected with a shaking assembly, and the shaking assembly is positioned at the left rear part of the smearing assembly; the shaking smearing system is used for supplementing medicines to cotton seedlings and shaking off partial pests on the cotton seedlings;

the waterway system comprises a first water pump (301), a second water pump (302), a second fixing bracket (303), a first water inlet pipe (304), a first water outlet pipe (305), a second water inlet pipe (306), a first shunt pipe (307), a hose (308), a second shunt pipe (309), a second water outlet pipe (310) and a second water delivery pipe (311); the rear side surface of the water tank (107) is fixedly connected with a first water pump (301), a second water pump (302) and a second fixing bracket (303), the first water pump (301) is positioned on the right of the second water pump (302), and the second fixing bracket (303) is positioned below the first water pump (301) and the second water pump (302); the bottom surface of the water tank (107) is fixedly connected with a second shunt pipe (309); a water inlet of the first water pump (301) is communicated with a first water inlet pipe (304), and the first water inlet pipe (304) is communicated with the lower part of the water tank (107); the water outlet of the first water pump (301) is communicated with a first water outlet pipe (305), and the first water outlet pipe (305) passes through the right part of the second fixed bracket (303) to be communicated with a second shunt pipe (309); a water inlet of the second water pump (302) is communicated with a second water inlet pipe (306); the second water inlet pipe (306) is communicated with a first shunt pipe (307), and the first shunt pipe (307) is fixedly connected with a second fixing bracket (303); the first shunt tube (307) is communicated with four hoses (308); a water outlet of the second water pump (302) is communicated with a second water outlet pipe (310), and the second water outlet pipe (310) is communicated with the upper part of the water tank (107); the second shunt tube (309) is communicated with a second water delivery tube (311), and the second water delivery tube (311) is communicated with the annular five-nozzle (202); a hose (308) is connected with the smearing assembly;

the smearing component comprises a first driving motor (401), a bearing column (402), a sliding sleeve (403), a third water conveying pipe (404), a fourth water conveying pipe (405), a fifth water conveying pipe (406), a sponge (407) and a liquid collector (408); the right side surface of the first bearing plate (104) is fixedly connected with a first driving motor (401); the first bearing plate (104) and the second bearing plate (105) are connected with a bearing column (402) in a rotating way, and a third chute (402 a) is formed in the bearing column (402); four sliding sleeves (403) are connected to the bearing column (402) in a sliding manner; each sliding sleeve (403) is wound with a third water pipe (404), and the upper ends of the four third water pipes (404) are communicated with the second shunt tubes (309); the lower end of each third water pipe (404) is respectively communicated with a fourth water pipe (405), and each fourth water pipe (405) is respectively provided with two diversion trenches; a plurality of fifth water delivery pipes (406) are uniformly arranged on each fourth water delivery pipe (405), and two diversion trenches are respectively arranged on each fifth water delivery pipe (406); each fifth water pipe (406) is fixedly connected with a sponge (407); the lower part of each fourth water pipe (405) is fixedly connected with a liquid collector (408), each liquid collector (408) is communicated with the adjacent hose (308), and a filter screen is arranged in each liquid collector (408).

2. The precise and efficient pesticide application device for preventing and controlling cotton diseases and insect pests according to claim 1, wherein the precise and efficient pesticide application device comprises the following components: the spraying system comprises a leaf surface treatment assembly and a root treatment assembly; the water tank (107) is connected with a leaf surface treatment assembly; the support frame (102) and the water tank (107) are connected with a root treatment assembly, and the leaf surface treatment assembly is positioned above the root treatment assembly; the leaf surface treatment component is used for spraying the medicines on leaves of cotton seedlings; the root processing component is used for spraying the medicines on the roots of cotton seedlings.

3. An efficient cotton pest control precision applicator according to claim 2, characterized in that: the foliar treatment component comprises a fixed block (201) and an annular five spray head (202); a fixed block (201) is fixedly connected at the front part of the bottom surface of the water tank (107); the rear part of the fixed block (201) is fixedly connected with an annular five-nozzle (202);

the annular five spray heads (202) incline from front upper direction to rear lower direction.

4. A precision high-efficiency pesticide application device for controlling cotton diseases and insect pests according to claim 3, wherein: the root treatment assembly comprises a first water delivery pipe (210), an outer barrel (211), a water delivery channel (212), an atomization plate (213), an inner barrel (214) and an elastic piece (215); the lower part of the water tank (107) is communicated with two first water delivery pipes (210) which are distributed left and right; an inner cylinder (214) is fixedly connected to the lower parts of the two supporting frames (102), and a through hole (214 a) is formed in the inner cylinder (214); an outer cylinder (211) is arranged outside each of the two inner cylinders (214), and the two outer cylinders (211) are rotationally connected with the front parts of the adjacent supporting frames (102); the opposite sides of the two outer cylinders (211) are respectively communicated with a water delivery channel (212); two atomizing plates (213) distributed left and right are respectively communicated with the opposite sides of the two water delivery channels (212); the back side surfaces of the two water delivery channels (212) are fixedly connected with an elastic piece (215), and the other ends of the two elastic pieces (215) are fixedly connected with opposite sides of a supporting frame (102) respectively.

5. The precise and efficient pesticide application device for preventing and controlling cotton diseases and insect pests according to claim 1, wherein the precise and efficient pesticide application device comprises the following components: the shaking component comprises a fixed plate (410), a second driving motor (411), a first transmission plate (412), a second transmission plate (413) and a stirring frame (414); the rear side surface of the second bearing plate (105) is fixedly connected with a fixed plate (410); the left side surface of the fixed plate (410) is fixedly connected with a second driving motor (411); the output shaft of the second driving motor (411) is fixedly connected with a first transmission plate (412); one side of the first transmission plate (412) far away from the output shaft of the second driving motor (411) is in transmission connection with a second transmission plate (413); one side of the second transmission plate (413) far away from the first transmission plate (412) is fixedly connected with a stirring frame (414), the stirring frame (414) slides in the second sliding groove (105 a), and four fourth water conveying pipes (405) are positioned in the stirring frame (414).