CN111804235A - Piston work-based plant disease and pest control medicine preparation equipment and preparation method - Google Patents

Abstract

The invention relates to the technical field of preparation of a medicine for preventing and treating plant diseases and insect pests, in particular to a piston work-based equipment and a preparation method for preparing the medicine for preventing and treating plant diseases and insect pests; a servo motor is adopted to drive an incomplete bevel gear and is intermittently meshed with a driven bevel gear, so that a first rotating shaft periodically rotates forwards and backwards, and a first connecting plate drives a top plate to move up and down; the first piston rod drives the first piston plate to synchronously move in the first piston cylinder, and the liquid suction pipe is matched with the design of the one-way valve, so that the liquid suction pipe sucks the material at the bottom of the preparation tank into the first piston cylinder through the suction nozzle, and then discharges the material again through the liquid return pipe and upwards sprays the material; a pivot makes the axle sleeve area break up the pole through breaking up the subassembly again and rotates, is broken up under the effect of breaking up the pole from liquid return pipe exhaust material, and the material on upper portion is drained to the bottom again, is inhaled a piston cylinder once more and discharges, breaks up again through making the material constitute the circulation and realize the high-efficient preparation of disease and pest control medicine at the in-process of circulation.

Description

Piston work-based plant disease and pest control medicine preparation equipment and preparation method

Technical Field

The invention relates to the technical field of preparation of medicines for preventing and treating plant diseases and insect pests, in particular to equipment and a method for preparing medicines for preventing and treating plant diseases and insect pests based on piston work.

Background

Insect pests are one of natural disasters seriously damaging agricultural production. According to the food and agriculture organization estimation of the United nations, the annual loss of the world in the production of grains and cotton is more than 10 percent. Plant diseases not only cause a reduction in crop yield, but also seriously threaten the quality safety of agricultural products and international trade thereof to some extent.

Plant diseases and insect pests also seriously threaten precious forest resources of human beings. Forestry pests are known as smokeless forest fires. Relevant experts remind relevant departments and forest farmers to strengthen pest monitoring, early find prevention and control and minimize the damage degree of plant diseases and insect pests so as to ensure the healthy development of forest vegetation.

Pest control (pest control) is an artificial approach to reduce or prevent pathogenic microorganisms and pests from harming crops or human and livestock.

The prevention and treatment measures of plant diseases and insect pests are divided into cultivation prevention and treatment measures, physical prevention and treatment measures, chemical prevention and treatment measures and biological prevention and treatment measures:

chemical prevention, namely chemical substances such as bactericides or insecticides are adopted for prevention;

2, physical prevention, using physical energy such as light or rays, or building barriers;

3, tillage control, changing crop varieties, cultivation time or environment to reduce harm;

and 4, biological control, namely, controlling by mainly using natural enemies.

At present, chemical prevention is adopted widely and at relatively low cost.

Chemical prevention and control need to use drugs for preventing and controlling plant diseases and insect pests, and when the drugs are produced, original drug crystals are firstly prepared and then prepared into preparations.

Wherein, the raw medicine is a final product consisting of effective components and impurities obtained in the manufacturing process, does not contain foreign substances and additives, and generally has the content of at least more than 80 percent.

The drug effect is poor when the raw materials are directly used, and the key is easy to generate. Therefore, the pesticide preparation prepared from the raw pesticide can improve the pesticide effect. The effective content of the raw materials in the preparation is about 20%, and the rest is solvent such as emulsifier, dispersant, filler, etc.

The existing medicine for preventing and treating plant diseases and insect pests has some problems, and the raw medicine crystals are easy to adhere, so that the raw medicine crystals are accumulated in a material box, and the feeding is not smooth; and the density of the original medicine crystal is generally larger than that of the solvent, and the original medicine crystal can settle at the bottom in the preparation tank, so that the dissolving and mixing with the solvent are influenced, the dissolving and mixing efficiency is low, the preparation efficiency is low, and the condition that the dissolving time of the original medicine crystal is too long exists.

Therefore, the inventor designs the piston-based plant disease and pest control medicine preparation equipment and the preparation method, and solves the problems.

Disclosure of Invention

Technical problem to be solved

The invention aims to overcome the defects in the prior art and provides piston work-based plant disease and pest control medicine preparation equipment and a preparation method.

(II) technical scheme

The medicine preparation equipment for preventing and treating plant diseases and insect pests based on piston work comprises a tank body assembly, a driving assembly, a lifting assembly, a piston assembly, a scattering assembly and a pushing assembly;

the tank body component comprises a preparation tank, support legs, a liquid discharge pipe, a feeding box, a feeding pipe and a liquid feeding hopper; a support leg is arranged below the preparation tank, the bottom of the preparation tank is connected with a liquid discharge pipe, and a valve is arranged on the liquid discharge pipe; the right side of the upper part of the preparation tank is connected with a liquid feeding hopper; the feeding box is arranged above the left side of the preparation tank, and the left part of the bottom surface is communicated with the upper part of the preparation tank through a feeding pipe which inclines downwards to the right; a driving assembly is arranged at the right end of the top of the preparation tank, and a lifting assembly is matched above the driving assembly; a piston assembly is arranged in the preparation tank and connected with the lifting assembly; the piston assembly is also provided with a breaking assembly, and the breaking assembly is matched with the driving assembly; the charging box is provided with a pushing assembly, and the pushing assembly is matched with the lifting assembly.

Further, the driving assembly comprises a mounting frame, a servo motor, an incomplete bevel gear, a driven bevel gear and a first rotating shaft;

the servo motor is fixed at the right end of the top of the preparation tank through a mounting rack, and the output end of the servo motor extends leftwards and is connected with an incomplete bevel gear; the first rotating shaft is arranged on the left side of the incomplete bevel gear, and the bottom end of the first rotating shaft is rotatably connected with the top of the preparation tank through a bearing; two driven bevel gears are symmetrically arranged at the lower section of the first rotating shaft and matched with the incomplete bevel gear; the upper section of the first rotating shaft is provided with threads.

Furthermore, the lifting assembly comprises a first connecting plate, a first connecting rod, a top plate, a first through hole, a sliding sleeve and a sliding rod;

the upper section of the first rotating shaft penetrates through and is in threaded connection with a first-class connecting plate, and two ends of the first-class connecting plate are upwards connected with a top plate through a first-class connecting rod; the top plate is provided with a first through hole for the first rotating shaft to pass through; the left end of the top of the preparation tank is provided with a vertical sliding rod, the left end of the top plate is provided with a sliding sleeve, and the sliding sleeve is arranged on the sliding rod.

Furthermore, the piston assembly comprises a first piston cylinder, a first piston plate, a fixed rod, a liquid suction pipe, a suction nozzle, a liquid return pipe and a first piston rod;

the first piston cylinder is arranged in the preparation tank, and the bottom end of the first piston cylinder is connected with the inner bottom of the preparation tank through a fixed rod; a first piston plate which moves up and down is arranged in the first piston cylinder, a first piston rod is arranged at the top of the first piston plate, and the bottom end of the first piston rod is rotatably connected with the first piston plate through a bearing; the top end of the first piston rod extends upwards out of the first piston cylinder and the preparation tank and is rotatably connected with the top plate through a bearing;

the lower part of the first piston cylinder is circumferentially connected with a pipette; the pipette extends to the bottom of the preparation tank, is forked and is provided with a suction nozzle; a liquid return pipe is circumferentially connected to the lower portion of the first piston cylinder, and the top end of the liquid return pipe is inclined upwards.

Furthermore, the scattering assembly comprises a first transmission wheel, a transmission belt, a second transmission wheel, a second rotating shaft, a first gear, a long cylindrical gear, a spline shaft, a shaft sleeve and a scattering rod;

the second rotating shaft is arranged between the first piston rod and the first rotating shaft, and the bottom end of the second rotating shaft is rotatably connected with the top of the preparation tank through a bearing; a second driving wheel is arranged on the second rotating shaft, a first driving wheel is correspondingly arranged at the lower section of the first rotating shaft, and the second driving wheel and the first driving wheel are in transmission connection through a transmission belt; a first gear is arranged at the top end of the second rotating shaft, a long cylindrical gear is arranged on the upper section of the first piston rod, and the first gear is meshed with the long cylindrical gear;

the shaft sleeve penetrates through and is rotatably connected with the top of the preparation tank through a bearing, and a spline shaft is arranged in the middle section of the first piston rod and penetrates through the shaft sleeve and is matched with the shaft sleeve; the lower section of the shaft sleeve is uniformly provided with a breaking rod which is positioned above the liquid return pipe.

Further, the material pushing assembly comprises a fixing plate, a second through hole, a mounting plate, an internal threaded pipe, a second gear, a rack, a second connecting rod, an external threaded rod and a material pushing plate;

a fixed plate is connected between the charging box and the slide bar, and mounting plates are arranged on the fixed plate at intervals; an internal threaded pipe is rotatably arranged between the mounting plates, the left end of the internal threaded pipe penetrates through the left mounting plate and is in threaded connection with an external threaded rod, the external threaded rod extends leftwards into the charging box and is connected with a material pushing plate, and the bottom end of the material pushing plate abuts against the inner bottom of the charging box; a second gear is arranged on the internal thread pipe, a second type connecting rod is arranged on the left side of the sliding sleeve, a rack is connected below the second type connecting rod, and the rack is meshed with the second gear; a second through hole which is convenient for the second rotating shaft to pass through is arranged on the fixing plate.

Further, the left lower part of the charging box is provided with an arc-shaped wall surface to form an incomplete cylinder cavity, namely a blanking cavity; the feed pipe is communicated with the bottom of the blanking cavity.

Further, the automatic feeding device also comprises a blanking assembly; the blanking assembly comprises a rocker, a mounting shaft, a pull rope and a plugging plate;

the lower part of the material pushing plate is arranged into an arc shape which is convex towards the right; a rocker is arranged in the blanking cavity through a mounting shaft; the mounting shaft is coincided with the center of the blanking cavity, the mounting shaft is rotationally connected with the front wall and the rear wall of the blanking cavity, and a torsional spring is arranged at the joint; the top of the rocker is connected with the material pushing plate through a pull rope, the bottom end of the rocker is provided with an arc-shaped plugging plate, and the plugging plate is attached to the inner wall of the blanking cavity.

Further, the grinding device also comprises a grinding component; the grinding assembly comprises a first bevel gear, a second bevel gear, a third rotating shaft, a cam, an upper grinding plate, a baffle, a second connecting plate, an end plate, a guide rod, a spring and a grinding bulge;

a first bevel gear is arranged on the internal threaded pipe, a second bevel gear is vertically meshed below the first bevel gear, the second bevel gear is positioned at the top end of a third rotating shaft, and the third rotating shaft penetrates through and is rotatably connected with a fixing plate; the third rotating shaft extends downwards into the right section of the feeding pipe and is provided with a cam;

the upper grinding plate is arranged in the feeding pipe, the left end and the right end of the upper grinding plate are upwards connected with a baffle plate, and the top end of the baffle plate is in lap joint with the inner top of the feeding pipe; the guide rod is positioned above the upper grinding plate, and the left end and the right end of the guide rod are connected with the inner top of the feeding pipe through end plates; the top of the upper grinding plate is provided with a second connecting plate, the guide rod penetrates through the second connecting plate, and a spring is connected between the second connecting plate and the end plate; the cam is positioned on the left side of the right baffle and is matched with the baffle; the upper grinding plate and the inner bottom of the feeding pipe are correspondingly provided with grinding bulges.

Further, the material shaking component is also included; the material vibrating component comprises a second piston rod, a second piston plate, a second piston cylinder, a liquid guide pipe, a third piston cylinder, a support rod, a third piston plate, a material vibrating rod and a material vibrating head;

the second piston cylinder is positioned below the fixed plate, a second piston plate which moves up and down is arranged in the second piston cylinder, the top of the second piston plate is connected with a second piston rod, and the second piston rod upwards penetrates through the second through hole and is connected with the rack; the third piston cylinder is arranged below the feeding pipe in parallel and is connected with the preparation tank through a supporting rod; a third piston plate is arranged in the third piston cylinder, material vibrating rods are uniformly distributed on the top of the third piston plate, and the top ends of the material vibrating rods extend out of the third piston cylinder and are provided with material vibrating heads; the second piston cylinder is communicated with the third piston cylinder through a liquid guide pipe.

(III) advantageous effects

The invention provides a piston work-based plant disease and pest control medicine preparation device and a preparation method, and the device and the method have the following advantages:

1, a servo motor is adopted to drive an incomplete bevel gear to rotate and is intermittently meshed with a driven bevel gear, so that a first rotating shaft periodically rotates forwards and backwards; the upper section of the first rotating shaft is in threaded connection with a first type of connecting plate, and the first type of connecting plate drives the top plate to move up and down based on the thread effect and the guide of the left sliding sleeve and the sliding rod; the sliding sleeve moves along with the top plate and drives the rack to lift through the second-class connecting rod; the rack and the second gear act to drive the second gear to drive the internally threaded pipe to rotate forwards and backwards; based on the screw action and the limitation of the pushing plate, the external screw rod drives the pushing plate to move left and right, so that the original drug crystals at the right part of the feeding box are pushed leftwards and fall into the preparation tank from the feeding pipe, and the situation that the original drug crystals at the right part of the feeding box are stacked without blanking is avoided;

2, the first piston rod moves up and down along with the top plate and drives the first piston plate to synchronously move in the first piston cylinder, and the pipette is matched with the design of the one-way valve to suck the materials at the bottom of the preparation tank into the first piston cylinder through the suction nozzle and discharge the materials again through the liquid return pipe and upwards eject the materials; the first transmission wheel on the first rotating shaft also rotates along with the first rotating shaft, and the first transmission wheel drives the second transmission wheel to drive the second rotating shaft to rotate through the transmission belt, so that the first gear drives the long cylindrical gear to rotate and drives the first piston rod to rotate; the spline shaft on the first piston rod rotates along with the first piston rod and moves up and down, and the shaft sleeve drives the scattering rod to rotate through the matching of the spline shaft and the shaft sleeve; like this, the material of following liquid return pipe discharge is broken up under the effect of breaking up the pole, and the imbibition of cooperation bottom, the material on upper portion is drained to the bottom again to being inhaled a piston cylinder once more and discharging, again in proper order through breaking up, making the material constitute the circulation and realizing the high-efficient preparation of prevention of plant diseases and insect pests medicine at the in-process of circulation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only for the present invention and protect some embodiments, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a block diagram of another embodiment of the present invention;

FIG. 3 is a block diagram of the drive assembly and lift assembly;

FIG. 4 is a block diagram of the break-up assembly and piston assembly;

FIG. 5 is a view of the spline shaft and sleeve in combination;

FIG. 6 is a block diagram of the pusher assembly;

FIG. 7 is a block diagram of a blanking assembly;

FIG. 8 is a block diagram of an abrasive assembly;

FIG. 9 is an enlarged view of FIG. 8;

FIG. 10 is a block diagram of the seismic component.

In the drawings, the components represented by the respective reference numerals are listed below:

1-tank assembly, 101-preparation tank, 102-support leg, 103-drain pipe, 104-feed box, 105-feed pipe, 106-liquid hopper;

2-driving component, 201-mounting rack, 202-servo motor, 203-incomplete bevel gear, 204-driven bevel gear, 205-first rotating shaft;

3-lifting component, 301-connecting plate of the same type, 302-connecting rod of the same type, 303-top plate, 304-one through hole, 305-sliding sleeve, 306-sliding rod;

4-piston assembly, 401-piston cylinder, 402-piston plate, 403-fixed rod, 404-pipette, 405-suction nozzle, 406-liquid return tube, 407-piston rod;

5-a breaking component, 501-a first transmission wheel, 502-a transmission belt, 503-a second transmission wheel, 504-a second rotating shaft, 505-a first gear, 506-a long cylindrical gear, 507-a spline shaft, 508-a shaft sleeve and 509-a breaking rod;

6-pushing assembly, 601-fixing plate, 602-second through hole, 603-mounting plate, 604-internal threaded pipe, 605-second gear, 606-rack, 607-second type connecting rod, 608-external threaded rod and 609-pushing plate;

7-blanking component, 701-rocker, 702-mounting shaft, 703-pulling rope, 704-plugging plate;

8-grinding component, 801-bevel gear I, 802-bevel gear II, 803-rotating shaft III, 804-cam, 805-upper grinding plate, 806-baffle, 807-connecting plate II, 808-end plate, 809-guide rod, 810-spring and 811-grinding projection;

9-vibration material component, 901-second piston rod, 902-second piston plate, 903-second piston cylinder, 904-liquid guide tube, 905-third piston cylinder, 906-support rod, 907-third piston plate, 908-vibration material rod and 909-vibration material head.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, their indicated orientations or positional relationships are based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third," if any, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Referring to the attached drawings, the piston work-based medicine preparation equipment for preventing and treating plant diseases and insect pests comprises a tank body assembly 1, a driving assembly 2, a lifting assembly 3, a piston assembly 4, a scattering assembly 5 and a pushing assembly 6;

the tank body assembly 1 comprises a preparation tank 101, a support leg 102, a liquid discharge pipe 103, a feeding box 104, a feeding pipe 105 and a liquid adding hopper 106; a support leg 102 is arranged below the preparation tank 101, the bottom of the preparation tank 101 is connected with a liquid discharge pipe 103, and a valve is arranged on the liquid discharge pipe 103; the right side of the upper part of the preparation tank 101 is connected with a liquid adding hopper 106; the feeding box 104 is arranged above the left side of the preparation tank 101, and the left part of the bottom surface is communicated with the upper part of the preparation tank 101 through a feeding pipe 105 which inclines downwards and rightwards; a driving assembly 2 is arranged at the right end of the top of the preparation tank 101, and a lifting assembly 3 is matched above the driving assembly 2; a piston assembly 4 is arranged in the preparation tank 101, and the piston assembly 4 is connected with the lifting assembly 3; the piston assembly 4 is also provided with a breaking assembly 5, and the breaking assembly 5 is matched with the driving assembly 2; the charging box 104 is provided with a pushing assembly 6, and the pushing assembly 6 is matched with the lifting assembly 3.

Example 2

Referring to the attached drawings, the piston work-based medicine preparation equipment for preventing and treating plant diseases and insect pests comprises a tank body assembly 1, a driving assembly 2, a lifting assembly 3, a piston assembly 4, a scattering assembly 5 and a pushing assembly 6;

the tank body assembly 1 comprises a preparation tank 101, a support leg 102, a liquid discharge pipe 103, a feeding box 104, a feeding pipe 105 and a liquid adding hopper 106; a support leg 102 is arranged below the preparation tank 101, the bottom of the preparation tank 101 is connected with a liquid discharge pipe 103, and a valve is arranged on the liquid discharge pipe 103; the right side of the upper part of the preparation tank 101 is connected with a liquid adding hopper 106; the feeding box 104 is arranged above the left side of the preparation tank 101, and the left part of the bottom surface is communicated with the upper part of the preparation tank 101 through a feeding pipe 105 which inclines downwards and rightwards; a driving assembly 2 is arranged at the right end of the top of the preparation tank 101, and a lifting assembly 3 is matched above the driving assembly 2; a piston assembly 4 is arranged in the preparation tank 101, and the piston assembly 4 is connected with the lifting assembly 3; the piston assembly 4 is also provided with a breaking assembly 5, and the breaking assembly 5 is matched with the driving assembly 2; the charging box 104 is provided with a pushing assembly 6, and the pushing assembly 6 is matched with the lifting assembly 3.

The driving assembly 2 comprises a mounting frame 201, a servo motor 202, an incomplete bevel gear 203, a driven bevel gear 204 and a first rotating shaft 205;

the servo motor 202 is fixed at the right end of the top of the preparation tank 101 through a mounting rack 201, and the output end of the servo motor 202 extends leftwards and is connected with an incomplete bevel gear 203; the first rotating shaft 205 is arranged on the left side of the incomplete bevel gear 203, and the bottom end of the first rotating shaft is rotatably connected with the top of the preparation tank 101 through a bearing; two driven bevel gears 204 are symmetrically and fixedly connected to the lower section of the first rotating shaft 205, and the driven bevel gears 204 are matched with the incomplete bevel gear 203; the upper section of the first rotating shaft 205 is processed with threads.

The lifting component 3 comprises a first connecting plate 301, a first connecting rod 302, a top plate 303, a first through hole 304, a sliding sleeve 305 and a sliding rod 306;

the upper section of the first rotating shaft 205 penetrates through and is in threaded connection with a first-class connecting plate 301, and two ends of the first-class connecting plate 301 are upwards connected with a top plate 303 through a first-class connecting rod 302; the top plate 303 is provided with a first through hole 304 for the first rotating shaft 205 to pass through; the left end of the top of the preparation tank 101 is fixedly connected with a vertical sliding rod 306, the left end of the top plate 303 is fixedly connected with a sliding sleeve 305, and the sliding sleeve 305 is sleeved on the sliding rod 306.

The piston assembly 4 comprises a first piston cylinder 401, a first piston plate 402, a fixing rod 403, a pipette 404, a suction nozzle 405, a liquid return pipe 406 and a first piston rod 407;

the first piston cylinder 401 is arranged in the preparation tank 101, and the bottom end of the first piston cylinder is connected with the inner bottom of the preparation tank 101 through a fixing rod 403; a first piston plate 402 which moves up and down is arranged in the first piston cylinder 401, the top of the first piston plate 402 is connected with a first piston rod 407, and the bottom end of the first piston rod 407 is rotatably connected with the first piston plate 402 through a bearing; the top end of the first piston rod 407 extends upwards to form the first piston cylinder 401 and the preparation tank 101, and is rotatably connected with the top plate 303 through a bearing;

a pipette 404 is circumferentially connected to the lower part of the first piston cylinder 401; the pipette 404 extends to the bottom of the preparation tank 101, is bifurcated, and is equipped with a suction nozzle 405; a liquid return pipe 406 is further connected to the lower portion of the first piston cylinder 401 in the circumferential direction, and the top end of the liquid return pipe 406 inclines upwards.

The scattering assembly 5 comprises a first transmission wheel 501, a transmission belt 502, a second transmission wheel 503, a second rotating shaft 504, a first gear 505, a long cylindrical gear 506, a spline shaft 507, a shaft sleeve 508 and a scattering rod 509;

the second rotating shaft 504 is arranged between the first piston rod 407 and the first rotating shaft 205, and the bottom end of the second rotating shaft is rotatably connected with the top of the preparation tank 101 through a bearing; a second driving wheel 503 is fixedly connected to the second rotating shaft 504, a first driving wheel 501 is correspondingly and fixedly connected to the lower section of the first rotating shaft 205, and the second driving wheel 503 and the first driving wheel 501 are in transmission connection through a transmission belt 502; a first gear 505 is fixedly connected to the top end of the second rotating shaft 504, a long cylindrical gear 506 is fixedly connected to the upper section of the first piston rod 407, and the first gear 505 is meshed with the long cylindrical gear 506;

the shaft sleeve 508 penetrates through and is rotatably connected with the top of the preparation tank 101 through a bearing, a spline shaft 507 is fixedly connected to the middle section of the first piston rod 407, and the spline shaft 507 penetrates through the shaft sleeve 508 and is matched with the shaft sleeve 508; the lower section of the shaft sleeve 508 is uniformly connected with a breaking rod 509, and the breaking rod 509 is positioned above the liquid return pipe 406.

The pushing assembly 6 comprises a fixing plate 601, a second through hole 602, a mounting plate 603, an internal threaded pipe 604, a second gear 605, a rack 606, a second-type connecting rod 607, an external threaded rod 608 and a pushing plate 609;

a fixed plate 601 is connected between the feeding box 104 and the sliding rod 306, and mounting plates 603 are fixedly connected to the fixed plate 601 at intervals; an internal threaded pipe 604 is rotatably arranged between the mounting plates 603, the left end of the internal threaded pipe 604 penetrates through the mounting plate 603 on the left side and is in threaded connection with an external threaded rod 608, the external threaded rod 608 extends leftwards into the charging box 104 and is connected with a material pushing plate 609, and the bottom end of the material pushing plate 609 props against the inner bottom of the charging box 104; a second gear 605 is fixedly connected to the internal threaded pipe 604, a second connecting rod 607 is connected to the left side of the sliding sleeve 305, a rack 606 is connected to the lower portion of the second connecting rod 607, and the rack 606 is meshed with the second gear 605; the fixing plate 601 is provided with a second through hole 602 for the second rotating shaft 504 to pass through.

The following describes the method of using the dispensing machine by taking this embodiment as an example:

filling the preparation tank 101 with a solvent through a liquid adding hopper 106, and putting the raw crystal into a material adding box 104;

starting a servo motor 201 to drive an incomplete bevel gear 202 to rotate and intermittently mesh with a driven bevel gear 204, so that a first rotating shaft 205 rotates forwards and backwards periodically;

the upper section of the first rotating shaft 205 is in threaded connection with a first-class connecting plate 301, and the first-class connecting plate 301 drives the top plate 304 to move up and down based on the thread action and the guide of the left-end sliding sleeve 305 and the sliding rod 306;

on one hand, the sliding sleeve 305 moves along with the top plate 304 and drives the rack 606 to lift through the second-type connecting rod 607; the rack 606 and the second gear 605 act to drive the second gear 605 to drive the internally threaded pipe 604 to rotate forwards and backwards;

in the initial state, the material pushing plate 609 is close to the right side wall of the charging box 104, so that enough storage space of the charging box 104 is kept; based on the screw action and the limitation of the pushing plate 609, the external screw rod 608 drives the pushing plate 609 to move left and right, so that the original drug crystals at the right part of the feeding box 104 are pushed leftwards and fall into the preparation tank 101 from the feeding pipe 105, and the situation that the original drug crystals at the right part of the feeding box 104 are stacked without blanking is avoided;

on one hand, the first piston rod 407 moves up and down along with the top plate 304 and drives the first piston plate 402 to synchronously move in the first piston cylinder 401, and by matching with the design of a one-way valve, the pipette 404 sucks the material at the bottom of the preparation tank 101 into the first piston cylinder 401 through the suction nozzle 405, and then discharges the material again through the liquid return pipe 406 and sprays the material upwards;

on the other hand, the first transmission wheel 501 on the first rotating shaft 205 also rotates, and the first transmission wheel 501 drives the second transmission wheel 503 to drive the second rotating shaft 504 to rotate through the transmission belt 502, so that the first gear 505 drives the long cylindrical gear 506 to rotate and drives the first piston rod 407 to rotate; the spline shaft 507 on the first piston rod 407 rotates together and moves up and down, and the spline shaft 507 is matched with the shaft sleeve 508, so that the shaft sleeve 508 drives the scattering rod 509 to rotate;

thus, the material discharged from the liquid return pipe 406 is broken up under the action of the breaking-up rod 509, and the material on the upper part is drained to the bottom part by matching with the liquid suction on the bottom part, so that the material is sucked into the first piston cylinder 401 again and discharged, and the material is broken up again, so that the material forms a circulation and the efficient preparation of the pest and disease prevention medicine is realized in the circulating process.

It should be noted that although the first piston rod 407 moves up and down, the long cylindrical gear 506 thereon is always engaged with the first gear 505, so that the sleeve 508 is kept rotating.

In addition, in order to facilitate the discharge of the original drug crystals from the feeding box 104, an arc-shaped wall surface is processed at the left lower part of the feeding box 104 to form an incomplete cylinder cavity, namely a blanking cavity; the feed tube 105 communicates with the bottom of the blanking chamber so that material collects in the blanking chamber, i.e. falls into the feed tube 105 from the bottom.

Example 3

On the basis of the example 2, the method comprises the following steps of,

also comprises a blanking component 7; the blanking assembly 7 comprises a rocker 701, a mounting shaft 702, a pull rope 703 and a blocking plate 704;

the lower part of the material pushing plate 609 is processed into an arc shape which is convex towards the right; a rocker 701 is arranged in the blanking cavity through a mounting shaft 702; the installation shaft 702 coincides with the center of the blanking cavity, the installation shaft 702 is rotatably connected with the front wall and the rear wall of the blanking cavity, and a torsion spring is further arranged at the connection part; the top of the rocker 701 is connected with a material pushing plate 609 through a pull rope 703, the bottom end of the rocker is fixedly connected with an arc-shaped plugging plate 704, and the plugging plate 704 is attached to the inner wall of the blanking cavity.

Specifically, when the material pushing plate 609 moves, the rocker 701 is acted by the pull rope 703 and is matched with the torsion spring, so that the rocker 701 generates reciprocating swing, on one hand, the rocker 701 stirs the original medicine crystal in the blanking cavity, the flowability of the original medicine crystal is kept, and blanking is facilitated; on the other hand, the blocking plate 704 is overlapped with or opened from the outlet at the bottom of the blanking cavity, so that intermittent blanking is realized.

Example 4

On the basis of the above-described embodiments,

also included is a grinding assembly 8; the grinding assembly 8 comprises a first bevel gear 801, a second bevel gear 802, a third rotating shaft 803, a cam 804, an upper grinding plate 805, a baffle 806, a second connecting plate 807, an end plate 808, a guide rod 809, a spring 810 and a grinding boss 811;

a first bevel gear 801 is fixedly connected to the internal threaded pipe 604, a second bevel gear 802 is vertically meshed below the first bevel gear 801, the second bevel gear 802 is fixedly connected to the top end of a third rotating shaft 803, and the third rotating shaft 803 penetrates through and is rotatably connected with the fixing plate 601; the third rotating shaft 803 extends downwards into the right section of the feeding pipe 105 and is fixedly connected with a cam 804;

the upper grinding plate 805 is arranged in the feeding pipe 105, the left end and the right end of the upper grinding plate are upwards connected with a baffle 806, and the top end of the baffle 806 is in lap joint with the inner top of the feeding pipe 105; the guide rod 809 is positioned above the upper grinding plate 805, and the left end and the right end are connected with the inner top of the feeding pipe 105 through end plates 808; a second connecting plate 807 is fixedly connected to the top of the upper grinding plate 805, a guide rod 809 penetrates through the second connecting plate 807, and a spring 810 is connected between the second connecting plate 807 and the end plate 808; the cam 804 is located to the left of the right-hand stop 806 and engages the stop 806; the upper grinding plate 805 and the inner bottom of the feed pipe 105 are correspondingly processed with grinding protrusions 811.

Specifically, the first bevel gear 801 rotates along with the internal threaded pipe 604, and drives the second bevel gear 802 to drive the third rotating shaft 803 to rotate, so that the cam 804 acts on the right baffle 806, and the upper grinding plate 805 reciprocates along the direction of the guide rod 809 in cooperation with the spring 810, so that a grinding effect is formed between the upper grinding plate 805 and the inner bottom of the feeding pipe 105;

raw medicine crystal that falls into in the filling tube 105 from the filling box 104 moves along the filling tube 105, receive blockking of left end baffle 806, flow into between last grinding plate 805 and the inlet pipe 105 inner bottom, fall into the preparation jar 101 after grinding, effectively reduce the particle size, be favorable to the mixture of raw medicine crystal and solvent on the one hand, on the other hand, also make things convenient for piston assembly 5 to pump drainage the material, avoid because raw medicine crystal is bulky, lead to inhaling motionless or the condition of blockking up the pipeline to appear.

Example 5

On the basis of the above-described embodiments,

the material vibrating component 9 is also included; the material vibrating component 9 comprises a second piston rod 901, a second piston plate 902, a second piston cylinder 903, a liquid guide pipe 904, a third piston cylinder 905, a support rod 906, a third piston plate 907, a material vibrating rod 908 and a material vibrating head 909;

the second piston cylinder 903 is positioned below the fixing plate 601, a second piston plate 902 which moves up and down is arranged in the second piston cylinder 903, the top of the second piston plate 902 is connected with a second piston rod 901, and the second piston rod 901 upwards penetrates through the second through hole 602 and is connected with the rack 606; the third piston cylinder 905 is arranged below the feeding pipe 105 in parallel and is connected with the preparation tank 101 through a support rod 906; a third piston plate 907 is arranged in the third piston cylinder 905, material vibrating rods 908 are uniformly distributed and connected to the top of the third piston plate 907, and the top ends of the material vibrating rods 908 extend out of the third piston cylinder 905 and are provided with material vibrating heads 909; the second piston barrel 903 and the third piston barrel 905 are communicated through a liquid guide pipe 904.

It should be noted that the second piston cylinder 903 and the third piston cylinder 905 are filled with liquid, such as water;

specifically, the rack 606 moves up and down in the second piston cylinder 903 through the second piston rod 901 and the second piston plate 902; due to pressure balance, the third piston plate 907 reciprocates in the third piston cylinder 905, so that the material vibrating rod 908 drives the material vibrating head 909 to intermittently collide with the bottom of the feeding pipe 105, the movement of the original crystal is accelerated, and the residual original crystal is reduced.

It should be noted that the electrical components are provided with power supplies, and the control method is the prior art, and is unified here for avoiding the redundancy of description; and the present invention is primarily intended to protect mechanical equipment, the control means and circuit connections will not be explained in detail herein.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The medicine preparation equipment for preventing and treating plant diseases and insect pests based on piston work is characterized by comprising a tank body assembly (1), a driving assembly (2), a lifting assembly (3), a piston assembly (4), a scattering assembly (5) and a pushing assembly (6);

the tank body assembly (1) comprises a preparation tank (101), support legs (102), a liquid discharge pipe (103), a feeding box (104), a feeding pipe (105) and a liquid feeding hopper (106); a support leg (102) is arranged below the preparation tank (101), the bottom of the preparation tank (101) is connected with a liquid discharge pipe (103), and a valve is arranged on the liquid discharge pipe (103); the right side of the upper part of the preparation tank (101) is connected with a liquid adding hopper (106); the feeding box (104) is arranged above the left side of the preparation tank (101), and the left part of the bottom surface is communicated with the upper part of the preparation tank (101) through a feeding pipe (105) which inclines downwards and rightwards; a driving assembly (2) is arranged at the right end of the top of the preparation tank (101), and a lifting assembly (3) is matched above the driving assembly (2); a piston assembly (4) is arranged in the preparation tank (101), and the piston assembly (4) is connected with the lifting assembly (3); the piston assembly (4) is also provided with a breaking assembly (5), and the breaking assembly (5) is matched with the driving assembly (2); the feeding box (104) is provided with a material pushing assembly (6), and the material pushing assembly (6) is matched with the lifting assembly (3).

2. The piston work-based pharmaceutical preparation device for plant pest control according to claim 1, wherein the driving assembly (2) comprises a mounting frame (201), a servo motor (202), an incomplete bevel gear (203), a driven bevel gear (204) and a first rotating shaft (205);

the servo motor (202) is fixed at the right end of the top of the preparation tank (101) through a mounting rack (201), and the output end of the servo motor (202) extends leftwards and is connected with an incomplete bevel gear (203); the first rotating shaft (205) is arranged on the left side of the incomplete bevel gear (203), and the bottom end of the first rotating shaft is rotatably connected with the top of the preparation tank (101) through a bearing; two driven bevel gears (204) are symmetrically arranged at the lower section of the first rotating shaft (205), and the driven bevel gears (204) are matched with the incomplete bevel gear (203); the upper section of the first rotating shaft (205) is provided with threads.

3. The piston work-based medicine preparation device for plant pest control according to claim 2, wherein the lifting assembly (3) comprises a connecting plate (301), a connecting rod (302), a top plate (303), a through hole (304), a sliding sleeve (305) and a sliding rod (306);

the upper section of the first rotating shaft (205) penetrates through and is in threaded connection with a first-class connecting plate (301), and two ends of the first-class connecting plate (301) are upwards connected with a top plate (303) through a first-class connecting rod (302); the top plate (303) is provided with a first through hole (304) for the first rotating shaft (205) to pass through; the left end of the top of the preparation tank (101) is provided with a vertical sliding rod (306), the left end of the top plate (303) is provided with a sliding sleeve (305), and the sliding sleeve (305) is arranged on the sliding rod (306).

4. The piston-based working piston-based plant disease and pest control drug preparation device according to claim 3, wherein the piston assembly (4) comprises a piston cylinder (401), a piston plate (402), a fixing rod (403), a pipette (404), a suction nozzle (405), a liquid return pipe (406) and a piston rod (407);

the first piston cylinder (401) is arranged in the preparation tank (101), and the bottom end of the first piston cylinder is connected with the inner bottom of the preparation tank (101) through a fixing rod (403); a first piston plate (402) which moves up and down is arranged in the first piston cylinder (401), a first piston rod (407) is arranged at the top of the first piston plate (402), and the bottom end of the first piston rod (407) is rotatably connected with the first piston plate (402) through a bearing; the top end of the first piston rod (407) extends upwards out of the first piston cylinder (401) and the preparation tank (101) and is rotatably connected with the top plate (303) through a bearing;

a pipette (404) is circumferentially connected to the lower part of the first piston cylinder (401); the pipette (404) extends to the bottom of the preparation tank (101), is bifurcated, and is provided with a suction nozzle (405); the lower part of the first piston cylinder (401) is also circumferentially connected with a liquid return pipe (406), and the top end of the liquid return pipe (406) inclines upwards.

5. The piston-work-based medicine preparation equipment for plant pest control according to claim 4, wherein the scattering assembly (5) comprises a first transmission wheel (501), a transmission belt (502), a second transmission wheel (503), a second rotating shaft (504), a first gear (505), a long cylindrical gear (506), a spline shaft (507), a shaft sleeve (508) and a scattering rod (509);

the second rotating shaft (504) is arranged between the first piston rod (407) and the first rotating shaft (205), and the bottom end of the second rotating shaft is rotatably connected with the top of the preparation tank (101) through a bearing; a second driving wheel (503) is arranged on the second rotating shaft (504), a first driving wheel (501) is correspondingly arranged on the lower section of the first rotating shaft (205), and the second driving wheel (503) is in transmission connection with the first driving wheel (501) through a transmission belt (502); a first gear (505) is arranged at the top end of the second rotating shaft (504), a long cylindrical gear (506) is arranged at the upper section of the first piston rod (407), and the first gear (505) is meshed with the long cylindrical gear (506);

the shaft sleeve (508) penetrates through and is rotatably connected with the top of the preparation tank (101) through a bearing, a spline shaft (507) is arranged at the middle section of the first piston rod (407), and the spline shaft (507) penetrates through the shaft sleeve (508) and is matched with the shaft sleeve (508); the lower section of the shaft sleeve (508) is uniformly provided with a breaking rod (509), and the breaking rod (509) is positioned above the liquid return pipe (406).

6. The piston-based working type medicine preparation device for plant disease and insect pest control according to claim 4, wherein the material pushing assembly (6) comprises a fixing plate (601), a second through hole (602), a mounting plate (603), an internal threaded pipe (604), a second gear (605), a rack (606), a second type connecting rod (607), an external threaded rod (608) and a material pushing plate (609);

a fixed plate (601) is connected between the feeding box (104) and the sliding rod (306), and mounting plates (603) are arranged on the fixed plate (601) at intervals; an internal threaded pipe (604) is rotatably arranged between the mounting plates (603), the left end of the internal threaded pipe (604) penetrates through the mounting plate (603) on the left side and is in threaded connection with an external threaded rod (608), the external threaded rod (608) extends leftwards into the charging box (104) and is connected with a material pushing plate (609), and the bottom end of the material pushing plate (609) props against the inner bottom of the charging box (104); a second gear (605) is arranged on the internal threaded pipe (604), a second connecting rod (607) is arranged on the left side of the sliding sleeve (305), a rack (606) is connected below the second connecting rod (607), and the rack (606) is meshed with the second gear (605); and a second through hole (602) which is convenient for the second rotating shaft (504) to pass through is arranged on the fixing plate (601).

7. The piston-based working piston-based plant disease and pest control drug preparation device according to claim 6, wherein an arc-shaped wall surface is arranged at the lower left part of the charging box (104) to form an incomplete cylinder cavity, namely a blanking cavity; the feeding pipe (105) is communicated with the bottom of the blanking cavity.

8. The piston-based working piston-based plant pest control drug preparation device according to claim 7, further comprising a blanking assembly (7); the blanking assembly (7) comprises a rocker (701), a mounting shaft (702), a pull rope (703) and a blocking plate (704);

the lower part of the material pushing plate (609) is arranged into an arc shape which is convex towards the right; a rocker (701) is arranged in the blanking cavity through a mounting shaft (702); the mounting shaft (702) is superposed with the center of the blanking cavity, the mounting shaft (702) is rotatably connected with the front wall and the rear wall of the blanking cavity, and a torsional spring is arranged at the joint; the top of the rocker (701) is connected with a material pushing plate (609) through a pull rope (703), an arc-shaped plugging plate (704) is arranged at the bottom end, and the plugging plate (704) is attached to the inner wall of the blanking cavity.

9. The piston-based working piston-based plant pest control drug preparation device according to claim 6, further comprising a grinding assembly (8); the grinding assembly (8) comprises a first bevel gear (801), a second bevel gear (802), a third rotating shaft (803), a cam (804), an upper grinding plate (805), a baffle (806), a second connecting plate (807), an end plate (808), a guide rod (809), a spring (810) and a grinding boss (811);

a first bevel gear (801) is arranged on the internal threaded pipe (604), a second bevel gear (802) is vertically meshed below the first bevel gear (801), the second bevel gear (802) is positioned at the top end of a third rotating shaft (803), and the third rotating shaft (803) penetrates through and is rotatably connected with the fixing plate (601); the third rotating shaft (803) extends downwards into the right section of the feeding pipe (105) and is provided with a cam (804);

the upper grinding plate (805) is arranged in the feeding pipe (105), the left end and the right end of the upper grinding plate are upwards connected with a baffle plate (806), and the top end of the baffle plate (806) is in lap joint with the inner top of the feeding pipe (105); the guide rod (809) is positioned above the upper grinding plate (805), and the left end and the right end of the guide rod are connected with the inner top of the feeding pipe (105) through end plates (808); a second connecting plate (807) is arranged at the top of the upper grinding plate (805), a guide rod (809) penetrates through the second connecting plate (807), and a spring (810) is connected between the second connecting plate (807) and an end plate (808); the cam (804) is positioned on the left side of the baffle (806) on the right side and is matched with the baffle (806); the upper grinding plate (805) and the inner bottom of the feeding pipe (105) are correspondingly provided with grinding bulges (811).

10. The piston-based working piston-based plant disease and pest control pharmaceutical preparation device according to claim 6, further comprising a vibration material assembly (9); the material vibrating component (9) comprises a second piston rod (901), a second piston plate (902), a second piston cylinder (903), a liquid guide pipe (904), a third piston cylinder (905), a support rod (906), a third piston plate (907), a material vibrating rod (908) and a material vibrating head (909);

the second piston cylinder (903) is positioned below the fixing plate (601), a second piston plate (902) which moves up and down is arranged in the second piston cylinder (903), the top of the second piston plate (902) is connected with a second piston rod (901), and the second piston rod (901) upwards penetrates through the second through hole (602) and is connected with the rack (606); the third piston cylinder (905) is arranged below the feeding pipe (105) in parallel and is connected with the preparation tank (101) through a supporting rod (906); a third piston plate (907) is arranged in the third piston cylinder (905), material vibrating rods (908) are uniformly distributed on the top of the third piston plate (907), and the top ends of the material vibrating rods (908) extend out of the third piston cylinder (905) and are provided with material vibrating heads (909); the second piston cylinder (903) is communicated with the third piston cylinder (905) through a liquid guide pipe (904).

Images