CN110809941A - Seed coating equipment - Google Patents

Abstract

The invention relates to the field of biological breeding, in particular to seed coating equipment. The flow of the seeds can be adjusted according to actual conditions; the state of transporting the seeds can be automatically adjusted, and the processing speed is conveniently improved; by the differential principle, the seeds are fully contacted with the coating agent, and the coating process is completed. Including the box assembly, the transportation assembly, the closed assembly, the capsule assembly, the chassis assembly, through two drive bevel gear four rotations of bevel gear, when four pivoted of bevel gear, through three and six simultaneous drive bevel gear five of bevel gear and seven rotations of bevel gear, and then make three drives of bevel gear axle the belt four movements, drive two movements of bevel gear axle through seven simultaneously of bevel gear, and drive the belt three movements, and then drive middle-end rotating sleeve pipe and inner bull stick one respectively and rotate, and then realize the differential of pivoted between middle-end rotating sleeve pipe and the inner bull stick one, through the differential of pivoted between middle-end rotating sleeve pipe and the inner bull stick one.

Description

Seed coating equipment

Technical Field

The invention relates to the field of biological breeding, in particular to seed coating equipment.

Background

The seed coating equipment is a common equipment in the field of biological breeding, but the function of the common seed coating equipment is single.

Disclosure of Invention

The invention aims to provide a seed coating device, which can adjust the flow of seeds according to the actual situation; the state of transporting the seeds can be automatically adjusted, and the processing speed is conveniently improved; by the differential principle, the seeds are fully contacted with the coating agent, and the coating process is completed.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a seed coating equipment, includes case assembly, transportation assembly, closed assembly, capsule assembly, chassis assembly, its characterized in that: the bottom frame assembly is connected with the box assembly, the transportation assembly is connected with the bottom frame assembly, the closing assembly is connected with the bottom frame assembly, and the coating assembly is connected with the bottom frame assembly.

As a further optimization of the technical scheme, the seed coating equipment comprises a seed box assembly, a poke rod, a poking shaft, an arc rod, a hinge post, an inner hinge rod, a side wall frame, a hollow groove, a clamping groove, a matching clamping rod, a clamping rod push spring, an auxiliary slide rod, a manual rod, a hinge push rod, a closing plate, an arc waist groove and a rectangular hollow groove, wherein the arc rod is fixedly connected with the seed box outer frame, the poking shaft is rotatably connected with the seed box outer frame, the poke rod is fixedly connected with the poking shaft, the hinge post is fixedly connected with the seed box outer frame, the inner hinge rod is rotatably connected with the hinge post, the side wall frame is fixedly connected with the seed box outer frame, the hollow groove is connected with the side wall frame, the clamping groove is connected with the side wall frame, the matching clamping rod is slidably connected with the inner hinge rod, the matching clamping rod is fittingly connected with the clamping groove, the clamping rod push spring is connected with the matching, manual pole and supplementary slide bar rotate to be connected, and manual pole and cooperation kelly cooperation are connected, and supplementary slide bar is connected with articulated push rod is articulated, and articulated push rod is connected with the closure plate is articulated, and arc waist groove, rectangle fretwork groove all set up on seed case frame, and closure plate sliding connection is on arc waist groove, rectangle fretwork groove, and the closure plate is connected with articulated push rod is articulated, and inner hinge rod sets up on the fretwork groove.

As a further optimization of the technical scheme, the invention relates to seed coating equipment, wherein the transportation assembly comprises a transportation outer frame, a first driving rotating column, a first driving roller, a transportation belt, a hollow groove, a fixed deflector rod and a deflector rod, the driving rotating column II is rotatably connected with the transportation outer frame, the driving roller I is fixedly connected with the driving rotating column I, the driving roller I is connected with the transportation belt, the transportation belt is connected with the driving roller II, the driving roller II is fixedly connected with the driving rotating column II, the driving rotating column II is rotatably connected with the cylindrical slider, the cylindrical slider is slidably connected with the arc sliding column, the arc sliding column pushing spring is connected with the arc sliding column in a sleeved mode, the arc sliding column is fixedly connected with the transportation outer frame, the connection outer frame is fixedly connected with the transportation outer frame, and the transportation belt is connected with the driving roller II.

As a further optimization of the technical scheme, the invention relates to seed coating equipment, wherein the closed assembly comprises a closed outer frame, an inner hollow cavity, an inner sliding column, an outlet, a driving hinge rod, an inner column and a closed rod, the box comprises a hinged outer frame, a rectangular slider, a first pushing spring and a second pushing spring, wherein a hollow cavity at the inner end is formed in the inner end of the closed outer frame, a sliding column at the inner end is fixedly connected with the closed outer frame, an outlet is formed in the inner end of the closed outer frame, a driving hinge rod is connected with an inner end column, the inner end column is fixedly connected with a closing rod, the closing rod is slidably connected with the hinged outer frame, the hinged outer frame is rotatably connected with the rectangular slider, the rectangular slider is slidably connected with the inner end sliding column, the first pushing spring and the second pushing spring are connected with the inner end sliding column in a sleeved mode, the rectangular slider is arranged between the first pushing spring and the second pushing spring, the box outer frame is fixedly connected with the closed outer frame, the driving hinge.

As a further optimization of the technical scheme, the seed coating equipment comprises an upper end cover, a first communication hole, a first inner rotating rod, a second communication hole, a middle rotating sleeve, a bottom plate, an outlet hole, a first stirring blade and a second stirring blade, wherein the first communication hole and the second communication hole are formed in the upper end cover, the first inner rotating rod is rotatably connected with the upper end cover, the middle rotating sleeve is rotatably connected with the upper end cover, the bottom plate is rotatably connected with the upper end cover, the first stirring blade is fixedly connected with the middle rotating sleeve, the second stirring blade is fixedly connected with the first inner rotating rod, the middle rotating sleeve is rotatably connected with the upper bottom plate, and the first inner rotating rod is rotatably connected with the upper bottom plate.

As a further optimization of the technical scheme, the invention relates to seed coating equipment, wherein an underframe assembly comprises an underframe plate body, a first fixing plate, a second fixing plate, a third fixing plate, a fourth fixing plate, a fifth fixing plate, a sixth fixing plate, a discharging pipe, an input motor, an input bevel gear, a first belt wheel shaft, a second belt wheel shaft, a first bevel gear shaft, a second bevel gear, a third bevel gear, a fourth bevel gear, a second bevel gear, a third belt, a fifth bevel gear, a third bevel gear shaft, a fourth belt, a first fixing frame, a second fixing frame, a sixth bevel gear, a seventh bevel gear and a communicating pipe, wherein the first fixing plate, the second fixing plate, the third fixing plate, the fourth fixing plate, the fifth fixing plate and the sixth fixing plate are fixedly connected with the underframe plate body, the discharging pipe is fixedly connected with the underframe plate body, the input motor is fixedly connected with the first fixing plate, the input motor is connected with, the belt wheel I is fixedly connected with a belt wheel shaft I, the belt wheel shaft I is connected with a belt wheel II, the belt wheel II is fixedly connected with the belt wheel shaft II, the bevel gear I is in meshing transmission with an input bevel gear, the bevel gear I is fixedly connected with a bevel gear shaft I, the bevel gear shaft I is fixedly connected with a bevel gear II, the bevel gear shaft I is in rotating connection with a fixing plate II, the bevel gear II is in meshing transmission with a bevel gear IV, the bevel gear VII is fixedly connected with a bevel gear II, the bevel gear II is in rotating connection with the fixing plate II, the fixing frame I and the fixing frame II are fixedly connected with a bevel gear IV, the bevel gear III is in rotating connection with a fixing frame II, the bevel gear VI is in meshing transmission with the fixing frame II, the bevel gear V is in meshing transmission with the bevel gear III, the bevel gear V is fixedly connected with the bevel gear shaft III, and the bevel gear III is in rotating connection with the fixing plate II, the four belts are connected with the three-phase bevel gear shaft, the two bevel gear shaft is connected with the three-phase belts, the seven bevel gear is in meshing transmission with the three bevel gear, the seven bevel gear is in meshing transmission with the six bevel gear, the two pulley shafts are fixedly connected with the shifting shaft, the shifting shaft is connected through the belt A, the outer box frame is fixedly connected with the four fixed plates, the three fixed plates are fixedly connected with the conveying outer frame, the bottom plate is fixedly connected with the six fixed plates, the discharging pipe is connected with the outlet hole, the three belts are connected with the first inner rotating rod, the four belts are connected with the middle rotating sleeve, the communicating pipe is connected with the first communicating hole, and the communicating pipe is fixedly.

The seed coating equipment has the beneficial effects that:

according to the seed coating equipment, a bevel gear II drives a bevel gear IV to rotate, when the bevel gear IV rotates, a bevel gear III and a bevel gear VI drive a bevel gear V and a bevel gear VII to rotate simultaneously, so that a bevel gear shaft III drives a belt IV to move, and drives a bevel gear shaft II to move and a belt III to move through the bevel gear VII, so that a middle-end rotating sleeve and an inner-end rotating rod I are respectively driven to rotate, so that the differential speed of rotation between the middle-end rotating sleeve and the inner-end rotating rod I is realized, and the seeds in the middle-end rotating sleeve can be fully contacted with a coating agent through the differential speed of rotation between the middle-end rotating sleeve and the inner-end rotating rod I, so that the coating process is completed; the seeds finished by coating flow out of the device through the outlet hole and the discharge pipe, and are convenient to collect.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a third schematic view of the overall structure of the present invention;

FIG. 4 is a schematic view of the structure of the case assembly of the present invention;

FIG. 5 is a schematic view of a transport assembly of the present invention;

FIG. 6 is a schematic view of the closure assembly of the present invention;

FIG. 7 is a schematic view of the closure assembly of the present invention;

FIG. 8 is a schematic view of the structure of the coating assembly of the present invention;

fig. 9 is a schematic structural view of the chassis assembly of the present invention.

In the figure: a box assembly 1; 1-1 of a box outer frame; a poke rod 1-2; 1-3 of a shifting shaft; 1-4 of an arc-shaped rod; hinge columns 1-5; inner end hinge rods 1-6; side wall frames 1-7; 1-8 of hollow grooves; 1-9 of a clamping groove; 1-10 of a matching clamping rod; a clamping rod push spring 1-11; 1-12 auxiliary slide bars; 1-13 of a manual lever; articulated push rods 1-14; closure panels 1-15; 1-16 of arc-shaped waist grooves; rectangular hollow grooves 1-17; a transport assembly 2; transporting the outer frame 2-1; driving the first rotating column 2-2; driving rollers I2-3; 2-4 of a conveyer belt; 2-5 of a hollow groove; fixing a deflector rod 2-6; 2-7 of a deflector rod; driving the second rotating column to be 2-8; 2-9 of cylindrical sliders; 2-10 parts of arc sliding column; 2-11 parts of arc sliding column push spring; 2-12 parts of a second driving roller; connecting the outer frames 2-13; a closing assembly 3; closing the outer frame 3-1; an inner hollow cavity 3-2; inner end sliding columns 3-3; an outlet 3-4; driving the hinge rod 3-5; 3-6 parts of inner end column; 3-7 of a closing rod; 3-8 of a hinged outer frame; 3-9 parts of a rectangular slider; 3-10 parts of a first push spring; 3-11 parts of a second push spring; a coating assembly 4; an upper end cover 4-1; a communication hole I4-2; 4-3 of an inner end rotating rod; a second communicating hole 4-4; the middle end rotates the sleeve 4-5; 4-6 of a bottom plate; an outlet 4-7; 4-8 parts of a first stirring blade; 4-9 parts of a second stirring blade; a chassis assembly 5; an underframe plate body 5-1; a first fixing plate 5-2; 5-3 of a second fixing plate; 5-4 parts of a fixing plate III; fixing plate four 5-5; 5-6 parts of a fixing plate; six fixing plates 5-7; 5-8 parts of a discharge pipe; inputting 5-9 of a motor; 5-10 parts of input bevel gear; 5-11 parts of a first belt; 5-12 of a first belt wheel; 5-13 of a pulley shaft I; 5-14 parts of a second belt; 5-15 of a second belt wheel; 5-16 parts of a pulley shaft II; 5-17 parts of a first bevel gear; 5-18 parts of a bevel gear shaft I; 5-19 parts of a second bevel gear; 5-20 parts of bevel gear III; 5-21 parts of bevel gear; 5-22 parts of a second bevel gear shaft; 5-23 parts of a third belt; 5-24 parts of bevel gear five; 5-25 parts of a bevel gear shaft III; belt four 5-26; 5-27 parts of a first fixing frame; 5-28 parts of a second fixing frame; sixty-5-29 parts of bevel gear; 5-30 parts of bevel gear seven; and communication tubes 5-31.

Detailed Description

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

The fixed connection in the device is realized by welding; fixing by means of thread fixing and the like, and using different fixing modes by combining different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the seed coating equipment of the embodiment is described below with reference to fig. 1 to 9, and comprises a box assembly 1, a transportation assembly 2, a closing assembly 3, a coating assembly 4 and a chassis assembly 5, and is characterized in that: the bottom frame assembly 5 is connected with the box assembly 1, the transportation assembly 2 is connected with the bottom frame assembly 5, the closing assembly 3 is connected with the bottom frame assembly 5, and the coating assembly 4 is connected with the bottom frame assembly 5.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-9, and the embodiment further describes the first embodiment, where the box assembly 1 includes a box frame 1-1, a poke rod 1-2, a poke shaft 1-3, an arc rod 1-4, a hinge post 1-5, an inner end hinge rod 1-6, a side wall frame 1-7, a hollow groove 1-8, a slot 1-9, a matching clamp rod 1-10, a clamp rod push spring 1-11, an auxiliary slide rod 1-12, a manual rod 1-13, a hinge push rod 1-14, a closing plate 1-15, an arc waist groove 1-16, a rectangular hollow groove 1-17, an arc rod 1-4 fixedly connected with the box frame 1-1, a poke shaft 1-3 rotatably connected with the box frame 1-1, a poke rod 1-2 fixedly connected with the poke shaft 1-3, the hinged column 1-5 is fixedly connected with a seed box outer frame 1-1, an inner end hinged rod 1-6 is rotatably connected with the hinged column 1-5, a side wall frame 1-7 is fixedly connected with the seed box outer frame 1-1, a hollow groove 1-8 is connected with the side wall frame 1-7, a clamping groove 1-9 is connected with the side wall frame 1-7, a matching clamping rod 1-10 is slidably connected with the inner end hinged rod 1-6, a matching clamping rod 1-10 is fittingly connected with the clamping groove 1-9, a clamping rod push spring 1-11 is sleeved and connected with the matching clamping rod 1-10, an auxiliary sliding rod 1-12 is slidably connected with the side wall frame 1-7, a hand lever 1-13 is rotatably connected with an auxiliary sliding rod 1-12, a hand lever 1-13 is fittingly connected with the matching clamping rod 1-10, and an auxiliary sliding rod 1-12 is hinged and connected with a push rod 1-14, the hinged push rod 1-14 is hinged with the closed plate 1-15, the arc-shaped waist groove 1-16 and the rectangular hollowed groove 1-17 are both arranged on the seed box outer frame 1-1, the closed plate 1-15 is slidably connected with the arc-shaped waist groove 1-16 and the rectangular hollowed groove 1-17, the closed plate 1-15 is hinged with the hinged push rod 1-14, and the inner end hinged rod 1-6 is arranged on the hollowed groove 1-8.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-9, and the embodiment further describes the first embodiment, wherein the transportation assembly 2 includes a transportation outer frame 2-1, a driving rotary column one 2-2, a driving roller one 2-3, a transportation belt 2-4, a belt hollow groove 2-5, a fixed deflector rod 2-6, a deflector rod 2-7, a driving rotary column two 2-8, a cylindrical slider 2-9, an arc-shaped sliding column 2-10, an arc-shaped sliding column push spring 2-11, a driving roller two 2-12, and a connection outer frame 2-13, the driving rotary column one 2-2 is rotatably connected with the transportation outer frame 2-1, the driving roller one 2-3 is fixedly connected with the driving rotary column one 2-2, the driving roller one 2-3 is connected with the transportation belt 2-4, the transportation belt 2-4 is connected with the driving roller two 2-12, the driving roller II 2-12 is fixedly connected with the driving rotating column II 2-8, the driving rotating column II 2-8 is rotatably connected with the cylindrical slider 2-9, the cylindrical slider 2-9 is slidably connected with the arc-shaped slider 2-10, the arc-shaped slider push spring 2-11 is connected with the arc-shaped slider 2-10 in a sleeved mode, the arc-shaped slider 2-10 is fixedly connected with the transportation outer frame 2-1, the connection outer frame 2-13 is fixedly connected with the transportation outer frame 2-1, and the transportation belt 2-4 is connected with the driving roller II 2-12.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-9, and the embodiment further describes the first embodiment, where the closed assembly 3 includes a closed outer frame 3-1, an inner hollow cavity 3-2, an inner slide column 3-3, an outlet 3-4, a driving hinge rod 3-5, an inner column 3-6, a closed rod 3-7, a hinged outer frame 3-8, a rectangular slider 3-9, a push spring 3-10, and a push spring two 3-11, the inner hollow cavity 3-2 is disposed at the inner end of the closed outer frame 3-1, the inner slide column 3-3 is fixedly connected to the closed outer frame 3-1, the outlet 3-4 is disposed at the inner end of the closed outer frame 3-1, the driving hinge rod 3-5 is connected to the inner column 3-6, the inner column 3-6 is fixedly connected to the closed rod 3-7, the closed rod 3-7 is connected with the hinged outer frame 3-8 in a sliding mode, the hinged outer frame 3-8 is connected with the rectangular slider 3-9 in a rotating mode, the rectangular slider 3-9 is connected with the inner end sliding column 3-3 in a sliding mode, the first push spring 3-10 and the second push spring 3-11 are connected with the inner end sliding column 3-3 in a sleeved mode, the rectangular slider 3-9 is arranged between the first push spring 3-10 and the second push spring 3-11, the box outer frame 1-1 is fixedly connected with the closed outer frame 3-1, the driving hinged rod 3-5 is connected with the box outer frame 1-1 in a hinged mode, and the deflector rod 2-7 is connected with the driving hinged rod 3-5.

The fifth concrete implementation mode:

the first embodiment is further described with reference to fig. 1-9, and the coating assembly 4 includes an upper end cap 4-1, a first communication hole 4-2, a first inner end rotating rod 4-3, a second communication hole 4-4, a middle end rotating sleeve 4-5, a bottom plate 4-6, an outlet hole 4-7, a first stirring blade 4-8, and a second stirring blade 4-9, wherein the first communication hole 4-2 and the second communication hole 4-4 are disposed on the upper end cap 4-1, the first inner end rotating rod 4-3 is rotatably connected to the upper end cap 4-1, the middle end rotating sleeve 4-5 is rotatably connected to the upper end cap 4-1, the bottom plate 4-6 is rotatably connected to the upper end cap 4-1, and the first stirring blade 4-8 is fixedly connected to the middle end rotating sleeve 4-5, the second stirring blade 4-9 is fixedly connected with the first inner end rotating rod 4-3, the middle end rotating sleeve 4-5 is rotatably connected with the upper bottom plate 4-6, and the first inner end rotating rod 4-3 is rotatably connected with the upper bottom plate 4-6.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 9, and the embodiment further describes the first embodiment, wherein the chassis assembly 5 includes a chassis plate body 5-1, a first fixing plate 5-2, a second fixing plate 5-3, a third fixing plate 5-4, a fourth fixing plate 5-5, a fifth fixing plate 5-6, a sixth fixing plate 5-7, a discharge pipe 5-8, an input motor 5-9, input bevel teeth 5-10, a first belt 5-11, a first belt pulley 5-12, a first belt pulley shaft 5-13, a second belt pulley 5-14, a second belt pulley 5-15, a second belt pulley shaft 5-16, a first bevel gear 5-17, a first bevel gear shaft 5-18, a second bevel gear 5-19, a third bevel gear 5-20, a fourth bevel gear 5-21, a second bevel gear shaft 5-22, a second bevel gear shaft 5-16, a first bevel gear 5-, 5-23 parts of a third belt, 5-24 parts of a fifth bevel gear, 5-25 parts of a third bevel gear shaft, 5-26 parts of a fourth belt, 5-27 parts of a first fixed frame, 5-28 parts of a second fixed frame, 5-29 parts of a sixth bevel gear, 5-30 parts of a seventh bevel gear, 5-31 parts of a communicating pipe, 5-2 parts of a first fixed plate, 5-3 parts of a second fixed plate, 5-4 parts of a third fixed plate, 5-5 parts of a fourth fixed plate, 5-6 parts of a fifth fixed plate and 5-7 parts of a sixth fixed plate are fixedly connected with a plate body 5-1 of an underframe, 5-8 parts of a discharge pipe are fixedly connected with the plate body 5-1 of the underframe, 5-9 parts of an input motor is fixedly connected with 5-2 parts of the first fixed plate, 5-9 parts of the input motor is fixedly connected with 5-10 parts of the input, the belt wheel shaft I5-13 is connected with the belt wheel II 5-14, the belt wheel II 5-14 is connected with the belt wheel II 5-15, the belt wheel II 5-15 is fixedly connected with the belt wheel shaft II 5-16, the bevel gear I5-17 is in meshing transmission with the input bevel gear 5-10, the bevel gear I5-17 is fixedly connected with the bevel gear shaft I5-18, the bevel gear shaft I5-18 is fixedly connected with the bevel gear II 5-19, the bevel gear shaft I5-18 is in rotating transmission with the fixed plate II 5-3, the bevel gear II 5-19 is in meshing transmission with the bevel gear IV 5-21, the bevel gear VII 5-30 is fixedly connected with the bevel gear shaft II 5-22, the bevel gear shaft II 5-22 is in rotating transmission with the fixed plate II 5-3, the fixed frame I5-27, the fixed frame II 5-28 is fixedly connected with the bevel gear IV 5-21, the bevel gear III 5-20 is rotationally connected with the fixed frame I5-27, the bevel gear III 5-20 is in meshed transmission with the bevel gear II 5-19, the bevel gear VI 5-29 is rotationally connected with the fixed frame II 5-28, the bevel gear VI 5-29 is in meshed transmission with the bevel gear II 5-19, the bevel gear V5-24 is in meshed transmission with the bevel gear III 5-20, the bevel gear V5-24 is in meshed transmission with the bevel gear VI 5-29, the bevel gear V5-24 is fixedly connected with the bevel gear shaft III 5-25, the bevel gear shaft III 5-25 is rotationally connected with the fixed plate II 5-3, the belt IV 5-26 is connected with the bevel gear shaft III 5-25, the bevel gear shaft II 5-22 is connected with the belt III 5-23, the bevel gear VII 5-30 is in meshed transmission with the bevel gear III 5-20, the bevel gear VII 5-30 is in meshed transmission with the bevel gear VI 5-29, the second belt wheel shaft 5-16 is fixedly connected with the shifting shaft 1-3, the shifting shaft 1-3 is connected through a belt A, the box outer frame 1-1 is fixedly connected with the fourth fixed plate 5-5, the third fixed plate 5-4 is fixedly connected with the transportation outer frame 2-1, the bottom plate 4-6 is fixedly connected with the sixth fixed plate 5-7, the discharge pipe 5-8 is connected with the outlet hole 4-7, the third belt 5-23 is connected with the first inner end rotating rod 4-3, the fourth belt 5-26 is connected with the middle end rotating sleeve 4-5, the communicating pipe 5-31 is connected with the first communicating hole 4-2, and the communicating pipe 5-31 is fixedly connected and communicated with the connecting outer frame 2-13;

when the input bevel gear 5-10 rotates, the bevel gear shaft 5-18 is driven to rotate by the bevel gear 5-17, the bevel gear second 5-19 is driven to rotate at the same time, the bevel gear fourth 5-21 is driven to rotate by the bevel gear second 5-19, the bevel gear fifth 5-24 and the bevel gear seventh 5-30 are driven to rotate by the bevel gear fourth 5-21 and the bevel gear third 5-20 and the bevel gear sixth 5-29 at the same time, the bevel gear shaft third 5-25 drives the belt fourth 5-26 to move, the bevel gear shaft second 5-22 is driven to move by the bevel gear seventh 5-30 and the belt third 5-23 to move, the middle end rotating sleeve 4-5 and the inner end rotating rod one 4-3 are driven to rotate respectively, and the common knowledge of differential speed between the middle end rotating sleeve 4-5 and the inner end rotating rod one 4-3 is realized, the seeds in the middle-end rotating sleeve 4-5 can fully contact with the coating agent through the differential speed of the rotation between the middle-end rotating sleeve 4-5 and the inner end rotating rod I4-3, so as to complete the coating process; the coated seeds flow out of the device through the outlet holes 4-7 and the discharge pipes 5-8, and are convenient to collect.

The seed coating equipment of the invention has the working principle that:

when the seed packing box is used, the input motor 5-9 is started and drives the input bevel gear 5-10 to move, meanwhile, the belt I5-11 is driven to move through the output shaft of the input motor 5-9, the belt shaft I5-13 is driven to move, the belt II 5-14 is driven to move, the belt shaft II 5-16 is driven to move, the poking shaft 1-3 is driven to rotate, the poking rod 1-2 is driven to move, meanwhile, seeds needing to be coated are placed in the box outer frame 1-1, the poking rod 1-2 is driven to be in contact with the coated seeds through the poking shaft 1-3, and the coated seeds can conveniently pass through the box outer frame 1-1; the flow of seeds passing through the seed box outer frame 1-1 can be adjusted according to actual conditions, the manual rods 1-13 are manually operated, the manual rods 1-13 drive the matching clamping rods 1-10 to slide along the inner end hinge rods 1-6, meanwhile, the matching clamping rods 1-10 are separated from the clamping grooves 1-9, meanwhile, the auxiliary sliding rods 1-12 slide along the side wall frames 1-7, meanwhile, the hinge push rods 1-14 drive the closing plates 1-15 to slide along the rectangular hollow grooves 1-17, the area of a closed cavity formed by the closing plates 1-15 and the seed box outer frame 1-1 is adjusted to be changed, and further, the flow of coated seeds is adjusted; the seeds passing through the box outer frame 1-1 fall into the closed outer frame 3-1, simultaneously flow out through an outlet 3-4 in the closed outer frame 3-1 and fall into the conveyer belt 2-4, along with the increase of the seeds on the conveyer belt 2-4, the right end of the conveyer belt 2-4 is pushed to slide along the arc-shaped sliding column 2-10, simultaneously the arc-shaped sliding column push spring 2-11 is compressed, simultaneously the fixed deflector rod 2-6 is driven and the deflector rod 2-7 is driven to move downwards through the driving of the driving rotating column 2-8, simultaneously the driving hinged rod 3-5 is driven through the deflector rod 2-7, and the driving hinged rod 3-5 drives the closed rod 3-7 to move to the inner end of the closed outer frame 3-1 along the hinged outer frame 3-8, and simultaneously the outlet 3-4 is blocked, the seeds can not pass through the outlet 3-4 until the seeds on the conveyer belt 2-4 are reduced, the cylindrical slider 2-9 can move upwards along the arc-shaped sliding column 2-10 by the pushing of the arc-shaped sliding column pushing spring 2-11, the fixed deflector rod 2-6 and the deflector rod 2-7 can be driven to move upwards at the same time, and the closed rod 3-7 can be driven to move towards the outer end of the closed outer frame 3-1 along the hinged outer frame 3-8 by the connection of the deflector rod 2-7 and the driving hinged rod 3-5, so that the seeds can pass through the outlet 3-4, and the processing speed can be conveniently improved; when the pulley shaft I5-13 rotates, the driving rotating column I2-2 is driven to rotate, the driving roller I2-3 is driven to rotate, and the conveying belt 2-4 is driven to move, so that seeds are conveniently conveyed; the seeds flow into the communicating pipes 5-31 through the connecting outer frames 2-13 and flow into the upper end cover 4-1 through the communicating pipes 5-31, when the input bevel teeth 5-10 rotate, the bevel gear shafts 5-18 are driven to rotate through the bevel teeth 5-17, the bevel teeth two 5-19 are driven to rotate at the same time, the bevel teeth four 5-21 are driven to rotate through the bevel teeth two 5-19, the bevel teeth five 5-24 and the bevel teeth seven 5-30 are driven to rotate through the bevel teeth three 5-20 and the bevel teeth six 5-29 at the same time, further, the bevel teeth shaft three 5-25 drives the belt four 5-26 to move, simultaneously, the bevel teeth shaft two 5-22 are driven to move through the bevel teeth seven 5-30, the belt three 5-23 is driven to move, further, the middle end rotating sleeve 4-5 and the inner end rotating rod one 4-3 are driven to rotate respectively, the differential speed principle for realizing the rotation between the middle-end rotating sleeve 4-5 and the inner end rotating rod I4-3 belongs to the common general knowledge of the prior art, and the seeds in the middle-end rotating sleeve 4-5 can be fully contacted with the coating agent through the differential speed of the rotation between the middle-end rotating sleeve 4-5 and the inner end rotating rod I4-3 so as to complete the coating process; the coated seeds flow out of the device through the outlet holes 4-7 and the discharge pipes 5-8, and are convenient to collect.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations can be made by those skilled in the art within the spirit and scope of the present invention; modifying; and the addition or the replacement also belongs to the protection scope of the invention.

Claims (6)

1. A seed coating equipment, includes case assembly (1), transportation assembly (2), closed assembly (3), capsule assembly (4), chassis assembly (5), its characterized in that: the bottom frame assembly (5) is connected with the box assembly (1), the transportation assembly (2) is connected with the bottom frame assembly (5), the closing assembly (3) is connected with the bottom frame assembly (5), and the coating assembly (4) is connected with the bottom frame assembly (5).

2. A seed coating apparatus as claimed in claim 1, wherein: the box assembly (1) comprises a box outer frame (1-1), a poke rod (1-2), a poke shaft (1-3), an arc-shaped rod (1-4), a hinged column (1-5), an inner end hinged rod (1-6), a side wall frame (1-7), a hollowed-out groove (1-8), a clamping groove (1-9), a matching clamping rod (1-10), a clamping rod push spring (1-11), an auxiliary sliding rod (1-12), a manual rod (1-13), a hinged push rod (1-14), a closing plate (1-15), an arc-shaped waist groove (1-16) and a rectangular hollowed-out groove (1-17), wherein the arc-shaped rod (1-4) is fixedly connected with the box outer frame (1-1), and the poke shaft (1-3) is rotatably connected with the box outer frame (1-1), the poke rod (1-2) is fixedly connected with the poke shaft (1-3), the hinged column (1-5) is fixedly connected with the outer box frame (1-1), the inner end hinged rod (1-6) is rotatably connected with the hinged column (1-5), the side wall frame (1-7) is fixedly connected with the outer box frame (1-1), the hollow groove (1-8) is connected with the side wall frame (1-7), the clamping groove (1-9) is connected with the side wall frame (1-7), the matching clamping rod (1-10) is slidably connected with the inner end hinged rod (1-6), the matching clamping rod (1-10) is fittingly connected with the clamping groove (1-9), the clamping rod push spring (1-11) is sleeved and connected with the matching clamping rod (1-10), the auxiliary sliding rod (1-12) is slidably connected with the side wall frame (1-7), the manual rod (1-13) is rotatably connected with the auxiliary sliding rod (1-12), the manual rod (1-13) is connected with the matching clamping rod (1-10) in a matching mode, the auxiliary sliding rod (1-12) is connected with the hinged push rod (1-14) in a hinged mode, the hinged push rod (1-14) is connected with the closing plate (1-15) in a hinged mode, the arc-shaped waist groove (1-16) and the rectangular hollowed groove (1-17) are arranged on the outer box frame (1-1), the closing plate (1-15) is connected with the arc-shaped waist groove (1-16) and the rectangular hollowed groove (1-17) in a sliding mode, the closing plate (1-15) is connected with the hinged push rod (1-14) in a hinged mode, and the inner end hinged rod (1-6) is arranged on the hollowed groove (1-8).

3. A seed coating apparatus as claimed in claim 1, wherein: the transportation assembly (2) comprises a transportation outer frame (2-1), a driving rotary column I (2-2), a driving roller I (2-3), a transportation belt (2-4), a belt hollow groove (2-5), a fixed deflector rod (2-6), a deflector rod (2-7), a driving rotary column II (2-8), a cylindrical slider (2-9), an arc-shaped sliding column (2-10), an arc-shaped sliding column push spring (2-11), a driving roller II (2-12) and a connecting outer frame (2-13), wherein the driving rotary column I (2-2) is rotatably connected with the transportation outer frame (2-1), the driving roller I (2-3) is fixedly connected with the driving rotary column I (2-2), and the driving roller I (2-3) is connected with the transportation belt (2-4), the conveying belt (2-4) is connected with the driving roller II (2-12), the driving roller II (2-12) is fixedly connected with the driving rotary column II (2-8), the driving rotary column II (2-8) is rotatably connected with the cylindrical slider (2-9), the cylindrical slider (2-9) is slidably connected with the arc-shaped sliding column (2-10), the arc-shaped sliding column push spring (2-11) is connected with the arc-shaped sliding column (2-10) in a sleeved mode, the arc-shaped sliding column (2-10) is fixedly connected with the conveying outer frame (2-1), the connecting outer frame (2-13) is fixedly connected with the conveying outer frame (2-1), and the conveying belt (2-4) is connected with the driving roller II (2-12).

4. A seed coating apparatus as claimed in claim 1, wherein: the closed assembly (3) comprises a closed outer frame (3-1), an inner hollow-out cavity (3-2), an inner sliding column (3-3), an outlet (3-4), a driving hinge rod (3-5), an inner column (3-6), a closed rod (3-7), a hinge outer frame (3-8), a rectangular slider (3-9), a first push spring (3-10) and a second push spring (3-11), wherein the inner hollow-out cavity (3-2) is arranged at the inner end of the closed outer frame (3-1), the inner sliding column (3-3) is fixedly connected with the closed outer frame (3-1), the outlet (3-4) is arranged at the inner end of the closed outer frame (3-1), the driving hinge rod (3-5) is connected with the inner column (3-6), and the inner column (3-6) is fixedly connected with the closed rod (3-7), the closed rod (3-7) is connected with the hinged outer frame (3-8) in a sliding mode, the hinged outer frame (3-8) is connected with the rectangular slider (3-9) in a rotating mode, the rectangular slider (3-9) is connected with the inner end sliding column (3-3) in a sliding mode, the first push spring (3-10) and the second push spring (3-11) are connected with the inner end sliding column (3-3) in a sleeved mode, the rectangular slider (3-9) is arranged between the first push spring (3-10) and the second push spring (3-11), the box outer frame (1-1) is fixedly connected with the closed outer frame (3-1), the driving hinged rod (3-5) is connected with the box outer frame (1-1) in a hinged mode, and the deflector rod (2-7) is connected with the driving hinged rod (3-5).

5. A seed coating apparatus as claimed in claim 1, wherein: the coating assembly (4) comprises an upper end cover (4-1), a first communicating hole (4-2), a first inner end rotating rod (4-3), a second communicating hole (4-4), a middle end rotating sleeve (4-5), a bottom plate (4-6), an outlet hole (4-7), a first stirring blade (4-8) and a second stirring blade (4-9), wherein the first communicating hole (4-2) and the second communicating hole (4-4) are arranged on the upper end cover (4-1), the first inner end rotating rod (4-3) is rotatably connected with the upper end cover (4-1), the middle end rotating sleeve (4-5) is rotatably connected with the upper end cover (4-1), the bottom plate (4-6) is rotatably connected with the upper end cover (4-1), and the first stirring blade (4-8) is fixedly connected with the middle end rotating sleeve (4-5), the stirring blade II (4-9) is fixedly connected with the inner end rotating rod I (4-3), the middle end rotating sleeve (4-5) is rotatably connected with the upper bottom plate (4-6), and the inner end rotating rod I (4-3) is rotatably connected with the upper bottom plate (4-6).

6. A seed coating apparatus as claimed in claim 1, wherein: the chassis assembly (5) comprises a chassis plate body (5-1), a first fixing plate (5-2), a second fixing plate (5-3), a third fixing plate (5-4), a fourth fixing plate (5-5), a fifth fixing plate (5-6), a sixth fixing plate (5-7), a discharge pipe (5-8), an input motor (5-9), input bevel teeth (5-10), a first belt (5-11), a first belt wheel (5-12), a first belt wheel shaft (5-13), a second belt wheel (5-14), a second belt wheel (5-15), a second belt wheel shaft (5-16), a first bevel teeth (5-17), a first bevel teeth shaft (5-18), a second bevel teeth (5-19), a third bevel teeth (5-20), a fourth bevel teeth (5-21), a second bevel teeth shaft (5-22), A third belt (5-23), a fifth bevel gear (5-24), a third bevel gear shaft (5-25), a fourth belt (5-26), a first fixing frame (5-27), a second fixing frame (5-28), a sixth bevel gear (5-29), a seventh bevel gear (5-30), a communicating pipe (5-31), a first fixing plate (5-2), a second fixing plate (5-3), a third fixing plate (5-4), a fourth fixing plate (5-5), a fifth fixing plate (5-6) and a sixth fixing plate (5-7) are all fixedly connected with a chassis plate body (5-1), a discharge pipe (5-8) is fixedly connected with the chassis plate body (5-1), an input motor (5-9) is fixedly connected with the first fixing plate (5-2), and the input motor (5-9) is fixedly connected with the input bevel gear (5-10), the belt I (5-11) is connected with the input motor (5-9), the belt wheel I (5-12) is fixedly connected with the belt wheel shaft I (5-13), the belt wheel shaft I (5-13) is connected with the belt II (5-14), the belt II (5-14) is connected with the belt wheel II (5-15), the belt wheel II (5-15) is fixedly connected with the belt wheel shaft II (5-16), the conical tooth I (5-17) is in meshing transmission with the input conical tooth (5-10), the conical tooth I (5-17) is fixedly connected with the conical tooth shaft I (5-18), the conical tooth shaft I (5-18) is fixedly connected with the conical tooth II (5-19), the conical tooth shaft I (5-18) is in rotating transmission with the fixed plate II (5-3), the conical tooth II (5-19) is in meshing transmission with the conical tooth IV (5-21), a cone tooth seven (5-30) is fixedly connected with a cone tooth shaft two (5-22), the cone tooth shaft two (5-22) is rotatably connected with a fixing plate two (5-3), a fixing frame one (5-27) and a fixing frame two (5-28) are fixedly connected with a cone tooth four (5-21), a cone tooth three (5-20) is rotatably connected with the fixing frame one (5-27), the cone tooth three (5-20) is in meshing transmission with the cone tooth two (5-19), a cone tooth six (5-29) is rotatably connected with the fixing frame two (5-28), the cone tooth six (5-29) is in meshing transmission with the cone tooth two (5-19), a cone tooth five (5-24) is in meshing transmission with the cone tooth three (5-20), the cone tooth five (5-24) is in meshing transmission with the cone tooth six (5-29), the cone tooth five (5-24) is fixedly connected with the cone tooth shaft three (5-25), a third bevel gear shaft (5-25) is rotationally connected with a second fixed plate (5-3), a fourth belt (5-26) is connected with the third bevel gear shaft (5-25), a second bevel gear shaft (5-22) is connected with a third belt (5-23), a seventh bevel gear (5-30) is in meshing transmission with the third bevel gear (5-20), a seventh bevel gear (5-30) is in meshing transmission with a sixth bevel gear (5-29), a second belt wheel shaft (5-16) is fixedly connected with a shifting shaft (1-3), the shifting shaft (1-3) is connected through a belt A, a seed box outer frame (1-1) is fixedly connected with the fourth fixed plate (5-5), a third fixed plate (5-4) is fixedly connected with a transportation outer frame (2-1), a bottom plate (4-6) is fixedly connected with the sixth fixed plate (5-7), the discharge pipe (5-8) is connected with the outlet (4-7), the belt III (5-23) is connected with the inner end rotating rod I (4-3), the belt IV (5-26) is connected with the middle end rotating sleeve (4-5), the communicating pipe (5-31) is connected with the communicating hole I (4-2), and the communicating pipe (5-31) is fixedly connected and communicated with the connecting outer frame (2-13).

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