CN110625659B - Chinese-medicinal material dissection screening plant - Google Patents

Abstract

The invention relates to the field of pharmacy, in particular to a Chinese medicinal material cutting and screening device which comprises a cutting combination body, a conveying combination body, a clamping combination body, a cleaning combination body and a screening combination body, wherein the Chinese medicinal material is stored by being cut to a specified length, the traditional technology can not automatically cut into sections, the cutting length can not be changed, and residue and the medicinal material can not be separated, the problems are solved by the invention, the medicinal material can be put on a conveying belt by opening a pressure lever, the clamping force of the medicinal material can be adjusted by putting down the pressure lever and rotating a rotary handle, the medicinal material can be clamped by the pressure lever and can slide forwards along with the conveying belt to continuously clamp the medicinal material, the conveying belt is not moved when the cutting knife is cut, the conveying belt continues to convey when the cutting knife is cut, the distance of the conveying belt before stopping every time is adjustable, the cutting length can be adjusted by adjusting the distance, and a fan automatically reciprocates above the, the cut Chinese medicinal materials are shaken left and right and up and down through a sieve plate to separate medicinal material sections from medicinal material residues.

Description

Chinese-medicinal material dissection screening plant

Technical Field

The invention relates to the field of pharmacy, in particular to a Chinese medicinal material cutting and screening device.

Background

When the traditional Chinese medicine is stored, the traditional Chinese medicine is often cut to a specified length for storage, the traditional technology cannot automatically cut into sections, the cut length cannot be changed, and residues cannot be separated from the medicine sections.

Disclosure of Invention

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

the utility model provides a chinese-medicinal material dissection screening plant, includes the dissection combination, carries the combination, presss from both sides tight combination, clearance combination and screening combination, the transportation combination dissection combination be connected, press from both sides tight combination and carry the combination to be connected, the clearance combination with press from both sides tight combination to be connected, clearance combination and transportation combination sliding connection, screening combination is connected with the transportation combination

As a further optimization of the technical scheme, the Chinese herbal medicine cutting and screening device comprises a motor I, a motor I shaft bracket, a chain wheel I, a bottom plate, a chain wheel II shaft, a support lug, a cutting support plate, a connecting rod I, a connecting rod II, a cutting knife and a cutting knife shaft, wherein the motor I is connected with the cutting support plate, the motor I is connected with the motor I shaft, the motor I shaft bracket is rotationally connected with the motor I shaft bracket, the motor I shaft bracket is connected with the bottom plate, the motor I shaft is connected with the chain wheel I, the chain wheel II and the chain wheel chain are connected, the chain wheel II is connected with the chain wheel II shaft, the chain wheel II shaft is rotationally connected with the support lug, the support lug is connected with the cutting support plate, the chain wheel II shaft is connected with the connecting rod I, the connecting rod I is hinged with the connecting rod II, the connecting rod II, the cutting knife is connected with the cutting knife shaft, the cutting knife shaft is rotatably connected with the cutting support plate, and the bottom plate is connected with the cutting support plate.

As a further optimization of the technical scheme, the Chinese herbal medicine cutting and screening device comprises a conveying assembly, a conveying assembly and a screening assembly, wherein the conveying assembly comprises a bevel gear I, a bevel gear II shaft bracket, a transmission case, a first disc, a shifting shaft, a shifting wheel shaft, a friction wheel I, a circular groove sleeve, a friction wheel II, a friction wheel sliding groove, a switching rod, a sliding blade, a shifting fork, a first hemisphere, a friction wheel III, a transmission shaft I, a friction wheel IV, a transmission roller, a transmission belt, a transmission bracket, a support plate, a first handle, a drawer, a sliding groove, a vacancy filling plate and a transmission shaft II, the shaft of a motor I is connected with the bevel gear I, the bevel gear I is meshed with the bevel gear II, the bevel gear II is connected with the bevel gear II, the shaft bracket of the bevel gear II is rotatably connected with the bevel gear II shaft bracket, the bevel gear II shaft is connected with the first disc, the first disc is connected with the shifting shaft, the shifting wheel is connected with the shifting wheel shaft, the friction wheel slide groove is positioned on the shifting wheel shaft, the friction wheel I and the friction wheel II are both connected with the friction wheel slide groove in a sliding manner, the friction wheel I and the friction wheel II are both connected with the circular groove sleeve, the switching rod is connected with the slide sheet, the slide sheet is connected with the transmission box in a sliding manner, the switching rod is connected with the shifting fork, the shifting fork is connected with the two hemispheres I which are both contacted with the circular groove sleeve, the friction wheel III and the friction wheel IV are both connected with the transmission shaft I, the friction wheel III and the friction wheel IV are both provided with oblique angles, the shifting wheel shaft and the transmission shaft I are both rotationally connected with the transmission box, the transmission shaft I is rotationally connected with the two transmission brackets, the transmission shaft I is connected with the transmission roller, the three transmission rollers are connected with the, two conveying shafts II are rotatably connected with the two conveying supports, the two conveying supports are connected with the supporting plate, the first handle is connected with the drawer, the drawer is in sliding connection with the supporting plate, the sliding groove is formed in the conveying support on one side, and the gap filling plate is connected with the cutting supporting plate.

As a further optimization of the technical scheme, the Chinese herbal medicine cutting and screening device comprises a clamping assembly, wherein the clamping assembly comprises a deflector rod, a limiting inclined block, a deflector rod sliding groove, a spring I, a sliding leg, an upper cover, a spring II, a pressing rod sliding groove, a sliding block, a pressing rod, a lifting rod, a threaded shaft, a lifting rod sliding groove, a rotating handle, a belt wheel I, a belt wheel II and a clamping support, the deflector rod is in sliding connection with the deflector rod sliding groove, the deflector rod sliding groove is positioned on the sliding leg, the deflector rod is connected with the limiting inclined block, the limiting inclined block is in sliding connection with the sliding leg, the spring I is positioned in the sliding leg, two ends of the spring I are respectively contacted with the sliding leg and the limiting inclined block, the spring I is in a compressed state, two sliding legs are respectively connected with the upper cover, two sliding legs are respectively in sliding connection with the sliding groove, two ends of the spring II are respectively connected with, two sliders are respectively with two depression bar spout sliding connection, two sliders all are connected with the depression bar, the depression bar rotates with the lifter to be connected, lifter and two lifter spout sliding connection, two lifter spouts all are located and press from both sides tight support, lifter and two threaded shaft threaded connection, two threaded shaft all with press from both sides tight support rotation and be connected, two threaded shaft all are connected with the swing handle, a threaded shaft is connected with band pulley I, the belt, II belt connections on band pulley, band pulley II is connected with a threaded shaft, it is connected with one side conveying support to press from both sides tight support.

As a further optimization of the technical scheme, the invention relates to a Chinese medicinal material segmentation screening device, wherein a cleaning assembly comprises a cleaning motor, a cleaning motor shaft, a bevel gear III, a bevel gear IV, a fan shaft, a sliding frame, a traveling gear sliding groove, a fan shaft limiting hole, fan blades, a cleaning support, cleaning support legs, a fan shaft limiting column, a spring III, a shell I, a handle II, a switch poking rod, a cam shaft, a cam limiting column, a spring IV, a shell II, a shell III, a forward and reverse rotation switch, a spring V, a rack, a gear support, a poking rod I and a poking rod II, the cleaning motor is connected with the cleaning motor shaft, the cleaning motor shaft is connected with the bevel gear III, the bevel gear III is meshed with the bevel gear IV, the bevel gear IV is connected with the fan shaft, the fan shaft is rotatably connected with the sliding frame, the traveling gear sliding groove is positioned on the fan shaft, the fan shaft limiting hole is positioned in a walking gear sliding groove, the fan shaft is connected with fan blades, a sliding rail is arranged in a cleaning support, a sliding frame is connected with the sliding rail in the cleaning support in a sliding manner, the cleaning support is connected with four cleaning supporting legs, the four cleaning supports are respectively connected with a clamping support and a side conveying support, the cleaning support is connected with two gear supports, sliding grooves are formed in the two gear supports, a walking gear is connected with the sliding grooves in the two gear supports in a sliding manner, the sliding groove in one gear support is connected with a rack, the walking gear is meshed with the rack, a fan shaft limiting column is connected with a shell I in a sliding manner, a spring III is sleeved on the fan shaft limiting column, the spring III is in a compressed state, the fan shaft limiting column is connected with a handle II, the shell I is connected with the sliding frame, the fan shaft limiting column is contacted with the fan shaft, and, the cam rotates with the camshaft to be connected, the camshaft is connected with the balladeur train, the spacing post of cam contacts with the cam, the spacing post of cam and II sliding connection of shell, spring IV is located shell II, spring IV is in compression state, shell II is connected with the balladeur train, two positive and negative change-over switch respectively with two III sliding connection of shell, two springs V are located two shells III, two springs V all are in compression state, two shells III all are connected with the balladeur train, driving lever I and driving lever II all are connected with the clearance support.

As a further optimization of the technical scheme, the Chinese herbal medicine cutting and screening device comprises a screening combination body, a motor II bracket, a screening shaft, a screening bracket, a screening sprocket I, a screening chain, a screening sprocket II, a disc II, a screening shaft, a vibrating sheet sliding groove, a shifting ring, a screen wall, a screen plate, a screening connecting rod, a connecting hemisphere II, a ball groove connecting frame and a sloping plate, wherein the motor II is connected with the motor II bracket, the motor II is connected with the screening shaft, the two screening shafts are both rotatably connected with the screening bracket, one screening shaft is connected with the screening sprocket I, the screening chain and the screening sprocket II are connected with one screening shaft, the two screening shafts are respectively connected with the two discs, the two discs are respectively connected with two screening shafts, two vibrations axle are connected with two vibrations pieces respectively, two vibrations pieces respectively with two vibrations piece spout sliding connection, two vibrations piece spouts are located two and dial the intra-annular, two are dialled the ring and are contacted with two sieve moving axle respectively, two are dialled the ring and all are connected with the sieve wall, the sieve wall is connected with the sieve, the sieve wall is connected with the screening connecting rod, the screening connecting rod with be connected hemisphere two and be connected, connect hemisphere two and ball groove link and rotate to be connected, swash plate, ball groove link all are connected with the extension board.

The Chinese medicinal material cutting and screening device has the beneficial effects that: open the depression bar and can put into the medicinal material on the conveyer belt, put down the clamp force that the depression bar rotated the adjustable medicinal material of swing handle, the depression bar presss from both sides tight medicinal material and can continuously press from both sides tightly along with the conveyer belt slides forward, the reciprocal hand hay cutter of cutting off cutter cuts up the chinese-medicinal material, when cutting off the cutter hand hay cutter cuts, the conveyer belt is motionless, whenever when cutting off the cutter hand hay cutter and cut and finish, the conveyer belt continues to carry, the distance that the conveyer belt went before stopping at a rest at every turn is adjustable, through adjusting this adjustable dissection length of distance, with the fan shaft whereabouts, the fan begins to rotate, the fan blows the dregs to the drawer in with automatic reciprocal walking in conveyer belt top and.

Drawings

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

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a first schematic structural diagram of the sectioning assembly 1 of the invention;

FIG. 3 is a schematic structural diagram II of the sectioning assembly 1 of the invention;

FIG. 4 is a first schematic view of the structure of the conveying assembly 2 of the present invention;

FIG. 5 is a second schematic structural view of the conveying assembly 2 of the present invention;

FIG. 6 is a third schematic view of the structure of the conveying assembly 2 of the present invention;

FIG. 7 is a fourth schematic structural view of the conveying assembly 2 of the present invention;

FIG. 8 is a fifth schematic view of the construction of the delivery assembly 2 of the present invention;

FIG. 9 is a partial cross-sectional view of the first delivery assembly 2 of the present invention;

FIG. 10 is a sixth schematic view of the construction of the delivery assembly 2 of the present invention;

FIG. 11 is a partial sectional view of the second delivery assembly 2 of the present invention;

fig. 12 is a seventh structural view of the conveying assembly 2 of the present invention;

fig. 13 is a schematic view eight of the structure of the conveying assembly 2 of the present invention;

fig. 14 is a schematic illustration nine of the structure of the conveying assembly 2 of the present invention;

FIG. 15 is a partial cross-sectional view III of the clamping assembly 3 of the present invention;

FIG. 16 is a first view of the structure of the clamping assembly 3 of the present invention;

FIG. 17 is an enlarged partial schematic view of the clamping assembly 3 of the present invention;

FIG. 18 is a second structural view of the clamping assembly 3 of the present invention;

FIG. 19 is a third schematic structural view of the clamping assembly 3 of the present invention;

FIG. 20 is a partial cross-sectional view of the clamping assembly 3 of the present invention;

FIG. 21 is a partial sectional view of the clamping assembly 3 of the present invention;

FIG. 22 is a first schematic view of the cleaning assembly 4 of the present invention;

FIG. 23 is a second schematic structural view of the cleaning assembly 4 of the present invention;

FIG. 24 is a third schematic structural view of the cleaning assembly 4 of the present invention;

FIG. 25 is a partial cross-sectional view of a cleaning assembly 4 of the present invention;

FIG. 26 is a second partial cross-sectional view of the cleaning assembly 4 of the present invention;

FIG. 27 is a partial cross-sectional view three of the cleaning assembly 4 of the present invention;

FIG. 28 is a partial cross-sectional view of the cleaning assembly 4 of the present invention;

FIG. 29 is a fourth schematic structural view of a cleaning assembly 4 of the present invention;

figure 30 is a first schematic view of the screen assembly 5 of the present invention;

figure 31 is a second schematic structural view of the screening assembly 5 of the present invention;

figure 32 is a partial cross-sectional view of the screen assembly 5 of the present invention;

figure 33 is a schematic illustration of screen assembly 5 of the present invention;

figure 34 is a fourth schematic view of the screen assembly 5 of the present invention.

In the figure: the segment combination body 1; 1-1 of a motor; 1-2 of a shaft of a motor I; 1-3 shaft supports of a motor I; 1-4 chain wheels; 1-5 of a bottom plate; 1-6 parts of a chain; chain wheels II 1-7; 1-8 shafts of a chain wheel II; 1-9 of a support lug; 1-10 of a section cutting support plate; 1-11 connecting rods; connecting rods II 1-12; 1-13 of a cutting knife; cutting off the cutter shaft 1-14; a conveying assembly 2; a bevel gear I2-1; a bevel gear II 2-2; 2-3 of a bevel gear II; 2-4 shaft supports of a bevel gear II; 2-5 of a transmission case; 2-6 of a first disc; 2-7 of a shifting shaft; 2-8 of a thumb wheel; 2-9 parts of a shifting wheel shaft; 2-10 parts of a friction wheel I; 2-11 parts of a circular groove sleeve; 2-12 parts of a friction wheel II; 2-13 of friction wheel chutes; a switching lever 2-14; 2-15 of a slip sheet; 2-16 of a shifting fork; hemisphere one 2-17; 2-18 parts of friction wheel III; conveying shafts I2-19; 2-20 parts of a friction wheel IV; a transfer roller 2-21; 2-22 of a conveyor belt; a transport rack 2-23; 2-24 parts of a support plate; 2-25 of a first handle; drawers 2-26; 2-27 of a chute; 2-28 parts of a gap filling plate; a transmission shaft II 2-29; a clamp assembly 3; a deflector rod 3-1; 3-2 of a limit oblique block; a deflector rod chute 3-3; 3-4 parts of a spring; 3-5 of a sliding leg; 3-6 of an upper cover; 3-7 of a spring; 3-8 parts of a pressure bar chute and 3-9 parts of a sliding block; 3-10 parts of a pressure lever; 3-11 of a lifting rod; 3-12 parts of a threaded shaft; 3-13 of a lifting rod chute; 3-14 parts of a rotary handle; 3-15 of belt wheel; 3-16 parts of a belt; belt wheels II 3-17; clamping the brackets 3-18; cleaning the assembly 4; cleaning the motor 4-1; cleaning a motor shaft 4-2; 4-3 of a bevel gear; 4-4 of a bevel gear IV; 4-5 of a fan shaft; a carriage 4-6; 4-7 parts of a traveling gear; 4-8 of a traveling gear chute; 4-9 of a fan shaft limiting hole; 4-10 of fan blades; cleaning the bracket 4-11; cleaning the support legs 4-12; 4-13 of a fan shaft limiting column; 4-14 parts of a spring III; 4-15 parts of a shell I; 4-16 parts of a second handle; 4-17 of a switch poke rod; 4-18 parts of a camshaft; cams 4-19; 4-20 parts of cam limiting column; 4-21 parts of a spring IV; 4-22 parts of a shell II; 4-23 parts of a shell III; a forward and reverse rotation switch 4-24; a spring V4-25; racks 4-26; gear supports 4-27; 4-28 parts of a deflector rod I; 4-29 of a deflector rod II; a screening assembly 5; a motor II 5-1; 5-2 of a bracket of a motor II; 5-3 parts of a screening shaft; 5-4 parts of a screening bracket; 5-5 parts of a screening chain wheel; 5-6 parts of screening chains; 5-7 parts of a screening chain wheel; 5-8 parts of a second disc; 5-9 parts of a screening shaft; 5-10 parts of a vibration sheet; 5-11 parts of a vibrating piece sliding chute; 5-12 of a shifting ring; 5-13 parts of screen wall; 5-14 parts of sieve plate; 5-15 parts of screening connecting rod; connecting hemispheres II 5-16; 5-17 parts of ball groove connecting frame; sloping plates 5-18.

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 fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with 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; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment;

referring to fig. 1 to 34, the present embodiment of the present invention provides a Chinese herbal medicine segmentation and screening device, which includes a segmentation assembly 1, a conveying assembly 2, a clamping assembly 3, a cleaning assembly 4 and a screening assembly 5, and is characterized in that: carry 2 dissection assemblies 1 of assembly to be connected, press from both sides tight assembly 3 and carry assembly 2 to be connected, clearance assembly 4 is connected with pressing from both sides tight assembly 3, clearance assembly 4 and carry assembly 2 sliding connection, screening assembly 5 is connected with carrying assembly 2.

The second embodiment is as follows:

referring to fig. 1-34, the present embodiment further illustrates the first embodiment, wherein the cutting assembly 1 includes a motor i 1-1, a motor i shaft 1-2, a motor i shaft support 1-3, a sprocket i 1-4, a bottom plate 1-5, a chain 1-6, a sprocket ii 1-7, a sprocket ii shaft 1-8, a support lug 1-9, a cutting support plate 1-10, a connecting rod i 1-11, a connecting rod ii 1-12, a cutting knife 1-13 and a cutting knife shaft 1-14, the motor i 1-1 is connected to the cutting support plate 1-10, the motor i 1-1 is connected to the motor i shaft 1-2, the motor i shaft 1-2 is rotatably connected to the motor i shaft support 1-3, the motor i shaft support 1-3 is connected to the bottom plate 1-5, a motor I shaft 1-2 is connected with a chain wheel I1-4, a chain 1-6 and a chain wheel II 1-7 are connected with the chain wheel chain, a chain wheel II 1-7 is connected with a chain wheel II shaft 1-8, a chain wheel II shaft 1-8 is rotatably connected with a support lug 1-9, the support lug 1-9 is connected with a cutting support plate 1-10, the chain wheel II shaft 1-8 is connected with a connecting rod I1-11, the connecting rod I1-11 is hinged with a connecting rod II 1-12, the connecting rod II 1-12 is hinged with the support lug 1-9, the support lug 1-9 is connected with a cutting knife 1-13, the cutting knife 1-13 is connected with a cutting knife shaft 1-14, the cutting knife shaft 1-14 is rotatably connected with the cutting support plate 1-10, a bottom plate 1-5 is connected with the cutting support plate 1, the reciprocating cutting of the cutting knife can cut the Chinese medicinal materials.

The third concrete implementation mode:

referring to FIGS. 1-34, the present embodiment will be further described, wherein the conveying assembly 2 includes bevel gears I2-1, bevel gears II 2-2, bevel gears II shafts 2-3, bevel gears II shaft brackets 2-4, transmission boxes 2-5, first discs 2-6, shift shafts 2-7, shift wheels 2-8, shift wheel shafts 2-9, friction wheels I2-10, circular groove sleeves 2-11, friction wheels II 2-12, friction wheel sliding grooves 2-13, switching rods 2-14, sliding pieces 2-15, shifting forks 2-16, first hemispheres 2-17, friction wheels III 2-18, transmission shafts I2-19, friction wheels IV 2-20, transmission rollers 2-21, transmission belts 2-22, transmission brackets 2-23, 2-16, and a half-ball, A support plate 2-24, a handle I2-25, a drawer 2-26, a chute 2-27, a gap filling plate 2-28 and a transmission shaft II 2-29, wherein a shaft 1-2 of a motor I is connected with a bevel gear I2-1, the bevel gear I2-1 is meshed with the bevel gear II 2-2, the bevel gear II 2-2 is connected with a shaft 2-3 of the bevel gear II, a shaft 2-3 of the bevel gear II is rotationally connected with a shaft support 2-4 of the bevel gear II, the shaft support 2-4 of the bevel gear II and a transmission case 2-5 are connected with a bottom plate 1-5, the shaft 2-3 of the bevel gear II is rotationally connected with a transmission case 2-5, the shaft 2-3 of the bevel gear II is connected with a first disk 2-6, the first disk 2-6 is connected with a shifting shaft 2-7, and the shifting wheel 2-8 is, friction wheel chutes 2-13 are positioned on a shifting wheel shaft 2-9, friction wheels I2-10 and friction wheels II 2-12 are all in sliding connection with the friction wheel chutes 2-13, friction wheels I2-10 and friction wheels II 2-12 are all connected with circular groove sleeves 2-11, switching rods 2-14 are connected with sliding pieces 2-15, sliding pieces 2-15 are in sliding connection with a transmission case 2-5, switching rods 2-14 are connected with shifting forks 2-16, shifting forks 2-16 are connected with two hemispheres one 2-17, the two hemispheres one 2-17 are all in contact with the circular groove sleeves 2-11, friction wheels III 2-18 and friction wheels IV 2-20 are all connected with a transmission shaft I2-19, two surfaces of the friction wheels III 2-18 and the friction wheels IV 2-20 are both provided with oblique angles, the poking wheel shaft 2-9 and the conveying shaft I2-19 are rotatably connected with the transmission case 2-5, the conveying shaft I2-19 is rotatably connected with two conveying brackets 2-23, the conveying shaft I2-19 is connected with the conveying roller 2-21, the three conveying rollers 2-21 are connected with the belt of the conveying belt 2-22, the two conveying rollers 2-21 are connected with the two conveying shafts II 2-29, the two conveying shafts II 2-29 are rotatably connected with the two conveying brackets 2-23, the two conveying brackets 2-23 are connected with the support plates 2-24, the first handle 2-25 is connected with the drawer 2-26, the drawer 2-26 is slidably connected with the support plates 2-24, the chutes 2-27 are positioned on the conveying brackets 2-23 at one side, and the gap filling plates 2-28 are connected with the cutting support plates 1-10, when the cutting knife is used for cutting, the conveyor belt is not moved, when the cutting knife is used for cutting, the conveyor belt is conveyed continuously, the running distance of the conveyor belt before stopping each time is adjustable, and the cutting length can be adjusted by adjusting the distance.

The fourth concrete implementation mode:

referring to the embodiment shown in fig. 1-34, the embodiment further illustrates the clamping assembly 3, which includes a driving lever 3-1, a limiting inclined block 3-2, a driving lever chute 3-3, a spring i 3-4, a sliding leg 3-5, an upper cover 3-6, a spring ii 3-7, a pressing lever chute 3-8, a sliding block 3-9, a pressing lever 3-10, a lifting lever 3-11, a threaded shaft 3-12, a lifting lever chute 3-13, a rotating handle 3-14, a belt pulley i 3-15, a belt 3-16, a belt pulley ii 3-17 and a clamping bracket 3-18, wherein the driving lever 3-1 is slidably connected with the driving lever chute 3-3, the driving lever chute 3-3 is located on the sliding leg 3-5, the driving lever 3-1 is connected with the limiting inclined block 3-2, the limiting inclined block 3-2 is connected with the sliding leg 3-5 in a sliding mode, the spring I3-4 is located in the sliding leg 3-5, two ends of the spring I3-4 are respectively contacted with the sliding leg 3-5 and the limiting inclined block 3-2, the spring I3-4 is in a compressed state, the two sliding legs 3-5 are respectively connected with the upper cover 3-6, the two sliding legs 3-5 are respectively connected with the sliding groove 2-27 in a sliding mode, two ends of the spring II 3-7 are respectively connected with the upper cover 3-6 and the compression bar 3-10, the spring II 3-7 is in a compressed state, the two compression bar sliding grooves 3-8 are respectively located on the two sliding legs 3-5, the two sliding blocks 3-9 are respectively connected with the two compression bar sliding grooves 3-8 in a sliding mode, the two sliding blocks 3-9 are respectively connected with the, the pressure lever 3-10 is rotatably connected with the lifting lever 3-11, the lifting lever 3-11 is slidably connected with two lifting lever chutes 3-13, the two lifting lever chutes 3-13 are positioned in the clamping support 3-18, the lifting lever 3-11 is in threaded connection with two threaded shafts 3-12, the two threaded shafts 3-12 are rotatably connected with the clamping support 3-18, the two threaded shafts 3-12 are connected with the rotating handle 3-14, one threaded shaft 3-12 is connected with a belt wheel I3-15, the belt 3-16, the belt wheel II 3-17 are in belt connection, the belt wheel II 3-17 is connected with one threaded shaft 3-12, the clamping support 3-18 is connected with a conveying support 2-23 at one side, the pressure lever can be opened to put medicinal materials on the conveying belt, the clamping force of the medicinal materials can be adjusted by putting down the compression bar and rotating the rotary handle, and the medicinal materials clamped by the compression bar can slide forwards along with the conveyor belt to be continuously clamped.

The fifth concrete implementation mode:

referring to fig. 1-34, the present embodiment will be further described, wherein the cleaning assembly 4 includes a cleaning motor 4-1, a cleaning motor shaft 4-2, bevel gears iii 4-3, bevel gears iv 4-4, a fan shaft 4-5, a sliding frame 4-6, a traveling gear 4-7, a traveling gear sliding groove 4-8, a fan shaft limiting hole 4-9, fan blades 4-10, a cleaning bracket 4-11, cleaning support legs 4-12, a fan shaft limiting column 4-13, a spring iii 4-14, a housing i 4-15, a second handle 4-16, a switch toggle rod 4-17, a cam shaft 4-18, a cam 4-19, a cam limiting column 4-20, a spring iv 4-21, and a housing ii 4-22, 4-23 parts of a shell III, 4-24 parts of a forward and reverse rotation switch, 4-25 parts of a spring V, 4-26 parts of a rack, 4-27 parts of a gear bracket, 4-28 parts of a driving lever I and 4-29 parts of a driving lever II, wherein a cleaning motor 4-1 is connected with a cleaning motor shaft 4-2, the cleaning motor shaft 4-2 is connected with a bevel gear III 4-3, the bevel gear III 4-3 is connected with a bevel gear IV 4-4 in a meshing way, the bevel gear IV 4-4 is connected with a fan shaft 4-5, the fan shaft 4-5 is connected with a sliding frame 4-6 in a rotating way, a traveling gear sliding groove 4-8 is positioned on the fan shaft 4-5, a traveling gear 4-7 is connected with a traveling gear sliding groove 4-8 in a sliding way, a fan shaft limiting hole 4-9 is positioned in the traveling gear sliding groove 4, the cleaning support 4-11 is internally provided with a sliding rail, the sliding frame 4-6 is connected with the sliding rail in the cleaning support 4-11 in a sliding way, the cleaning support 4-11 is connected with four cleaning supporting legs 4-12, the four cleaning supports 4-11 are respectively connected with the clamping support 3-18 and the one-side conveying support 2-23, the cleaning support 4-11 is connected with two gear supports 4-27, sliding grooves are respectively arranged in the two gear supports 4-27, the walking gear 4-7 is connected with the sliding grooves in the two gear supports 4-27 in a sliding way, the sliding groove in one gear support 4-27 is connected with a rack 4-26, the walking gear 4-7 is connected with the rack 4-26 in a meshing way, the fan shaft limiting column 4-13 is connected with the shell I4-15 in a sliding way, the spring III 4-14 is sleeved on the fan shaft limiting column 4-13, the springs III 4-14 are in a compressed state, the fan shaft limiting columns 4-13 are connected with the handles II 4-16, the shells I4-15 are connected with the sliding frames 4-6, the fan shaft limiting columns 4-13 are in contact with the fan shafts 4-5, the switch poke rods 4-17 are connected with the cams 4-19, the cams 4-19 are in rotating connection with the cam shafts 4-18, the cam shafts 4-18 are connected with the sliding frames 4-6, the cam limiting columns 4-20 are in contact with the cams 4-19, the cam limiting columns 4-20 are in sliding connection with the shells II 4-22, the springs IV 4-21 are located in the shells II 4-22, the springs IV 4-21 are in a compressed state, the shells II 4-22 are connected with the sliding frames 4-6, and the two forward and reverse rotary switches 4-24 are in sliding connection with the two shells III 4-23 respectively, the two springs V4-25 are positioned in the two shells III 4-23, the two springs V4-25 are in a compressed state, the two shells III 4-23 are connected with the sliding frame 4-6, the driving lever I4-28 and the driving lever II 4-29 are connected with the cleaning support 4-11, the fan shaft falls down, the fan starts to rotate, and the fan shaft automatically reciprocates above the conveyor belt to blow the medicine residues into the drawer for storage.

The sixth specific implementation mode:

referring to fig. 1-34, the first embodiment will be further described, in which the screening assembly 5 includes a motor ii 5-1, a motor ii bracket 5-2, a screening shaft 5-3, a screening bracket 5-4, a screening sprocket i 5-5, a screening chain 5-6, a screening sprocket ii 5-7, a disk ii 5-8, a screening shaft 5-9, a vibration plate 5-10, a vibration plate chute 5-11, a shifting ring 5-12, a screen wall 5-13, a screen plate 5-14, a screening connecting rod 5-15, a connecting hemisphere ii 5-16, a ball chute connecting frame 5-17 and an inclined plate 5-18, the motor ii 5-1 is connected with the motor ii bracket 5-2, the motor ii bracket 5-2 is connected with the screening bracket 5-4, the motor II 5-1 is connected with a screening shaft 5-3, two screening shafts 5-3 are rotatably connected with a screening bracket 5-4, one screening shaft 5-3 is connected with a screening chain wheel I5-5, a screening chain 5-6 and a screening chain wheel II 5-7 are connected with a chain wheel chain, the screening chain wheel II 5-7 is connected with one screening shaft 5-3, the two screening shafts 5-3 are respectively connected with two discs two 5-8, the two discs two 5-8 are respectively connected with two screening shafts 5-9, the two screening shafts 5-9 are respectively connected with two vibrating pieces 5-10, the two vibrating pieces 5-10 are respectively connected with two vibrating piece chutes 5-11 in a sliding way, the two vibrating piece chutes 5-11 are positioned in two shifting rings 5-12, the two shifting rings 5-12 are respectively contacted with the two screening shafts 5-9, the two shifting rings 5-12 are respectively connected with the screen walls 5-13, the screen walls 5-13 are connected with the screen plates 5-14, the screen walls 5-13 are connected with the screening connecting rods 5-15, the screening connecting rods 5-15 are connected with the connecting hemispheres 5-16, the connecting hemispheres 5-16 are rotatably connected with the ball groove connecting frames 5-17, the inclined plates 5-18 and the ball groove connecting frames 5-17 are respectively connected with the support plates 2-24, and cut traditional Chinese medicinal materials are shaken left, right, up and down to separate medicinal material sections from medicinal material residues through the screen plates.

The invention relates to a Chinese medicinal material cutting and screening device, which has the working principle that: poking a poking rod 3-1 to slide in a poking rod sliding groove 3-3, the poking rod 3-1 drives a limit inclined block 3-2 to slide in a sliding leg 3-5, a spring I3-4 is compressed, the limit inclined block 3-2 is not contacted with a sliding groove 2-27, the limit inclined block 3-2 is not limited to the sliding leg 3-5, an upper cover 3-6 is pulled, the upper cover 3-6 drives two sliding legs 3-5 to be lifted, the two sliding legs 3-5 drive two sliding blocks 3-9 to be lifted through two pressure rod sliding grooves 3-8, the two sliding blocks 3-9 drive one end of a pressure rod 3-10 to be lifted, the other end of the pressure rod 3-10 rotates around a lifting rod 3-11, Chinese medicinal materials are placed between the pressure rod 3-10 and a conveying belt 2-22, and the pressure rod 3-10, the inclined plane of the limit inclined block 3-2 is contacted with the sliding groove 2-27, the limit inclined block 3-2 slides towards the sliding leg 3-5, when the limit inclined block 3-2 is positioned in the sliding groove 2-27, the spring I3-4 pushes the limit inclined block 3-2 to reset, the limit inclined block 3-2 is clamped in the sliding groove 2-27, the rotating handle 3-14 is rotated, the rotating handle 3-14 drives the threaded shaft 3-12 to rotate, the threaded shaft 3-12 drives the belt wheel I3-15 to rotate, the belt wheel I3-15 drives the belt wheel II 3-17 to rotate through the belt 3-16, the belt wheel II 3-17 drives the other threaded shaft 3-12 to rotate, the two threaded shafts 3-12 drive the lifting rod 3-11 to slide in the lifting rod sliding groove 3-13 through threads, the lifting rod 3-11 drives the pressing rod 3-10 to lift one end or fall, the clamping force of a pressure lever 3-10 on medicinal materials can be adjusted, the other end of the pressure lever 3-10 can also clamp the Chinese medicinal materials under the pressure of a spring II 3-7, a motor I1-1 drives a motor I shaft 1-2 to rotate, a motor I shaft 1-2 drives a bevel gear I2-1 to rotate, a bevel gear I2-1 drives a bevel gear II 2-2 to rotate, a bevel gear II 2-2 drives a bevel gear II shaft 2-3 to rotate, a bevel gear II shaft 2-3 drives a disc I2-6 to rotate, a disc I2-6 drives a shifting shaft 2-7 to rotate, a shifting shaft 2-7 shifts a shifting wheel 2-8 to rotate intermittently, a shifting wheel 2-8 drives a shifting wheel shaft 2-9 to rotate intermittently, a shifting wheel shaft 2-9 drives a friction wheel I2-10 to rotate intermittently, a friction wheel I2-10 drives a friction wheel III 2-18, the friction wheels III 2-18 drive the conveying shafts I2-19 to intermittently rotate, the conveying shafts I2-19 drive the conveying rollers 2-21 to intermittently rotate, the conveying rollers 2-21 drive the other conveying rollers 2-21 to intermittently rotate through the conveying belts 2-22, the conveying rollers 2-21 drive the conveying shafts II 2-29 to intermittently rotate, the conveying belts 2-22 drive the Chinese medicinal materials and the pressure rods 3-10 to intermittently advance on the conveying belts, the pressure rods 3-10 slide on the lifting rods 3-11, the pressure rods 3-10 intermittently advance along with the Chinese medicinal materials and clamp the Chinese medicinal materials, the switching rods 2-14 are pushed, the switching rods 2-14 drive the sliding pieces 2-15 to slide on the transmission boxes 2-5, the switching rods 2-14 drive the shifting forks 2-16 to move, and the shifting forks 2-16 drive the two hemispheres 2-17 to move, two hemispheres I2-17 drive a circular groove sleeve 2-11 to move, the circular groove sleeve 2-11 drives a friction wheel II 2-12 and a friction wheel I2-10 to slide on a friction wheel sliding groove 2-13, the friction wheel I2-10 is disconnected with a friction wheel III 2-18, the friction wheel II 2-12 is contacted with a friction wheel IV 2-20 along the oblique angle of the friction wheel IV 2-20, the friction wheel I2-10 and the friction wheel III 2-18 are contacted with the friction wheel II 2-12 and the friction wheel IV 2-20, the contact transmission ratio is different, the rotating number of turns of a transmission shaft I2-19 is changed, the transmission process from the transmission shaft I2-19 to a transmission belt 2-22 is repeated, the intermittent transmission distance of the transmission belt 2-22 is changed, and thus the feeding amount change of traditional Chinese medicinal materials is realized, a motor I1-1 drives a motor I shaft 1-2 to rotate, the motor I shaft 1-2 drives a chain wheel I1-4 to rotate, the chain wheel I1-4 rotates through a belt chain 1-6 and a chain wheel II 1-7, the chain wheel II 1-7 drives a chain wheel II shaft 1-8 to rotate, the chain wheel II shaft 1-8 drives a connecting rod I1-11 to rotate around the chain wheel II shaft 1-8, the connecting rod I1-11 drives a cutting knife 1-13 to reciprocate and fall around a cutting knife shaft 1-14 through a connecting rod II 1-12 and a support lug 1-9, when the cutting knife 1-13 is lifted, the conveying belt 2-22 drives Chinese medicinal materials to feed, when the cutting knife 1-13 falls, the conveying belt 2-22 drives the Chinese medicinal materials to stop feeding, so that the cutting of the medicinal materials is finished, and after the cutting is finished, turning off a motor I1-1, turning on a cleaning motor 4-1, driving a cleaning motor 4-1 to drive a cleaning motor shaft 4-2 to rotate, driving a bevel gear III 4-3 to rotate by the cleaning motor shaft 4-2, driving a bevel gear IV 4-4 to rotate by the bevel gear III 4-3, driving a fan shaft 4-5 to rotate by the bevel gear IV 4-4, driving a traveling gear 4-7 to rotate by the fan shaft 4-5 through a traveling gear chute 4-8, driving fan blades 4-10 to rotate by the fan shaft 4-5, blowing up medicinal material residues formed by cutting, allowing the medicinal material residues to fall into a drawer 2-26 through gaps on two sides of a conveying belt 2-22, driving the traveling gear 4-7 to rotate by the fan shaft 4-5, and allowing the traveling gear 4-7 to travel in a gear bracket 4-27 through a rack 4-26, the traveling gear 4-7 is limited by the gear bracket 4-27 and can not fall off, the traveling gear 4-7 drives the fan shaft 4-5 to travel, the fan shaft 4-5 drives the sliding frame 4-6 to advance along the sliding rail in the cleaning bracket 4-11, the single-phase motor is provided with two coils and three heads, one end of each of the two coils is connected together in parallel to form a head common end, one end of each of the starting coils is connected with one end of each of the starting coils, one end of each of the starting coils is connected with one end of each of the operating coils, the starting capacitor is connected between the operating coils and the starting coils, the motor rotates forwards when the power supply is connected with the common end and the operating coils, the motor rotates backwards when the power supply is connected with the common end and the starting coils, the two forward and reverse rotation switches 4-24 are respectively connected with the cleaning motor 4-1 in parallel to control the cleaning motor 4-1 to rotate forwards and backwards, when, the cam 4-19 rotates around the cam shaft 4-18, the cam 4-19 drives the cam limiting column 4-20 to slide towards the shell II 4-22, the spring IV 4-21 is further compressed, when the cam 4-19 turns over the highest point, the spring IV 4-21 rebounds, the cam limiting column 4-20 drives the cam 4-19 to quickly deflect towards the other side, the cam 4-19 drives the switch poke rod 4-17 to quickly deflect towards the other side, the switch poke rod 4-17 is not contacted with one positive and negative rotation switch 4-24, the positive and negative rotation switch 4-24 pops out under the action of the spring V4-25, the positive rotation switch is disconnected, the cleaning motor 4-1 is not rotated forwards any more, the switch poke rod 4-17 is contacted with the other positive and negative rotation switch 4-24, and the positive and negative rotation switch 4-24 slides towards the shell III 4-23, the reverse switch is pressed down, the spring V4-25 is compressed, the reverse switch is closed, the cleaning motor 4-1 starts to reverse, the transmission process from the cleaning motor 4-1 to the walking gear 4-7 is repeated, the walking gear 4-7 walks along the rack 4-26 in reverse direction, the walking gear 4-7 drives the fan shaft 4-5 to travel in reverse direction, the reverse traveling drives the sliding frame 4-6 to travel in reverse direction along the sliding rail in the cleaning bracket 4-11, so that the reciprocating reverse cleaning of the fan blades 4-10 on the surface residues of the conveyor belt 2-22 is realized, after the cleaning is finished, the sliding frame 4-6 is reset to close the cleaning motor 4-1, the cleaning motor shaft 4-2 is lifted, the cleaning motor shaft 4-2 slides upwards along the sliding frame 4-6, the bevel gear III-3 is not meshed with the bevel gear IV 4-4, the traveling gear 4-7 can not move along the traveling gear sliding groove 4-8 in a sliding manner, when the fan shaft limiting hole 4-9 is overlapped with the fan shaft limiting column 4-13, the fan shaft limiting column 4-13 enters the fan shaft limiting hole 4-9 under the action of the spring III 4-14 to complete the limiting of the fan shaft 4-5, at the moment, the fan blade 4-10 does not interfere with the clamping assembly 3 to clamp the medicinal materials any more, when the fan shaft 4-5 is needed, the handle II 4-16 is pulled, the handle II 4-16 drives the fan shaft limiting column 4-13 to slide out from the fan shaft limiting hole 4-9, the fan shaft 4-5 slides to the bottom, the traveling gear 4-7 limits the fan shaft 4-5 through the traveling gear sliding groove 4-8, the sieve plate can be cleaned, the medicinal materials cut by the traveling knife 1-13 fall into the cutting-off board 5-14 through the inclined plate 5-18, the motor II 5-1 is started, the motor drives the screening shaft 5-3 to rotate, the screening shaft 5-3 drives the screening chain wheel I5-5 to rotate, the screening chain wheel I5-5 drives the screening chain wheel II 5-7 to rotate through the screening chain 5-6, the screening chain wheel II 5-7 drives the other screening shaft 5-3 to rotate, the two screening shafts 5-3 respectively drive the two discs two 5-8 to rotate, the two discs two 5-8 drive the two screening shafts 5-9 to rotate, the two screening shafts 5-9 stir the shifting ring 5-12 to swing left and right, the two screening shafts 5-9 drive the two vibrating pieces 5-10 to slide in the vibrating piece chutes 5-11, the two vibrating pieces 5-10 drive the shifting ring 5-12 to vibrate up and down through the vibrating piece chutes 5-11, the shifting ring 5-12 drives the sieve wall 5-13 to shake left and right and vibrate up and down at the same time, the sieve wall 5-13 drives the connecting hemisphere II 5-16 to rotate in the ball groove connecting frame 5-17 through the sieving connecting rod 5-15, and therefore the separation of the cut medicinal materials and the residues is completed.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (1)

1. The utility model provides a chinese-medicinal material dissection screening plant, includes dissection combination body (1), carries combination body (2), presss from both sides tight combination body (3), clearance combination body (4) and screening combination body (5), its characterized in that: the cutting assembly (1) comprises a motor I (1-1), a motor I shaft (1-2), a motor I shaft support (1-3), a chain wheel I (1-4), a bottom plate (1-5), a chain (1-6), a chain wheel II (1-7), a chain wheel II shaft (1-8), a support lug (1-9), a cutting support plate (1-10), a connecting rod I (1-11), a connecting rod II (1-12), a cutting knife (1-13) and a cutting knife shaft (1-14), wherein the motor I (1-1) is connected with the cutting support plate (1-10), the motor I (1-1) is connected with the motor I shaft (1-2), the motor I shaft (1-2) is rotatably connected with the motor I shaft support (1-3), the motor I shaft support (1-3) is connected with the bottom plate (1-5), a motor I shaft (1-2) is connected with a chain wheel I (1-4), the chain wheel I (1-4), a chain (1-6) and a chain wheel II (1-7) are connected with the chain wheel chain, the chain wheel II (1-7) is connected with a chain wheel II shaft (1-8), the chain wheel II shaft (1-8) is rotatably connected with a support lug (1-9), the support lug (1-9) is connected with a cutting support plate (1-10), the chain wheel II shaft (1-8) is connected with a connecting rod I (1-11), the connecting rod I (1-11) is hinged with a connecting rod II (1-12), the connecting rod II (1-12) is hinged with the support lug (1-9), the support lug (1-9) is connected with a cutting knife (1-13), the cutting knife (1-13) is connected with a cutting knife shaft (1-14), the cutting knife shaft (1-14) is rotationally connected with the cutting support plate (1-10), and the bottom plate (1-5) is connected with the cutting support plate (1-10);

the conveying assembly (2) comprises a bevel gear I (2-1), a bevel gear II (2-2), a bevel gear II shaft (2-3), a bevel gear II shaft support (2-4), a transmission case (2-5), a first disc (2-6), a shifting shaft (2-7), a shifting wheel (2-8), a shifting wheel shaft (2-9), a friction wheel I (2-10), a circular groove sleeve (2-11), a friction wheel II (2-12), a friction wheel sliding groove (2-13), a switching rod (2-14), a sliding sheet (2-15), a shifting fork (2-16), a first hemisphere (2-17), a friction wheel III (2-18), a conveying shaft I (2-19), a friction wheel IV (2-20), a conveying roller (2-21), a conveying belt (2-22), The automatic feeding device comprises a conveying support (2-23), support plates (2-24), a first handle (2-25), a drawer (2-26), a sliding groove (2-27), a gap filling plate (2-28) and a conveying shaft II (2-29), wherein a first motor shaft (1-2) is connected with a first bevel gear (2-1), the first bevel gear (2-1) is meshed with the second bevel gear (2-2), the second bevel gear (2-2) is connected with a second bevel gear shaft (2-3), the second bevel gear shaft (2-3) is rotatably connected with a second bevel gear shaft support (2-4), the second bevel gear shaft support (2-4) and a transmission case (2-5) are connected with a bottom plate (1-5), and the second bevel gear shaft (2-3) is rotatably connected with the transmission case (2-5), the bevel gear II shaft (2-3) is connected with the disc I (2-6), the disc I (2-6) is connected with the shifting shaft (2-7), the shifting wheel (2-8) is connected with the shifting wheel shaft (2-9), the friction wheel sliding groove (2-13) is positioned on the shifting wheel shaft (2-9), the friction wheel I (2-10) and the friction wheel II (2-12) are both connected with the friction wheel sliding groove (2-13) in a sliding manner, the friction wheel I (2-10) and the friction wheel II (2-12) are both connected with the circular groove sleeve (2-11), the switching rod (2-14) is connected with the sliding piece (2-15), the sliding piece (2-15) is connected with the transmission case (2-5) in a sliding manner, the switching rod (2-14) is connected with the shifting fork (2-16), the shifting fork (2-16) is connected with the two hemispheres I (2-17), two hemispheres I (2-17) are in contact with a circular groove sleeve (2-11), a friction wheel III (2-18) and a friction wheel IV (2-20) are connected with a transmission shaft I (2-19), two sides of the friction wheel III (2-18) and the friction wheel IV (2-20) are provided with oblique angles, a dial wheel shaft (2-9) and the transmission shaft I (2-19) are rotationally connected with a transmission case (2-5), the transmission shaft I (2-19) is rotationally connected with two transmission supports (2-23), the transmission shaft I (2-19) is connected with transmission rollers (2-21), three transmission rollers (2-21) are connected with transmission belts (2-22), two transmission rollers (2-21) are connected with two transmission shafts II (2-29), two transmission shafts II (2-29) are rotationally connected with two transmission supports (2-23), the two conveying supports (2-23) are connected with the support plates (2-24), the first handle (2-25) is connected with the drawer (2-26), the drawer (2-26) is connected with the support plates (2-24) in a sliding mode, the sliding groove (2-27) is located on the conveying support (2-23) on one side, and the gap supplementing plate (2-28) is connected with the section cutting support plates (1-10);

the clamping assembly (3) comprises a deflector rod (3-1), a limiting inclined block (3-2), a deflector rod sliding groove (3-3), a spring I (3-4), a sliding leg (3-5), an upper cover (3-6), a spring II (3-7), a pressure rod sliding groove (3-8), a sliding block (3-9), a pressure rod (3-10), a lifting rod (3-11), a threaded shaft (3-12), a lifting rod sliding groove (3-13), a rotating handle (3-14), a belt wheel I (3-15), a belt (3-16), a belt wheel II (3-17) and a clamping support (3-18), the deflector rod (3-1) is connected with the deflector rod sliding groove (3-3) in a sliding manner, and the deflector rod sliding groove (3-3) is positioned on the sliding leg (3-5), the deflector rod (3-1) is connected with a limiting inclined block (3-2), the limiting inclined block (3-2) is connected with a sliding leg (3-5) in a sliding manner, a spring I (3-4) is positioned in the sliding leg (3-5), two ends of the spring I (3-4) are respectively contacted with the sliding leg (3-5) and the limiting inclined block (3-2), the spring I (3-4) is in a compressed state, the two sliding legs (3-5) are both connected with an upper cover (3-6), the two sliding legs (3-5) are both connected with a sliding chute (2-27) in a sliding manner, two ends of the spring II (3-7) are respectively connected with the upper cover (3-6) and a pressure lever (3-10), the spring II (3-7) is in a compressed state, the two pressure lever sliding chutes (3-8) are respectively positioned on the two sliding legs (3-5), two sliding blocks (3-9) are respectively connected with two compression bar sliding grooves (3-8) in a sliding manner, the two sliding blocks (3-9) are respectively connected with compression bars (3-10), the compression bars (3-10) are rotationally connected with lifting rods (3-11), the lifting rods (3-11) are slidably connected with two lifting rod sliding grooves (3-13), the two lifting rod sliding grooves (3-13) are respectively positioned in clamping supports (3-18), the lifting rods (3-11) are in threaded connection with two threaded shafts (3-12), the two threaded shafts (3-12) are rotationally connected with the clamping supports (3-18), the two threaded shafts (3-12) are respectively connected with rotating handles (3-14), one threaded shaft (3-12) is connected with a belt wheel I (3-15), and the belt wheel I (3-15), The belt (3-16) is connected with the belt wheel II (3-17), the belt wheel II (3-17) is connected with a threaded shaft (3-12), and the clamping support (3-18) is connected with the conveying support (2-23) at one side;

the cleaning assembly (4) comprises a cleaning motor (4-1), a cleaning motor shaft (4-2), a bevel gear III (4-3), a bevel gear IV (4-4), a fan shaft (4-5), a sliding frame (4-6), a walking gear (4-7), a walking gear sliding groove (4-8), a fan shaft limiting hole (4-9), fan blades (4-10), a cleaning support (4-11), cleaning support legs (4-12), a fan shaft limiting column (4-13), a spring III (4-14), a shell I (4-15), a second handle (4-16), a switch poking rod (4-17), a cam shaft (4-18), a cam (4-19), a cam limiting column (4-20), a spring IV (4-21), A shell II (4-22), a shell III (4-23), a forward and reverse rotation switch (4-24), a spring V (4-25), a rack (4-26), a gear bracket (4-27), a driving lever I (4-28) and a driving lever II (4-29), a cleaning motor (4-1) is connected with a cleaning motor shaft (4-2), the cleaning motor shaft (4-2) is connected with a bevel gear III (4-3), the bevel gear III (4-3) is meshed and connected with a bevel gear IV (4-4), the bevel gear IV (4-4) is connected with a fan shaft (4-5), the fan shaft (4-5) is rotatably connected with a sliding frame (4-6), a walking gear sliding groove (4-8) is positioned on the fan shaft (4-5), a walking gear (4-7) is slidably connected with the walking gear sliding groove (4-8), the fan shaft limiting hole (4-9) is positioned in a walking gear sliding groove (4-8), the fan shaft (4-5) is connected with fan blades (4-10), a sliding rail is arranged in a cleaning support (4-11), a sliding frame (4-6) is in sliding connection with the sliding rail in the cleaning support (4-11), the cleaning support (4-11) is connected with four cleaning supporting legs (4-12), the four cleaning supports (4-11) are respectively connected with a clamping support (3-18) and a one-side conveying support (2-23), the cleaning support (4-11) is connected with two gear supports (4-27), sliding grooves are arranged in the two gear supports (4-27), a walking gear (4-7) is in sliding connection with the sliding grooves in the two gear supports (4-27), a sliding groove in a gear support (4-27) is connected with a rack (4-26), a walking gear (4-7) is meshed with the rack (4-26), a fan shaft limiting column (4-13) is connected with a shell I (4-15) in a sliding mode, a spring III (4-14) is sleeved on the fan shaft limiting column (4-13), the spring III (4-14) is in a compression state, the fan shaft limiting column (4-13) is connected with a handle II (4-16), the shell I (4-15) is connected with a sliding frame (4-6), the fan shaft limiting column (4-13) is in contact with a fan shaft (4-5), a switch poking rod (4-17) is connected with a cam (4-19), and the cam (4-19) is rotatably connected with a cam shaft (4-18), the cam shaft (4-18) is connected with the sliding frame (4-6), the cam limiting column (4-20) is in contact with the cam (4-19), the cam limiting column (4-20) is in sliding connection with the shell II (4-22), the spring IV (4-21) is positioned in the shell II (4-22), the spring IV (4-21) is in a compressed state, the shell II (4-22) is connected with the sliding frame (4-6), the two forward and reverse rotation switches (4-24) are respectively in sliding connection with the two shells III (4-23), the two springs V (4-25) are positioned in the two shells III (4-23), the two springs V (4-25) are in a compressed state, the two shells III (4-23) are connected with the sliding frame (4-6), and the deflector rod I (4-28) and the deflector rod II (4-29) are connected with the cleaning support (4-11) (ii) a

The screening combination body (5) comprises a motor II (5-1), a motor II support (5-2), a screening shaft (5-3), a screening support (5-4), a screening chain wheel I (5-5), a screening chain (5-6), a screening chain wheel II (5-7), a disc II (5-8), a screening shaft (5-9), a vibration sheet (5-10), a vibration sheet sliding groove (5-11), a shifting ring (5-12), a screen wall (5-13), a screen plate (5-14), a screening connecting rod (5-15), a connecting hemisphere II (5-16), a ball groove connecting frame (5-17) and an inclined plate (5-18), the motor II (5-1) is connected with the motor II support (5-2), the motor II support (5-2) is connected with the screening support (5-4), the motor II (5-1) is connected with the screening shafts (5-3), two screening shafts (5-3) are rotatably connected with the screening supports (5-4), one screening shaft (5-3) is connected with the screening chain wheel I (5-5), the screening chain (5-6) and the screening chain wheel II (5-7) are connected with the chain wheel chain, the screening chain wheel II (5-7) is connected with one screening shaft (5-3), the two screening shafts (5-3) are respectively connected with the two circular discs II (5-8), the two circular discs II (5-8) are respectively connected with the two screening shafts (5-9), the two screening shafts (5-9) are respectively connected with the two vibration sheets (5-10), the two vibration sheets (5-10) are respectively connected with the two vibration sheet chutes (5-11) in a sliding manner, the two vibrating piece chutes (5-11) are positioned in the two shifting rings (5-12), the two shifting rings (5-12) are respectively contacted with the two screening shafts (5-9), the two shifting rings (5-12) are both connected with the screen walls (5-13), the screen walls (5-13) are connected with the screen plates (5-14), the screen walls (5-13) are connected with the screening connecting rods (5-15), the screening connecting rods (5-15) are connected with the connecting hemispheres (5-16), the connecting hemispheres (5-16) are rotatably connected with the ball groove connecting frames (5-17), and the inclined plates (5-18) and the ball groove connecting frames (5-17) are both connected with the support plates (2-24);

carry assembly (2) dissection assembly (1) be connected, press from both sides tight assembly (3) and be connected with carrying assembly (2), clearance assembly (4) are connected with pressing from both sides tight assembly (3), clearance assembly (4) and carry assembly (2) sliding connection, screening assembly (5) are connected with carrying assembly (2).

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