CN115090372B

CN115090372B - A raw materials intelligence is pulping device step by step for bean curd silk processing

Info

Publication number: CN115090372B
Application number: CN202210696209.0A
Authority: CN
Inventors: 唐昶
Original assignee: Anhui Jiajia Biotechnology Co ltd
Current assignee: Anhui Jiajia Biotechnology Co ltd
Priority date: 2022-06-20
Filing date: 2022-06-20
Publication date: 2024-06-25
Anticipated expiration: 2042-06-20
Also published as: CN115090372A

Abstract

The invention belongs to the technical field of bean shred processing, in particular to an intelligent step-by-step raw material pulping device for bean shred processing. This a raw materials intelligence is pulping device step by step for bean curd processing has reached control second driving motor and has driven drive gear rotation through setting up the pulping mechanism, drives the grinding section of thick bamboo rotation through the meshing of drive gear and meshing fluted disc, and the threaded connection between rethread grinding section of thick bamboo and the processing section of thick bamboo makes the grinding section of thick bamboo produce elevating movement when rotatory, adjusts the distance between grinding section of thick bamboo and the grinding post and the length that the control post stretched into in the third installing port, and the expansion control tooth piece of gasbag stretches out the length of jack-in groove, carries out hierarchical grinding to the raw materials for the grinding efficiency to the raw materials guarantees the quality of grinding simultaneously.

Description

A raw materials intelligence is pulping device step by step for bean curd silk processing

Technical Field

The invention relates to the technical field of bean shred processing, in particular to an intelligent step-by-step raw material pulping device for bean shred processing.

Background

The bean shreds are made of mung beans, rice and the like as raw materials, are ground into slurry, are spread into skins in a pot, are cut into shreds, are provided with a plurality of eating methods such as soup bean shreds, dried bean shreds, fried bean shreds and the like, the bean shreds are pulped by the rice, the mung beans and the like according to a certain proportion and are spread into cakes, and the cakes are wet bean shreds at the moment, and are eaten by directly smearing sauce or self-wrapping vegetables, and the bean shreds can be shredded and dried for convenient preservation;

When the shredded bean is processed, raw materials need to be ground, the raw materials are generally uniformly poured into the grinding device for uniform processing by the conventional raw material grinding device, and a large amount of raw materials cannot be fully ground due to synchronous processing, so that staff is required to pick out raw materials which are not ground and grind the raw materials together with the next batch of raw materials, the grinding degree of the raw materials cannot be controlled, and the grinding efficiency and effect of the raw materials are reduced.

Disclosure of Invention

Based on the technical problems that the grinding degree of raw materials cannot be controlled and the grinding efficiency and effect of the raw materials are reduced by the conventional bean curd stick grinding device, the invention provides an intelligent step-by-step raw material pulping device for bean curd stick processing.

The invention provides a raw material intelligent progressive pulping device for processing shredded beans, which comprises a processing cylinder provided with supporting legs, wherein a grinding mechanism for primarily crushing shredded beans is fixedly arranged above the processing cylinder through a mounting cover, and a pulping mechanism for carrying out progressive pulping on shredded beans is arranged on the inner wall of the upper end of the processing cylinder;

the grinding mechanism comprises a grinding cylinder for placing and processing the shredded bean raw materials and a grinding column for rotationally extruding and crushing the shredded bean raw materials, wherein the inner side wall of the grinding cylinder is fixedly connected with first grinding fragments which are obliquely arranged right and distributed in an annular array, the circumferential side surface of the grinding column is fixedly connected with second grinding fragments which are obliquely arranged left and distributed in an annular array, and the first grinding fragments and the second grinding fragments are alternately arranged to perform rotary up-and-down grinding action on the shredded bean raw materials;

The pulping mechanism comprises a pulping barrel for storing and processing bean raw materials and a pulping column for rotationally grinding the bean raw materials, wherein the inner side wall of the pulping barrel is fixedly connected with a first pulping strip which is used for increasing the friction force of the inner wall of the pulping barrel and has a saw-tooth shape on one side surface, the edge of the lower end of the pulping barrel is fixedly connected with a meshing fluted disc, and one side of the meshing fluted disc is provided with a driving gear and is meshed and driven with the meshing fluted disc.

Preferably, the grinding mechanism further comprises a driving part for driving the grinding column to rotate up and down, the driving part comprises a first driving motor, a first connecting plate is fixedly sleeved on the surface of a main shaft of the first driving motor, the tail end of the first connecting plate is movably hinged with a second connecting plate through a pin shaft, and the tail end of the second connecting plate is rotatably sleeved with a connecting column which is rotatably sleeved with the inner wall of the grinding column through a pin shaft;

Through above-mentioned technical scheme, reached and driven first link plate through first driving motor and rotated to drive the reciprocating motion about the second link plate through first link plate, the cooperation mode of cup jointing between cooperation spliced pole and the grinding post makes the grinding post rotatable.

Preferably, the upper surface of the grinding cylinder is fixedly connected with two symmetrically-distributed supporting frames for installing the first driving motor, the top surface of the grinding cylinder is fixedly connected with three L-shaped guide rods distributed in an annular array, and the inner side wall of the grinding cylinder is provided with three spiral guide grooves in sliding fit with the L-shaped guide rods in an annular array;

Through the technical scheme, the grinding column can be lifted up and down and simultaneously rotated through the cooperation of the L-shaped guide rod and the spiral guide groove when the grinding column is lifted up and down in a reciprocating manner.

Preferably, the lower surface of the grinding cylinder is fixedly connected with the upper surface of the mounting cover, and the inner bottom wall of the grinding cylinder is fixedly communicated with first blanking pipes which extend to the lower surface of the mounting cover and are distributed in an annular array;

By the technical scheme, the raw materials subjected to grinding processing in the grinding cylinder are conveyed into the pulping mechanism through the first blanking pipe.

Preferably, four first mounting openings distributed in an annular array are formed in the top surface of the processing cylinder, hydraulic cylinders are fixedly mounted on the inner walls of the four first mounting openings, and the top surface of a hydraulic rod of each hydraulic cylinder is fixedly connected with the lower surface of the mounting cover to drive the mounting cover to reciprocate up and down through the hydraulic cylinders;

Through above-mentioned technical scheme, reached and driven the installation lid through the lift of pneumatic cylinder and gone up and down in step, and then drive the thick liquid post and go up and down, after the thick liquid post rises, the staff of being convenient for clear up the effect of thick liquid post.

Preferably, the inner wall of the pulping column is provided with mounting grooves which are used for mounting the grade adjusting component and distributed in an annular array, the grade adjusting component comprises an air bag filled with transformer oil, one side surface of the air bag is fixedly connected with a supporting plate filled with a tooth block, and one side inner wall of the mounting groove is provided with a splicing groove matched with the outer surface of the tooth block;

through the technical scheme, the transformer oil in the third mounting port is extruded along with the control column, so that the transformer oil flows into the air bag through the communication pipe, the air bag is expanded, the supporting plate is driven to move, the length of the tooth block extending out of the inserting groove is increased, and the pulping column is driven to further grind the raw materials.

Preferably, the outer surface of the pulping barrel is in threaded connection with the inner wall of the processing barrel, the inner wall of the processing barrel is provided with a first annular groove for accommodating the meshing fluted disc, the inner side wall of the pulping column is provided with a second mounting opening, the inner bottom wall of the second mounting opening is fixedly provided with a second driving motor, and the driving gear is driven by the second driving motor to be meshed with the meshing fluted disc for transmission so as to drive the pulping barrel to perform rotary motion;

Through above-mentioned technical scheme, reached and driven the drive gear through the second driving motor and rotated, driven the thick liquid section of thick bamboo through the cooperation of drive gear and meshing fluted disc and rotated, further, owing to be threaded connection between thick liquid section of thick bamboo and the processing section of thick bamboo, drive the effect that thick bamboo goes up and down in thick liquid section of thick bamboo rotation.

Preferably, a third mounting port is formed in the lower surface of the pulping column, a control column for controlling the oil quantity of the transformer oil in the air bag is movably sleeved on the inner wall of the third mounting port, a piston disc is fixedly connected to the top surface of the control column, and the outer surface of the lower end of the control column is connected with the inner wall of the lower end of the pulping cylinder through a bearing;

through above-mentioned technical scheme, reached and stretched into the length of third installing port through the control post and extruded the transformer oil in the third installing port, sealed effect is carried out to the transformer oil in the third installing port through the piston disc.

Preferably, transformer oil is stored in the inner wall of the upper end of the third mounting port, a communicating pipe fixedly sleeved with the inner top wall of the air bag is fixedly communicated with the inner top wall of the third mounting port, and a third driving motor for driving the pulping column to rotate is fixedly mounted on the upper surface of the mounting cover;

through the technical scheme, the effect of controlling the expansion degree of the air bag through the amount of the transformer oil flowing into the air bag is achieved.

Preferably, the inner bottom wall of the pulping barrel is fixedly communicated with a second blanking pipe for blanking the pulp after the bean silk raw material is ground;

through the technical scheme, the raw materials which are processed are fed through the second feeding pipe.

The beneficial effects of the invention are as follows:

1. Through setting up grinding mechanism, reached through grinding post in the grinding section of thick bamboo reciprocating motion for raw materials between first grinding fragment and the second grinding piece obtains milling, and the raw materials of grinding falls into the guiding gutter of grinding thick liquid post through first unloading pipe, accomplishes preliminary grinding to the raw materials, increases the milling effect to the raw materials through the cooperation of first grinding fragment and second grinding fragment.

2. Through setting up drive unit, reached and driven first link board through first driving motor and rotated to drive the grinding post that is connected with the spliced pole through first link board and second link board and reciprocate in the grinding section of thick bamboo, on the basis that the grinding post reciprocated, make the grinding post produce rotatoryly in the lift through the cooperation of L shape guide arm and spiral guide way, make the grinding post carry out the rotatory reciprocating motion from top to bottom in the grinding section of thick bamboo, grind the raw materials repeatedly, and then increase the machining efficiency to the raw materials.

3. Through setting up the mechanism of pulping, it rotates to have reached third driving motor and has driven the thick liquid post, with first thick liquid strip cooperation carries out the thick liquid to the raw materials, and drive the drive gear rotation through control second driving motor, it rotates to drive the thick liquid section of thick bamboo through the meshing of drive gear and meshing fluted disc, the threaded connection between rethread thick liquid section of thick bamboo and the processing section of thick bamboo makes the thick bamboo produce elevating movement when rotatory, and then adjust the distance between thick bamboo and the thick liquid post of pulping and the length that the control post stretched into in the third installing port, the length of inserting groove is stretched out to the expansion control tooth piece through the gasbag, and then carry out hierarchical thick liquid to the raw materials, accelerate the thick liquid efficiency of grinding to the raw materials, guarantee the quality of grinding simultaneously.

Drawings

FIG. 1 is a schematic diagram of an intelligent progressive refining device for raw materials for shredded beans processing;

fig. 2 is a cross-sectional view of a processing cylinder of an intelligent step-by-step raw material pulping device for processing shredded beans;

fig. 3 is a perspective view of a pulping barrel of the intelligent step-by-step pulping device for processing raw materials for shredded beans;

fig. 4 is a sectional view of a pulping barrel of the intelligent step-by-step pulping device for processing raw materials for shredded beans;

FIG. 5 is a sectional view of the structure of a grinding drum of an intelligent progressive grinding device for raw materials for processing shredded beans;

Fig. 6 is a perspective view of a driving part of an intelligent progressive pulping device for raw materials for processing shredded beans;

fig. 7 is a perspective view of a refining column structure of an intelligent progressive refining device for raw materials for processing shredded beans;

FIG. 8 is a sectional view of a refining column of the intelligent progressive refining device for processing raw materials for bean curd sticks;

Fig. 9 is a perspective view of a second grinding block structure of the intelligent progressive pulping device for raw materials for processing shredded beans;

fig. 10 is a perspective view of a grinding column structure of an intelligent progressive grinding device for raw materials for processing shredded beans;

fig. 11 is an enlarged view of the structure a in fig. 8 of an intelligent step-by-step refining device for raw materials for processing shredded beans according to the present invention.

In the figure: 1. a processing cylinder; 2. a mounting cover; 3. a grating cylinder; 31. grinding the column; 32. a first mill crumb; 33. a second grind; 34. a first driving motor; 35. a first connecting plate; 36. a second connecting plate; 37. a connecting column; 38. a support frame; 39. an L-shaped guide rod; 310. a spiral guide groove; 311. a first blanking pipe; 4. a pulping barrel; 41. grinding column; 42. a first refining bar; 43. meshing fluted disc; 44. a drive gear; 404. a mounting groove; 45. an air bag; 46. tooth blocks; 47. a support plate; 48. a plug-in groove; 49. a first annular groove; 410. a second mounting port; 411. a second driving motor; 412. a third mounting port; 413. a control column; 414. a piston disc; 415. a communicating pipe; 416. a third driving motor; 417. a diversion trench; 418. a second blanking pipe; 5. a first mounting port; 6. and a hydraulic cylinder.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-11, an intelligent step-by-step pulping device for raw materials for processing bean filaments comprises a processing cylinder 1 provided with supporting legs, wherein a grinding mechanism for primarily crushing the bean filaments is fixedly arranged above the processing cylinder 1 through a mounting cover 2, and a pulping mechanism for carrying out step-by-step pulping on the bean filaments is arranged on the inner wall of the upper end of the processing cylinder 1.

As shown in fig. 1-2, 5-6 and 9-10, in order to primarily crush the shredded bean raw materials, a grinding mechanism comprising a grinding drum 3 for placing and processing the shredded bean raw materials and a grinding column 31 for rotationally extruding and crushing the shredded bean raw materials is provided, further, in order to increase the grinding effect of the grinding drum 3 and the grinding column 31 on the raw materials, a first grinding block 32 which is obliquely arranged right and distributed in an annular array is fixedly connected to the inner side wall of the grinding drum 3, and further, a second grinding block 33 which is obliquely arranged left and distributed in an annular array is fixedly connected to the circumferential side surface of the grinding column 31, so that the first grinding block 32 and the second grinding block 33 are alternately arranged to perform rotary up-down grinding action on the shredded bean raw materials, and further, the shredded bean raw materials are efficiently ground.

Further, in order to drive the grinding column 31 to operate, the provided grinding mechanism further comprises a driving component for driving the grinding column 31 to rotate up and down, the driving component comprises a first driving motor 34, a first connecting plate 35 is fixedly sleeved on the surface of a main shaft of the first driving motor 34, a second connecting plate 36 is movably hinged to the tail end of the first connecting plate 35 through a pin shaft, so that the second connecting plate 36 moves up and down along with the rotation of the first connecting plate 35, and further, in order to transmit the driving force of the up and down movement to the grinding column 31, a connecting column 37 is rotatably sleeved on the tail end of the second connecting plate 36 through the pin shaft and is rotatably sleeved on the inner wall of the grinding column 31.

Further, in order to install the first driving motor 34, two symmetrically distributed supporting frames 38 for installing the first driving motor 34 are fixedly connected to the upper surface of the grinding drum 3, further, in order to control the grinding column 31 to rotate in the up-and-down moving process to increase the rotation grinding force on the raw materials, three L-shaped guide rods 39 distributed in an annular array are fixedly connected to the top surface of the grinding column 31, and further, three spiral guide grooves 310 which are in sliding fit with the L-shaped guide rods 39 in an annular array are formed in the inner side wall of the grinding drum 3, so that the L-shaped guide rods 39 move along the spiral guide grooves 310 to drive the grinding column 31 to rotate.

Further, in order to convey the raw material processed by the grinding mechanism into the pulping mechanism, the lower surface of the grinding drum 3 is fixedly connected with the upper surface of the mounting cover 2, and the inner bottom wall of the grinding drum 3 is fixedly communicated with a first blanking pipe 311 extending to the lower surface of the mounting cover 2 and distributed in an annular array.

As shown in fig. 1-4, fig. 7-8 and fig. 11, in order to facilitate the later cleaning of the pulping mechanism, four first mounting openings 5 distributed in a ring array are formed on the top surface of the processing cylinder 1, hydraulic cylinders 6 are fixedly mounted on the inner walls of the four first mounting openings 5, the top surface of a hydraulic rod of each hydraulic cylinder 6 and the lower surface of the mounting cover 2 are fixedly connected and drive the mounting cover 2 to reciprocate up and down through the hydraulic cylinders 6, the mounting cover 2 is driven to synchronously lift through the lifting of the hydraulic cylinders 6, so that the pulping column 41 is driven to lift, and after the pulping column 41 is lifted, cleaning of the pulping column 41 is facilitated for staff.

In order to carry out classifying pulping on the bean raw materials, a pulping mechanism consisting of a pulping barrel 4 for carrying out storage processing on the bean raw materials and a pulping column 41 for carrying out rotary grinding on the bean raw materials is arranged, further, in order to increase the friction force of the inner wall of the pulping barrel 4, a first pulping strip 42 with a saw-tooth shape is fixedly connected to the inner side wall of the pulping barrel 4 and the surface of one side for increasing the friction force of the inner wall of the pulping barrel 4, in order to control the pulping barrel 4 to lift, an engaging fluted disc 43 is fixedly connected to the lower end edge of the pulping barrel 4, a driving gear 44 is arranged on one side of the engaging fluted disc 43 and is in engaged transmission with the engaging fluted disc 43, and the effect of driving the pulping barrel 4 is achieved through the cooperation of the driving gear 44 and the engaging fluted disc 43.

In order to adjust the pulping mechanism, the inner wall of the pulping column 41 is provided with an installation groove 404 which is used for installing the adjusting component and distributed in an annular array, the adjusting component comprises an air bag 45 filled with transformer oil, further, one side surface of the air bag 45 is fixedly connected with a supporting plate 47 filled with a tooth block 46, one side inner wall of the installation groove 404 is provided with an inserting groove 48 which is matched with the outer surface of the tooth block 46, along with the control column 413, transformer oil in the third installation opening 412 is extruded, the transformer oil flows into the air bag 45 through the communicating pipe 415, the air bag 45 is inflated, the supporting plate 47 is driven to move, the length of the tooth block 46 extending out of the inserting groove 48 is further increased, and the pulping column 41 is driven to further grind raw materials.

Further, in order to drive the pulping barrel 4, the outer surface of the pulping barrel 4 is in threaded connection with the inner wall of the processing barrel 1, a first annular groove 49 for accommodating the meshing fluted disc 43 is formed in the inner wall of the processing barrel 1, a second mounting opening 410 is further formed in the inner wall of the pulping barrel 41, a second driving motor 411 is fixedly arranged on the inner bottom wall of the second mounting opening 410, the driving gear 44 is driven by the second driving motor 411 to mesh with the meshing fluted disc 43 to drive the pulping barrel 4 to rotate, the driving gear 44 is driven by the second driving motor 411 to rotate, the pulping barrel 4 is driven by the cooperation of the driving gear 44 and the meshing fluted disc 43 to rotate, and further, the pulping barrel 4 is driven to lift while the pulping barrel 4 rotates due to the threaded connection between the pulping barrel 4 and the processing barrel 1.

In order to control the expansion of the air bag 45, a third mounting port 412 is formed in the lower surface of the pulping column 41, a control column 413 for controlling the oil quantity of transformer oil in the air bag 45 is movably sleeved on the inner wall of the third mounting port 412, a piston disc 414 is fixedly connected to the top surface of the control column 413, transformer oil in the third mounting port 412 is extruded through the length of the control column 413 extending into the third mounting port 412, transformer oil in the third mounting port 412 is sealed through the piston disc 414, and the outer surface of the lower end of the control column 413 is connected with the inner wall of the lower end of the pulping cylinder 4 through a bearing, so that the control column 413 is mounted in the pulping cylinder 4.

Further, the transformer oil is stored in the inner wall of the upper end of the third mounting port 412, in order to transfer the transformer oil in the third mounting port 412 into the air bag 45, a communicating pipe 415 fixedly sleeved with the inner top wall of the air bag 45 is fixedly communicated with the inner top wall of the third mounting port 412, the transformer oil in the third mounting port 412 is transferred into the air bag 45 through the communicating pipe 415, and further, in order to drive the refining column 41 to rotate, a third driving motor 416 for driving the refining column 41 to rotate is fixedly mounted on the upper surface of the mounting cover 2.

Further, in order to orderly convey the raw materials processed by the grinding mechanism between the pulping column 41 and the pulping barrel 4, a guide groove 417 which is convenient for blanking is formed on the upper surface of the pulping column 41, and in order to blanking the processed raw materials, a second blanking pipe 418 for blanking the slurry processed by grinding the bean silk raw materials is fixedly communicated with the inner bottom wall of the pulping barrel 4, and the processed raw materials are blanked through the second blanking pipe 418.

Working principle: when processing bean raw materials, a worker pours the raw materials into the grinding drum 3, controls the first driving motor 34 to drive the first connecting plate 35 to rotate, drives the grinding column 31 connected with the connecting column 37 to move up and down in the grinding drum 3 through the first connecting plate 35 and the second connecting plate 36, and enables the grinding column 31 to rotate while lifting through the cooperation of the L-shaped guide rod 39 and the spiral guide groove 310 on the basis of the up and down movement of the grinding column 31, so that the raw materials between the first grinding fragments 32 and the second grinding fragments 33 are ground, the raw materials are primarily ground, and the ground raw materials fall into the guide groove 417 of the grinding column 41 through the first blanking pipe 311;

The raw materials flow into the pulping barrel 4 through the diversion trench 417, the third driving motor 416 drives the pulping column 41 to rotate, the first pulping bar 42 is matched with the raw materials to perform pulping, after the specified time of pulping, a worker controls the second driving motor 411 to drive the driving gear 44 to rotate, and the driving gear 44 is meshed with the meshing fluted disc 43 to drive the pulping barrel 4 to rotate;

the milling drum 4 generates lifting motion when rotating through the threaded connection between the milling drum 4 and the processing drum 1, the distance between the milling drum 4 and the milling column 41 is further adjusted, after the milling drum 4 ascends, the control column 413 moves towards the upper end of the third mounting port 412, transformer oil in the third mounting port 412 is extruded, the transformer oil flows into the air bag 45 through the communicating pipe 415, the air bag 45 is expanded, the supporting plate 47 is driven to move, the length of the tooth block 46 extending out of the inserting groove 48 is further increased, the third driving motor 416 is started again, the milling column 41 is driven to further mill raw materials, and the raw materials can be milled sufficiently and uniformly.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. A raw materials intelligence is pulping device step by step for bean curd stick processing, its characterized in that: the bean milk grinder comprises a processing cylinder (1) provided with supporting legs, wherein a grinding mechanism for primarily crushing bean milk is fixedly arranged above the processing cylinder (1) through a mounting cover (2), and a milk grinding mechanism for carrying out graded milk grinding on the bean milk is arranged on the inner wall of the upper end of the processing cylinder (1);

The grinding mechanism comprises a grinding cylinder (3) for placing and processing the shredded bean raw materials and a grinding column (31) for rotationally extruding and crushing the shredded bean raw materials, wherein the inner side wall of the grinding cylinder (3) is fixedly connected with first grinding fragments (32) which are obliquely arranged right and distributed in an annular array, the circumferential side surface of the grinding column (31) is fixedly connected with second grinding fragments (33) which are obliquely arranged left and distributed in an annular array, and the first grinding fragments (32) and the second grinding fragments (33) are alternately arranged to perform rotary up-and-down grinding actions on the shredded bean raw materials;

The pulping mechanism comprises a pulping barrel (4) for storing and processing bean pulp raw materials and a pulping column (41) for rotationally grinding the bean pulp raw materials, wherein the inner side wall of the pulping barrel (4) is fixedly connected with a first pulping strip (42) with a saw-tooth-shaped surface on one side of the friction force of the inner wall of the pulping barrel (4), the edge of the lower end of the pulping barrel (4) is fixedly connected with a meshing fluted disc (43), one side of the meshing fluted disc (43) is provided with a driving gear (44) and is in meshed transmission with the meshing fluted disc (43), the inner wall of the pulping column (41) is provided with mounting grooves (404) which are distributed in an annular array and are used for mounting a grading component, the grading component comprises an air bag (45) filled with transformer oil, one side surface of the air bag (45) is fixedly connected with a supporting plate (47) filled with a toothed block (46), and one side inner wall of the mounting groove (404) is provided with a plugging groove (48) matched with the outer surface of the toothed block (46);

The outer surface of the pulping barrel (4) is in threaded connection with the inner wall of the processing barrel (1), a first annular groove (49) for accommodating the meshing fluted disc (43) is formed in the inner wall of the processing barrel (1), a second mounting opening (410) is formed in the inner side wall of the pulping column (41), a second driving motor (411) is fixedly mounted on the inner bottom wall of the second mounting opening (410), and the driving gear (44) is driven by the second driving motor (411) to be meshed with the meshing fluted disc (43) for transmission so as to drive the pulping barrel (4) to perform rotary motion;

the utility model discloses a novel high-speed grinding machine, including grinding thick liquid post (41), inner wall, upper surface fixed mounting of installation lid (2) and lower extreme inner wall, third installing port (412) have been seted up to the lower surface of grinding thick liquid post (41), just inner wall activity of third installing port (412) has cup jointed control post (413) that are used for controlling the oil mass of transformer oil in gasbag (45), top fixed surface of control post (413) is connected with piston disc (414), the lower extreme surface of control post (413) with the lower extreme inner wall of grinding thick liquid section of thick bamboo (4) is passed through the bearing and is connected, transformer oil has been deposited to the upper end inner wall of third installing port (412), the interior roof fixed intercommunication of third installing port (412) have with communicating pipe (415) that the interior roof of gasbag (45) is fixed to cup joint, the upper surface fixed mounting of installation lid (2) has the rotatory third driving motor (416) of grinding thick liquid post (41).

2. The intelligent progressive refining device for raw materials for processing shredded beans according to claim 1, wherein: the grinding mechanism further comprises a driving part for driving the grinding column (31) to rotate up and down, the driving part comprises a first driving motor (34), a first connecting plate (35) is fixedly sleeved on the surface of a main shaft of the first driving motor (34), a second connecting plate (36) is movably hinged to the tail end of the first connecting plate (35) through a pin shaft, and a connecting column (37) rotatably sleeved on the inner wall of the grinding column (31) is rotatably sleeved on the tail end of the second connecting plate (36) through a pin shaft.

3. The intelligent progressive refining device for raw materials for processing shredded beans according to claim 2, wherein: the upper surface fixedly connected with of grinding section of thick bamboo (3) is used for right two support frames (38) that are symmetrical distribution of first driving motor (34) are installed, the top surface fixedly connected with of grinding post (31) is L shape guide arm (39) that annular array distributes, three be annular array with L shape guide arm (39) sliding fit's spiral guide groove (310) have been seted up to the inside wall of grinding section of thick bamboo (3).

4. The intelligent progressive refining device for raw materials for processing shredded beans according to claim 1, wherein: the lower surface of the grinding cylinder (3) is fixedly connected with the upper surface of the mounting cover (2), and a first blanking pipe (311) extending to the lower surface of the mounting cover (2) and distributed in an annular array is fixedly communicated with the inner bottom wall of the grinding cylinder (3).

5. The intelligent progressive refining device for raw materials for processing shredded beans according to claim 1, wherein: four first mounting openings (5) distributed in an annular array are formed in the top surface of the processing cylinder (1), hydraulic cylinders (6) are fixedly mounted on the inner walls of the four first mounting openings (5), and the top surface of a hydraulic rod of each hydraulic cylinder (6) is fixedly connected with the lower surface of the corresponding mounting cover (2) through the corresponding hydraulic cylinders (6) to drive the corresponding mounting cover (2) to reciprocate up and down.

6. The intelligent progressive refining device for raw materials for processing shredded beans according to claim 1, wherein: the inner bottom wall of the pulping barrel (4) is fixedly communicated with a second blanking pipe (418) for blanking the pulp after the bean silk raw material is ground.