CN115178366A

CN115178366A - Milling device for research and development production of biomass fertilizer

Info

Publication number: CN115178366A
Application number: CN202211075390.XA
Authority: CN
Inventors: 姜亮
Original assignee: Sheyang Jinyuan Energy Co ltd
Current assignee: Sheyang Jinyuan Energy Co ltd
Priority date: 2022-09-05
Filing date: 2022-09-05
Publication date: 2022-10-14

Abstract

The invention provides a milling device for research and development production of biomass fertilizer, which relates to the technical field of fertilizer research and development tools and comprises a milling table; a grinding hopper is fixedly connected behind the upper surface of the grinding table; the driving motor is fixedly connected to the upper surface of the grinding table through a bolt; the driving grinding roller is rotatably connected to the grinding hopper through a bearing; the cleaning mechanism is arranged on the fertilizer grinding roller, the waste materials are ground by the grinding roller to drive the grinding roller to clean the structure, so that the cleaning function of the grinding roller body is realized, the discharged material conveying area of the fertilizer is shaken, the fertilizer is promoted to slide on the discharging channel, and the liquidity of the fertilizer is increased; the problem of with present biomass fertilizer develop with milling tool at present, in the process of milling, fertilizer easily adheres on grinding roller or discharging channel after the roller extrusion of milling, piles up easily and causes the jam in the equipment of milling inside, is unfavorable for milling is solved.

Description

Milling device of biomass fertilizer research and development production usefulness

Technical Field

The invention relates to the technical field of fertilizer research and development tools, in particular to a milling device for research and development production of biomass fertilizer.

Background

The biomass fertilizer is a product containing nutrient elements required by crops and microorganisms, is a combination of organisms, organic matters and inorganic matters, can replace chemical fertilizers and provides various nutrient elements required by the growth and development of the crops; when the research is carried out on the biomass fertilizer, the fertilizer to be researched needs to be milled, the milled uniform fertilizer powder is convenient for analyzing the components of the fertilizer through experiments, and the milled biomass fertilizer is beneficial to the absorption of plants.

However, in the conventional milling tool for the development of biomass fertilizers, during the milling process, the fertilizer is extruded by the milling roller and then easily adheres to the milling roller or the discharge passage, and is easily accumulated in the milling equipment to cause blockage, which is not favorable for milling.

Disclosure of Invention

In view of this, the invention provides a grinding device for research and development of biomass fertilizer, which is provided with a cleaning mechanism on a fertilizer grinding roller, wherein the grinding roller is linked to grind waste materials to drive the grinding roller to clean the structure, so as to clean the roller body of the grinding roller, shake the discharge conveying area of the fertilizer, promote the fertilizer to slide on a discharge channel, increase the circulation of the fertilizer, and reduce the blockage caused by the adhesion of the fertilizer at a discharge port.

The invention provides a purpose and effect of a grinding device for research and development of biomass fertilizer, which specifically comprises the following steps: a grinding table; a grinding hopper is fixedly connected behind the upper surface of the grinding table; the driving motor is fixedly connected to the upper surface of the grinding table through a bolt; the grinding device comprises a driving grinding roller, a grinding hopper, a grinding wheel and a grinding wheel, wherein the driving grinding roller is rotationally connected to the grinding hopper through a bearing, and two ends of the driving grinding roller are respectively and fixedly connected with a driving synchronous gear; the driving motor is connected with and drives the driving grinding roller through chain transmission; the driven grinding roller is rotatably connected inside the grinding hopper through a bearing, two ends of the driven grinding roller are respectively and fixedly connected with a driven grinding gear, and the driving synchronous gear is meshed with the driven grinding gear to form gear transmission; the linkage driving columns are provided with two positions, the two positions are respectively and rotatably connected to two side walls of a hopper body of the grinding hopper through bearings, and the linkage driving columns are connected with driven grinding rollers through chain transmission; the linkage lifting frame is connected inside the grinding hopper in a sliding manner and is movably connected with the linkage driving column; the movable material collecting plate is rotatably connected inside the milling hopper and is positioned below the driving milling roller and the driven milling roller; the reciprocating scraper plate is connected inside the grinding hopper in a sliding manner; the discharging plate is fixedly connected in front of the upper surface of the grinding table through welding, and the discharging plate is located below the movable material collecting plate.

Furthermore, the two side walls of the interior of the grinding hopper are respectively and fixedly connected with a longitudinal guide rod, the interior of the grinding hopper is provided with a feed hopper, an outlet of the feed hopper is positioned right above a contact line of the driving grinding roller and the driven grinding roller, and the interior of the grinding hopper is fixedly connected with a transverse guide rod.

Furthermore, the inner end of the linkage driving column is fixedly connected with a linkage rotary rod, and one side of the inner surface of the linkage rotary rod is fixedly connected with an eccentric rotary column.

Furthermore, the linkage crane is of a rectangular frame structure, the lifting pushing frames of the rectangular frame structure are fixedly connected to two side frames of the linkage crane, the lifting pushing frames are in sliding connection with eccentric rotary columns, two sides of the linkage crane are respectively and fixedly connected with one guide slider, the guide sliders are in sliding connection with longitudinal guide rods, two lifting push rods are fixedly connected to the lower surface of the linkage crane, and the lower ends of the two lifting push rods are jointly connected with one lifting push plate.

Furthermore, the lifting push plate is of an inclined structure, a separation cutting plate is fixedly connected to the lower surface of the lifting push plate, and the separation cutting plate is of a grid structure.

Furthermore, a linkage push rod is fixedly connected to the rear surface of the lower frame rod of the linkage lifting frame, and the rear end of the linkage push rod is rotatably connected with a propelling roller.

Furthermore, the lower surface of the movable material collecting plate is fixedly connected with a material plate resetting top spring, and the lower end of the material plate resetting top spring is fixedly connected with the upper surface of the grinding table.

Furthermore, the front of the reciprocating scraper is fixedly connected with two scraper guide blocks, the upper surface of the reciprocating scraper is fixedly connected with an oblique push plate, the rear surface of the reciprocating scraper is fixedly connected with a reciprocating scraping brush, and the reciprocating scraping brush is attached to the driven grinding roller.

Further, scraper blade guide block sliding connection is on horizontal guide arm, and is located the right surface fixedly connected with scraper blade extension spring that resets of scraper blade guide block on right side, and the right-hand member fixed connection of scraper blade extension spring that resets grinds the inside right surface of fill.

Furthermore, the upper edge of the oblique push plate is of an oblique structure, an oblique wheel groove is formed in the oblique plane above the oblique push plate, and the oblique wheel groove is connected with the propelling roller in a rolling mode.

Advantageous effects

1. Through the cooperation of the initiative grinding roller of this structure and driven grinding roller, both are connected through the meshing between initiative synchronizing gear and the driven gear of milling and realize synchronous rotation, mill the fertilizer that gets into between initiative grinding roller and the driven grinding roller, the fertilizer drop through milling is on the activity collecting plate of below, the rethread from the activity grinding roller with the activity collecting plate upper surface in close contact with realization secondary mill, the activity collecting plate landing through the slope setting is on ejection of compact board, then collect from the place ahead roll-off of ejection of compact board, thereby realize milling of fertilizer, have the effect of carrying out the double-deck extrusion to fertilizer and milling.

2. Through the cooperation of the driven grinding roller and the two linkage driving columns of the structure, when the driven grinding roller rotates, the linkage driving columns are driven to rotate through chain transmission, the linkage rotary rod is driven to rotate, the eccentric rotary column rotates around the axis of the linkage driving columns in a circulating manner, and slides leftwards and rightwards inside the lifting push frame to drive the linkage lifting frame to move up and down, the lifting push plate is driven to move up and down, when the lifting push plate descends to the lowest point, the lifting push plate is in contact with the upper surface of the movable material collecting plate and pushes the movable material collecting plate downwards to enable the movable material collecting plate to swing, so that fertilizer adhered to the upper surface of the movable material collecting plate can slide forwards, the probability that the fertilizer is adhered to and accumulated on the movable material collecting plate is reduced, meanwhile, the cutting plate has the effect of punching waste materials, and the fertilizer agglomerated after being ground is cut off and crushed.

3. Through the cooperation of the reciprocal scraper blade of this structure and linkage push rod, when linkage crane carries out elevating movement, linkage push rod drives and impels the gyro wheel to carry out elevating movement, when impelling the gyro wheel to follow linkage crane motion to the top, impel gyro wheel and slant race rolling connection, reciprocal scraper blade is under the take-up action of scraper blade extension spring that resets, be located the right side of transverse guide arm, when impelling the gyro wheel to follow linkage crane downstream, impel the gyro wheel to roll downwards in the slant race, and the effect through the slant race of slope, promote reciprocal scraper blade to move left, reciprocal scraper blade rubs driven grinding roller in-process left side shift, clean the fertilizer of the in-process adhesion of milling on the driven grinding roller, can realize the effect to driven grinding roller clearance, avoid fertilizer easy adhesion on grinding roller after the roller extrusion of milling, the inconvenience is carried out abluent problem to it.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic view of the overall structure of a milling apparatus for development and production of biomass fertilizer according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the right side of a milling device for the development and production of biomass fertilizer according to an embodiment of the invention;

FIG. 3 is a schematic structural diagram of the inside of a grinding table of a grinding device for research and development production of biomass fertilizer according to an embodiment of the invention;

FIG. 4 is a schematic diagram of the right side view of FIG. 3 of a milling device for the development and production of biomass fertilizer in accordance with an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a grinding hopper of a grinding device for biomass fertilizer development and production according to an embodiment of the invention;

FIG. 6 is a schematic structural diagram of a linkage lifting frame of a grinding device for developing and producing biomass fertilizer according to an embodiment of the invention;

FIG. 7 is a schematic structural diagram of a lifting push plate of a grinding device for biomass fertilizer development and production according to an embodiment of the invention;

FIG. 8 is a schematic structural view of a reciprocating scraper of a milling device for the development and production of biomass fertilizer according to an embodiment of the present invention;

fig. 9 is a schematic view of a part of an enlarged structure at a in fig. 7 of a milling apparatus for development and production of biomass fertilizer according to an embodiment of the present invention;

fig. 10 is a schematic view of a part of an enlarged structure at B in fig. 8 of the milling device for development and production of biomass fertilizer according to the embodiment of the present invention.

List of reference numerals

1. A grinding table; 2. a milling hopper; 201. a longitudinal guide bar; 202. a feed hopper; 203. a transverse guide rod; 3. a drive motor; 4. actively grinding the roller; 401. a driving synchronizing gear; 5. a driven grinding roller; 501. a driven grinding gear; 6. a linkage driving column; 601. a linkage rotary rod; 6011. an eccentric rotary column; 7. a lifting frame is linked; 701. lifting and pushing the frame; 702. a guide slider; 703. a lifting push rod; 704. lifting the push plate; 7041. separating and cutting the plate; 705. a linkage push rod; 7051. a propelling roller; 8. a movable material collecting plate; 801. resetting the flitch to push a spring; 9. a reciprocating scraper; 901. a scraper guide block; 9011. a scraper reset tension spring; 902. an oblique push plate; 9021. an oblique wheel groove; 903. reciprocating scraping and brushing; 10. and a discharging plate.

Detailed Description

Example (b): please refer to fig. 1 to 10:

the invention provides a milling device for research and development production of biomass fertilizer, which comprises a milling table 1; a grinding hopper 2 is fixedly connected behind the upper surface of the grinding table 1; the driving motor 3 is fixedly connected to the upper surface of the grinding table 1 through bolts; the active grinding roller 4 is rotationally connected to the grinding hopper 2 through a bearing, and two ends of the active grinding roller 4 are respectively and fixedly connected with an active synchronous gear 401; the driving motor 3 is connected with and drives the driving grinding roller 4 through chain transmission; the driven grinding roller 5 is rotationally connected inside the grinding hopper 2 through a bearing, two ends of the driven grinding roller 5 are respectively and fixedly connected with a driven grinding gear 501, and the driving synchronous gear 401 is meshed with the driven grinding gear 501 to form gear transmission; the linkage driving column 6 is provided with two positions, the two linkage driving columns 6 are respectively and rotatably connected to two side walls of the hopper body of the grinding hopper 2 through bearings, and the linkage driving columns 6 are connected with the driven grinding roller 5 through chain transmission; the linkage lifting frame 7 is connected inside the grinding hopper 2 in a sliding manner, and the linkage lifting frame 7 is movably connected with the linkage driving column 6; the movable material collecting plate 8 is rotatably connected inside the milling hopper 2, and the movable material collecting plate 8 is positioned below the driving milling roller 4 and the driven milling roller 5; the reciprocating scraper 9, the reciprocating scraper 9 is connected inside the grinding hopper 2 in a sliding way; the discharging plate 10 is fixedly connected to the front portion of the upper surface of the grinding table 1 through welding, and the discharging plate 10 is located below the movable material collecting plate 8.

Wherein, two side walls inside the milling hopper 2 are respectively and fixedly connected with a longitudinal guide rod 201, the inside of the milling hopper 2 is provided with a feed hopper 202, the outlet of the feed hopper 202 is positioned right above the contact line of the driving milling roller 4 and the driven milling roller 5, and the inside of the milling hopper 2 is fixedly connected with a transverse guide rod 203; the longitudinal guide rod 201 is connected with a guide sliding block 702 in a sliding manner, so that the function of guiding the linkage lifting frame 7 is realized; unmilled manure is introduced through the feed hopper 202 and is directed between the driving and driven grinding

rollers

4, 5 for milling.

Wherein, the inner end of the linkage driving column 6 is fixedly connected with a linkage rotary rod 601, and one side of the inner surface of the linkage rotary rod 601 is fixedly connected with an eccentric rotary column 6011; through the chain drive of linkage drive post 6 and driven grinding roller 5, drive linkage drive post 6 and rotate when driven grinding roller 5 rotates to through eccentric column 6011 and lift push away frame 701 sliding connection's effect, can drive when linkage drive post 6 rotates and go up and down and push away frame 701 and carry out reciprocating motion.

The linkage lifting frame 7 is of a rectangular frame structure, lifting push frames 701 of the rectangular frame structure are fixedly connected to two side frames of the linkage lifting frame 7, the lifting push frames 701 are connected with eccentric rotary columns 6011 in a sliding mode, two sides of the linkage lifting frame 7 are respectively and fixedly connected with a guide slider 702, the guide sliders 702 are connected to longitudinal guide rods 201 in a sliding mode, two lifting push rods 703 are fixedly connected to the lower surface of the linkage lifting frame 7, and the lower ends of the two lifting push rods 703 are connected with a lifting push plate 704; the lifting push plate 704 is of an inclined structure, the lower surface of the lifting push plate 704 is fixedly connected with a separation cutting plate 7041, and the separation cutting plate 7041 is of a grid structure; when the driven grinding roller 5 rotates, the linkage driving column 6 is driven to rotate through chain transmission, the linkage rotary rod 601 is driven to rotate, the eccentric rotary column 6011 rotates circularly around the axis of the linkage driving column 6 and slides leftwards and rightwards inside the lifting pushing frame 701 to drive the linkage lifting frame 7 to move up and down, the lifting pushing plate 704 is driven to move up and down, when the lifting pushing plate 704 descends to the lowest point, the lifting pushing plate is in contact with the upper surface of the movable material collecting plate 8, the movable material collecting plate 8 is pushed downwards to be shaken, fertilizer adhered to the upper surface of the movable material collecting plate 8 can slide forwards, the probability that the fertilizer is adhered to and accumulated on the movable material collecting plate 8 is reduced, and the waste material is punched repeatedly through the reciprocating lifting motion of the separation cutting plate 7041.

Wherein, the rear surface of the lower frame rod of the linkage lifting frame 7 is fixedly connected with a linkage push rod 705, and the rear end of the linkage push rod 705 is rotatably connected with a propelling roller 7051.

Wherein, the lower surface of the movable material collecting plate 8 is fixedly connected with a material plate resetting top spring 801, and the lower end of the material plate resetting top spring 801 is fixedly connected with the upper surface of the grinding table 1; when the movable material collecting plate 8 is in the process of being collided by the reciprocating lifting of the lifting push plate 704, the movable material collecting plate 8 swings downwards under the action of the plate resetting top spring 801, and after the lifting push plate 704 rises, the lifting push plate 704 rotates upwards under the action of the plate resetting top spring 801 to keep the upper surface of the movable material collecting plate 8 tightly attached to the driven grinding roller 5.

The front of the reciprocating scraper 9 is fixedly connected with two scraper guide blocks 901, the upper surface of the reciprocating scraper 9 is fixedly connected with an inclined push plate 902, the rear surface of the reciprocating scraper 9 is fixedly connected with a reciprocating scraping brush 903, the reciprocating scraping brush 903 is attached to the driven grinding roller 5, the scraper guide blocks 901 are slidably connected to the transverse guide rod 203, the right surface of the scraper guide block 901 on the right side is fixedly connected with a scraper resetting tension spring 9011, the right end of the scraper resetting tension spring 9011 is fixedly connected with the right surface inside the grinding hopper 2, the upper edge of the inclined push plate 902 is of an inclined structure, an inclined wheel groove 9021 is formed in the inclined surface above the inclined push plate 902, and the inclined wheel groove 9021 is in rolling connection with a pushing roller 7051; when the pushing roller 7051 moves to the upper part along with the linkage lifting frame 7, the pushing roller 7051 is in rolling connection with the inclined wheel groove 9021, the reciprocating scraper 9 is located on the right side of the transverse guide rod 203 under the tensioning effect of the scraper resetting tension spring 9011, when the pushing roller 7051 moves downwards along with the linkage lifting frame 7, the pushing roller 7051 rolls downwards in the inclined wheel groove 9021 and pushes the reciprocating scraper 9 to move leftwards under the action of the inclined wheel groove 9021, the reciprocating scraper 9 rubs the driven grinding roller 5 in the leftward movement process, fertilizers adhered to the driven grinding roller 5 in the grinding process are cleaned, the cleaning effect of the driven grinding roller 5 can be achieved, and the situation that the fertilizers are easily adhered to the grinding roller after being extruded by the grinding roller is avoided.

The specific use mode and function of the embodiment are as follows: in the invention, firstly, non-milled fertilizer is put into a feed hopper 202, the fertilizer falls between a driving grinding roller 4 and a driven grinding roller 5, a driving motor 3 is started to drive the driving grinding roller 4 and the driven grinding roller 5 to rotate, the fertilizer entering between the driving grinding roller 4 and the driven grinding roller 5 is ground, the ground fertilizer falls on a movable material collecting plate 8 below, the driven grinding roller 5 is in close contact with the upper surface of the movable material collecting plate 8 to realize secondary grinding, the movable material collecting plate 8 arranged obliquely slides on a material discharging plate 10, a linkage driving column 6 is driven to rotate through chain transmission while the driven grinding roller 5 rotates, a linkage rotary rod 601 is driven to rotate, an eccentric rotary column 6011 circularly rotates around the axis of the linkage driving column 6 and slides left and right inside a lifting push frame 701 to drive a linkage lifting frame 7 to perform lifting movement, the lifting push plate 704 is driven to lift, when the lifting push plate 704 descends to the lowest point, the lifting push plate is in contact with the upper surface of the movable material collecting plate 8, the movable material collecting plate 8 is pushed downwards to shake, fertilizer adhered to the upper surface of the movable material collecting plate 8 slides forwards, the probability that the fertilizer is adhered to and accumulated on the movable material collecting plate 8 is reduced, waste materials are repeatedly punched through the separating cutting plate 7041, the grinded and agglomerated fertilizer is cut off and crushed, the linkage lifting frame 7 lifts and moves, the linkage push rod 705 drives the pushing roller 7051 to lift, when the pushing roller 7051 moves upwards along with the linkage lifting frame 7, the pushing roller 7051 is in rolling connection with the inclined roller groove 9021, the reciprocating scraper 9 is positioned at the right side of the transverse guide rod 203 under the tensioning action of the scraper resetting tension spring 9011, and when the pushing roller 7051 moves downwards along with the linkage lifting frame 7, propelling roller 7051 rolls downwards in slant race 9021 to through the effect of the slant race 9021, promote reciprocal scraper blade 9 and remove left, reciprocal scraper blade 9 removes left the in-process and rubs driven grinding roller 5, cleans the fertilizer of the in-process adhesion of milling on driven grinding roller 5, can realize the effect to driven grinding roller 5 clearance, and the fertilizer that will mill the completion at last is collected from play flitch 10 front end export.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims

1. A milling device for research and development production of biomass fertilizer is characterized by comprising a milling platform (1); a grinding hopper (2) is fixedly connected to the rear part of the upper surface of the grinding table (1); the driving motor (3) is fixedly connected to the upper surface of the grinding table (1) through bolts; the grinding device comprises an active grinding roller (4), wherein the active grinding roller (4) is rotatably connected to a grinding hopper (2) through a bearing, and two ends of the active grinding roller (4) are respectively and fixedly connected with an active synchronous gear (401); the driving motor (3) is connected with and drives the driving grinding roller (4) through chain transmission; the driven grinding roller (5) is rotatably connected inside the grinding hopper (2) through a bearing, two ends of the driven grinding roller (5) are respectively and fixedly connected with a driven grinding gear (501), and the driving synchronous gear (401) is meshed with the driven grinding gear (501) to form gear transmission; the linkage driving columns (6) are arranged at two positions, the two linkage driving columns (6) are respectively and rotatably connected to the two side walls of the hopper body of the grinding hopper (2) through bearings, and the linkage driving columns (6) are connected with the driven grinding roller (5) through chain transmission; the linkage lifting frame (7) is connected inside the grinding hopper (2) in a sliding manner, and the linkage lifting frame (7) is movably connected with the linkage driving column (6); the movable material collecting plate (8) is rotatably connected inside the grinding hopper (2), and the movable material collecting plate (8) is positioned below the driving grinding roller (4) and the driven grinding roller (5); the reciprocating scraper (9), the reciprocating scraper (9) is connected inside the grinding hopper (2) in a sliding manner; the material discharging plate (10) is fixedly connected in front of the upper surface of the grinding table (1) through welding, and the material discharging plate (10) is located below the movable material collecting plate (8).

2. A mill device for the development and production of biomass fertilizer according to claim 1, wherein: the milling hopper is characterized in that two longitudinal guide rods (201) are fixedly connected to two side walls of the inner portion of the milling hopper (2) respectively, a feeding hopper (202) is arranged inside the milling hopper (2), an outlet of the feeding hopper (202) is located right above a contact line of a driving milling roller (4) and a driven milling roller (5), and a transverse guide rod (203) is fixedly connected to the inner portion of the milling hopper (2).

3. The grinding device for developing and producing biomass fertilizer as claimed in claim 1, wherein: the linkage driving device is characterized in that a linkage rotary rod (601) is fixedly connected to the inner end of the linkage driving column (6), and an eccentric rotary column (6011) is fixedly connected to one side of the inner surface of the linkage rotary rod (601).

4. A mill device for the development and production of biomass fertilizer according to claim 3, characterized in that: the linkage lifting frame (7) is of a rectangular frame structure, a lifting push frame (701) of a rectangular frame structure is fixedly connected to two side frames of the linkage lifting frame (7), the lifting push frame (701) is slidably connected with an eccentric rotary column (6011), two sides of the linkage lifting frame (7) are respectively and fixedly connected with a guide slider (702), the guide slider (702) is slidably connected onto a longitudinal guide rod (201), two lifting push rods (703) are fixedly connected to the lower surface of the linkage lifting frame (7), and the lower ends of the two lifting push rods (703) are jointly connected with a lifting push plate (704).

5. A mill device for biomass fertilizer development and production according to claim 4, wherein: the lifting push plate (704) is of an inclined structure, the lower surface of the lifting push plate (704) is fixedly connected with a separation cutting plate (7041), and the separation cutting plate (7041) is of a grid structure.

6. A mill device for biomass fertilizer development and production according to claim 4, wherein: the rear surface of the lower frame rod of the linkage lifting frame (7) is fixedly connected with a linkage push rod (705), and the rear end of the linkage push rod (705) is rotatably connected with a propelling roller (7051).

7. A mill device for the development and production of biomass fertilizer according to claim 1, wherein: the lower surface of the movable material collecting plate (8) is fixedly connected with a plate resetting top spring (801), and the lower end of the plate resetting top spring (801) is fixedly connected with the upper surface of the grinding table (1).

8. A mill device for biomass fertilizer development and production according to claim 6, wherein: the front of the reciprocating scraper (9) is fixedly connected with two scraper guide blocks (901), the upper surface of the reciprocating scraper (9) is fixedly connected with an inclined push plate (902), the rear surface of the reciprocating scraper (9) is fixedly connected with a reciprocating scraping brush (903), and the reciprocating scraping brush (903) is attached to the driven grinding roller (5).

9. A mill device for the development and production of biomass fertilizer according to claim 8, wherein: the scraper guide block (901) is connected to the transverse guide rod (203) in a sliding mode, a scraper reset tension spring (9011) is fixedly connected to the right surface of the scraper guide block (901) on the right side, and the right end of the scraper reset tension spring (9011) is fixedly connected to the right surface inside the grinding hopper (2).

10. The grinding device for developing and producing biomass fertilizer according to claim 8, characterized in that: the upper edge of the inclined push plate (902) is of an inclined structure, an inclined wheel groove (9021) is formed in the inclined surface above the inclined push plate (902), and the inclined wheel groove (9021) is connected with the propelling roller (7051) in a rolling mode.