CN111389308A - Environment-friendly granulator for biochemical engineering - Google Patents

Abstract

The invention provides an environment-friendly granulator for biochemical engineering, which comprises a base, a supporting rod, a mixing box, a feeding port, a mixing motor, an automatic feeding belt structure, a conveying pipe, a first-level baffle, a supporting frame, a feeding barrel, a detachable hook structure, a feeding hole, a rotary rod, an auger, a fixing frame, a sleeve, a detachable granulating bin structure, a material collecting box, a discharging hopper, a scraping plate structure, a feeding motor, a rotary motor and a sealing cover, wherein the supporting rod is welded at the upper left part of the base, the mixing box is connected to the upper part of the supporting rod through a bolt, and the feeding port is arranged in the middle of the upper part of the front surface. The invention has the beneficial effects that: through the setting of dismantling granulation storehouse structure and scraper structure, be favorable to clearing up the material that will remain in the equipment the inside after equipment shuts down, the material solidifies and causes the injury to equipment when preventing to start next time.

Description

Environment-friendly granulator for biochemical engineering

Technical Field

The invention belongs to the technical field of granulators, and particularly relates to an environment-friendly granulator for biochemical engineering.

Background

The granulator is a molding machine which can manufacture materials into specific shapes, and the production line of the strip granulator is low in cost, simple and convenient to operate and convenient to clean. This has advantages for color compounding because the replacement of two different color batches necessitates thorough cleaning of the equipment. However, the disadvantage of the strand-forming process is that the cooling section takes up space, the length of which is determined by the temperature requirements of the polymer.

However, the existing granulator for biochemical engineering still has the problems of inconvenient cleaning, inconvenient maintenance and manual feeding, and time and labor waste.

Therefore, the invention of the environment-friendly granulator for biochemical engineering is very necessary.

Disclosure of Invention

In order to solve the technical problems, the invention provides an environment-friendly granulator for biochemical engineering, which is used for solving the problems that the existing granulator for biochemical engineering is inconvenient to clean and maintain after the device is stopped, and time and labor are wasted during manual feeding.

The environment-friendly granulator for biochemical engineering comprises a base, a supporting rod, a mixing box, a feeding hole, a mixing motor, an automatic feeding belt structure, a feeding pipe, a first-level baffle plate, a supporting frame, a feeding barrel, a detachable hook structure, a feeding hole, a rotating rod, an auger, a fixing frame, a sleeve, a detachable granulating bin structure, a collecting box, a discharging hopper, a scraping plate structure, a feeding motor, a rotating motor and a sealing cover, wherein the supporting rod is welded on the upper left part of the base, the mixing box is bolted on the upper part of the supporting rod, the feeding hole is arranged in the middle position of the upper part of the front surface of the mixing box, the mixing motor is bolted on the middle position of the upper part of the mixing box, the upper part of the automatic feeding belt structure is bolted on the front surface of the mixing box, the lower part of the automatic feeding belt structure is, the one-level baffle is inserted on the inner upper part of the conveying pipe, the support frame is bolted on the upper middle position of the base, the feeding barrel is bolted on the upper part of the support frame, the disassembly hook structures are respectively bolted on the left upper part and the left lower part of the feeding barrel, the feed hole is arranged on the inner left upper part of the feeding barrel, the rotary rod is arranged on the inner middle position of the feeding barrel, the auger is welded on the outer periphery of the rotary rod, the fixing frame is welded on the inner right upper part and the inner right lower part of the feeding barrel respectively, the sleeve is welded between the fixing frame and the fixing frame, the detachable granulation cabin structure is arranged on the right part of the feeding barrel, the material collecting box is bolted on the right upper part of the base, the material discharge hopper is welded on the right lower part of the material collecting box, and the material scraping plate structure is arranged on the upper part of the base, the feeding motor is connected to the right lower part of the front surface of the supporting rod through a bolt, the rotating motor is connected to the middle position of the front surface of the supporting rod through a bolt, and the sealing cover is clamped at the left part of the feeding barrel; the detachable granulating bin structure comprises a discharging bin, a bearing, a connecting rod, a square bulge, a material extruding plate, a cylindrical hole, a first-level lug plate, a threaded rod, a clamping nut and a connecting plate, wherein the outer ring of the bearing is embedded in the middle position of the lower part of the inner side of the discharging bin, the connecting rod is connected to the upper part of the inner ring of the bearing through a bolt, the square bulge is welded in the middle position of the upper part of the connecting rod, the material extruding plate is welded on the left side and the right side of the connecting rod respectively, the cylindrical hole is formed in the left part and the right part of the inner side of the discharging bin respectively, the first-level lug plate is welded on the upper left part and the upper right part of the discharging. The clamping nut is in threaded connection with the upper portion of the threaded rod, and the connecting plate is sleeved on the lower portion of the clamping nut.

As shown in fig. 3, preferably, the scraping plate structure includes a handle, a plug-in rechargeable lithium battery, a motor, a button, a U-shaped frame and a scraping plate, the plug-in rechargeable lithium battery is inserted into a middle position of an inner lower portion of the handle, the motor is inserted into a middle position of an inner upper portion of the handle, the button is connected to an upper left portion of the handle in a clamping manner, the U-shaped frame is inserted into an output shaft of the motor, and the scraping plate is respectively connected to left and right sides of the U-shaped frame in an adhesive manner.

As shown in fig. 4, preferably, the detachable hook structure includes a housing, a telescopic rod, a clamping hook, a spring, a limiting ring, a second-level ear plate, a middle connecting rod, a pressing rod and a third-level ear plate, wherein the telescopic rod is inserted into the middle position of the upper portion of the inner side of the housing, the clamping hook is connected to the upper portion of the telescopic rod through a pin shaft, the spring is connected to the upper portion of the inner side of the housing in a clamping manner, the limiting ring is connected to the lower portion of the telescopic rod in a threaded manner, the second-level ear plate is connected to the lower portion of the housing in a bolted manner, the middle connecting rod is connected to the lower portion of the second-level ear plate in a shaft manner, the.

As shown in fig. 5, preferably, the automatic feeding belt structure comprises a roller, a connecting shaft, a mounting plate, a conveying belt and a material taking box, wherein the connecting shaft is welded at the middle position of the left side and the right side of the roller respectively, the mounting plate is sleeved on the outer side of the connecting shaft, the conveying belt is sleeved on the outer side of the roller, and the material taking box is connected to the front surface of the conveying belt through bolts.

Preferably, the right part of the rotating rod is provided with a square groove, and the square groove of the right part of the rotating rod is matched with the square protrusion.

Preferably, a rubber sealing ring is adhered to the contact surface of the sealing cover and the feeding barrel.

Preferably, the connecting plates are respectively welded at the upper right part and the lower right part of the feeding barrel.

Preferably, the output shaft of the rotating motor is connected with the left part of the rotating rod through a coupling.

Preferably, the three-stage ear plates are respectively connected with the upper left part and the lower left part of the feeding barrel through bolts.

Preferably, the clamping hooks are respectively clamped at the left upper part and the left lower part of the sealing cover.

Preferably, the cross section of the roller is concave.

Preferably, the plurality of the material holding boxes are arranged, and the distance between the material holding boxes is set to be eight centimeters to ten centimeters.

Preferably, the number of the mounting plates is four, two of the mounting plates are in a pair, one pair of the mounting plates are connected to the upper part of the base through bolts, and the other pair of the mounting plates are connected to the front surface of the mixing box through bolts.

Preferably, the angle between the conveyor belt and the mixing box is 30-45 degrees.

Preferably, the scraper is a hard rubber plate.

Preferably, plug-in rechargeable lithium battery electrical connection motor, motor electrical connection button, button electrical connection plug-in rechargeable lithium battery.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the arrangement of the detachable granulating bin structure and the scraper structure is beneficial to cleaning the materials remained in the equipment after the equipment is shut down, and the damage to the equipment caused by solidification of the materials when the equipment is started next time is prevented.

2. According to the invention, the detachable hook structure can separate the sealing cover from the sealing cover, so that the interior of the equipment can be maintained conveniently.

3. According to the invention, the arrangement of the automatic feeding belt structure is beneficial to automatically feeding materials into the mixing box for stirring, so that unnecessary labor waste is saved.

4. In the invention, the scraper plate is particularly arranged by adopting a hard rubber plate, so that the damage to the inside of the equipment is prevented when the residue in the equipment is cleaned, and the maintenance cost is reduced.

5. In the invention, the cross section of the roller is concave, which is beneficial to preventing materials from scattering outside in the conveying process and reducing the consumption of the materials.

6. According to the invention, the arrangement of the rubber sealing ring is beneficial to preventing unnecessary loss caused by a gap between the feeding barrel and the sealing cover during working.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Figure 2 is a schematic structural view of the removable pelletizing bin structure of the present invention.

Fig. 3 is a schematic structural view of the scraper structure of the present invention.

Fig. 4 is a structural schematic view of the disassembly hook structure of the invention.

Fig. 5 is a schematic structural view of the autoloading belt structure of the present invention.

In the figure:

1. a base; 2. a support bar; 3. a mixing box; 4. a feed inlet; 5. a mixing motor; 6. an automatic feeding belt structure; 61. a drum; 62. a connecting shaft; 63. mounting a plate; 64. a conveyor belt; 65. a material taking box; 7. a delivery pipe; 8. a first stage baffle; 9. a support frame; 10. a feeding barrel; 11. disassembling the hook structure; 111. a housing; 112. a telescopic rod; 113. clamping the hook; 114. a spring; 115. a limiting ring; 116. a secondary ear plate; 117. a middle connecting rod; 118. a pressure lever; 119. a third-level ear plate; 12. a feed port; 13. rotating the rod; 14. a packing auger; 15. a fixed mount; 16. a sleeve; 17. a detachable granulation bin structure; 171. a discharging bin; 172. a bearing; 173. a connecting rod; 174. a square bulge; 175. extruding a material plate; 176. a cylindrical bore; 177. a first level ear plate; 178. a threaded rod; 179. clamping the nut; 1710. a connecting plate; 18. a material collecting box; 19. a discharge hopper; 20. a scraper structure; 201. a handle; 202. a plug-in rechargeable lithium battery; 203. a motor; 204. a button; 205. a U-shaped frame; 206. a squeegee; 21. a feeding motor; 22. a rotating electric machine; 23. and (7) sealing the cover.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in attached figures 1 and 2, the granulator for the environmental protection biochemical engineering comprises a base 1, a support rod 2, a mixing box 3, a feed inlet 4, a mixing motor 5, an automatic feeding belt structure 6, a feed delivery pipe 7, a first-level baffle 8, a support frame 9, a feed barrel 10, a detachable hook structure 11, a feed hole 12, a rotary rod 13, a packing auger 14, a fixed frame 15, a sleeve 16, a detachable granulation bin structure 17, a material collecting box 18, a material discharging hopper 19, a material scraping plate structure 20, a feed motor 21, a rotary motor 22 and a sealing cover 23, wherein the support rod 2 is welded on the upper left part of the base 1, the mixing box 3 is in bolted connection with the upper part of the support rod 2, the feed inlet 4 is arranged at the middle position of the upper part of the front surface of the mixing box 3, the mixing motor 5 is in bolted connection with the middle position of the upper part of the mixing box 3, the upper part of the, the lower part is bolted on the upper left part of the base 1, the conveying pipe 7 is bolted on the lower right part of the mixing box 3, the first-level baffle plate 8 is inserted on the upper inner side of the conveying pipe 7, the support frame 9 is bolted on the middle position of the upper part of the base 1, the feeding barrel 10 is bolted on the upper part of the support frame 9, the disassembly hook structure 11 is respectively bolted on the upper left part and the lower left part of the feeding barrel 10, the feeding hole 12 is arranged on the upper left part of the inner side of the feeding barrel 10, the rotary rod 13 is arranged at the middle position of the inner side of the feeding barrel 10, the packing auger 14 is welded on the periphery of the outer side of the rotary rod 13, the fixing frame 15 is respectively welded on the upper right part and the lower right part of the inner side of the feeding barrel 10, the sleeve 16 is welded between the fixing frame 15 and the fixing frame 15, the disassembly granulation cabin structure 17 is arranged on the, the material collecting box 18 is connected with the right upper part of the base 1 through a bolt, the discharging hopper 19 is welded at the right lower part of the material collecting box 18, the scraping plate structure 20 is placed at the upper part of the base 1, the feeding motor 21 is connected with the right lower part of the front surface of the supporting rod 2 through a bolt, the rotating motor 22 is connected with the middle position of the front surface of the supporting rod 2 through a bolt, and the sealing cover 23 is clamped at the left part of the feeding barrel 10; detachable granulation storehouse structure 17 including going out feed bin 171, bearing 172, connecting rod 173, square bulge 174, crowded flitch 175, cylinder hole 176, one-level otic placode 177, threaded rod 178, clamping nut 179 and connecting plate 1710, the outer lane of bearing 172 inlay the inboard lower part intermediate position at a feed bin 171, connecting rod 173 bolted connection on the upper portion of the inner circle of bearing 172, square bulge 174 weld the upper portion intermediate position at connecting rod 173, crowded flitch 175 weld respectively in the left and right sides of connecting rod 173, cylinder hole 176 set up respectively in two parts about the inboard of a feed bin 171, one-level otic placode 177 weld respectively in the upper left portion and the upper right portion of a feed bin 171, threaded rod 178 hub joint on the upper portion of one-level otic placode 177. The clamping nut 179 is screwed on the upper part of the threaded rod 178, and the connecting plate 1710 is sleeved on the lower part of the clamping nut 179.

As shown in fig. 3, in the above embodiment, specifically, the scraper plate structure 20 includes a handle 201, a plug-in rechargeable lithium battery 202, a motor 203, a button 204, a U-shaped frame 205 and a scraper 206, the plug-in rechargeable lithium battery 202 is inserted into a middle position of an inner lower portion of the handle 201, the motor 203 is inserted into a middle position of an inner upper portion of the handle 201, the button 204 is clamped into an upper left portion of the handle 201, the U-shaped frame 205 is inserted into an output shaft of the motor 203, and the scraper 206 is respectively glued to left and right sides of the U-shaped frame 205.

As shown in fig. 4, in the above embodiment, specifically, the detachable hook structure 11 includes an outer shell 111, a telescopic rod 112, a clamping hook 113, a spring 114, a limiting ring 115, a second-stage ear plate 116, a middle connecting rod 117, a pressing rod 118 and a third-stage ear plate 119, the telescopic rod 112 is inserted into a middle position of an inner upper portion of the outer shell 111, the clamping hook 113 is connected to an upper portion of the telescopic rod 112 through a pin, the spring 114 is connected to an inner upper portion of the outer shell 111 in a clamping manner, the limiting ring 115 is connected to a lower portion of the telescopic rod 112 in a threaded manner, the second-stage ear plate 116 is connected to a lower portion of the outer shell 111 in a bolt manner, the middle connecting rod 117 is connected to a lower portion of the second-stage ear plate 116 in a shaft manner, the pressing rod 118 is connected to a lower portion.

As shown in fig. 5, in the above embodiment, specifically, the automatic feeding belt structure 6 includes a roller 61, a connecting shaft 62, a mounting plate 63, a conveyor belt 64 and a material accommodating box 65, the connecting shaft 62 is respectively welded at the middle position of the left side and the right side of the roller 61, the mounting plate 63 is sleeved on the outer side of the connecting shaft 62, the conveyor belt 64 is sleeved on the outer side of the roller 61, and the material accommodating box 65 is bolted on the front surface of the conveyor belt 64.

In the above embodiment, specifically, the right portion of the rotating rod 13 is provided with a square groove, and the square groove on the right portion of the rotating rod 13 is matched with the square protrusion 174.

In the above embodiment, specifically, a rubber seal ring is adhered to the contact surface between the sealing cover 23 and the feeding barrel 10.

In the above embodiment, specifically, the connecting plates 1710 are respectively welded at the upper right portion and the lower right portion of the charging barrel 10.

In the above embodiment, specifically, the output shaft of the rotating electrical machine 22 is connected to the left portion of the rotating rod 13 through a coupling.

In the above embodiment, specifically, the third-stage lug plates 119 are bolted to the upper left portion and the lower left portion of the charging basket 10, respectively.

In the above embodiment, specifically, the clamping hooks 113 are respectively clamped at the upper left portion and the lower left portion of the sealing cover 23.

In the above embodiment, specifically, the cross section of the roller 61 is concave.

In the above embodiment, specifically, the plurality of the material loading boxes 65 are provided, and the distance between the material loading boxes 65 and the material loading boxes 65 is set to be eight centimeters to ten centimeters.

In the above embodiment, specifically, four mounting plates 63 are provided, two of the mounting plates 63 are a pair, one pair of the mounting plates 63 is bolted to the upper part of the base 1, and the other pair of the mounting plates 63 is bolted to the front surface of the mixing box 3.

In the above embodiment, specifically, the angle between the conveyor belt 64 and the mixing box 3 is 30 to 45 degrees.

In the above embodiment, the scraper 206 is specifically made of a hard rubber plate.

In the above embodiment, specifically, the plug-in rechargeable lithium battery 202 is electrically connected to the motor 203, the motor 203 is electrically connected to the button 204, and the button 204 is electrically connected to the plug-in rechargeable lithium battery 202.

Principle of operation

The working principle of the invention is as follows: when in work, the material mixing motor 5, the feeding motor 21 and the rotating motor 22 are powered firstly, then workers pour the materials into the material taking box 65, the feeding motor 21 drives the roller 61 to rotate, the roller 61 drives the conveyer belt 64 to move to send the materials into the mixing box 3 for stirring, then the first-stage baffle 8 is drawn out, the materials in the mixing box 3 flow into a material feeding barrel 10 through a material conveying pipe 7, the rotating motor 22 drives the rotating rod 13 to rotate, the rotating rod 13 drives the packing auger 14 to rotate, the stirred material is sent into the discharging bin 171, the rotating rod 13 drives the connecting rod 173 to rotate through the square bulge 174, the material is extruded from the cylindrical hole 176, the material is cut by the rotation of the extruding plate 175, the cut material falls into the material collecting box 18, when the material collecting box 18 is full, the baffle plate on the discharging hopper 19 is pulled out, and the cut materials are collected; after the machine is stopped, the clamping nut 179 is unscrewed from the threaded rod 178, the threaded rod 178 is pulled out from the connecting plate 1710, the button 204 is pressed, the motor 203 drives the U-shaped frame 205 to rotate, and the residual materials in the feeding barrel 10 and the discharging bin 171 are cleaned through the scraper 206; when the equipment is repaired, the lower part of the pressure lever 118 is rotated to the upper right, the middle connecting rod 117 drives the shell 111 to move upwards, the spring 114 is in a relaxed state, and then the sealing cover 23 is taken down to repair or maintain the interior of the feed barrel 10.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (10)

1. The environment-friendly granulator for biochemical engineering is characterized by comprising a base (1), a support rod (2), a mixing box (3), a feed inlet (4), a mixing motor (5), an automatic feeding belt structure (6), a conveying pipe (7), a first-level baffle (8), a support frame (9), a feeding barrel (10), a detachable hook structure (11), a feed hole (12), a rotary rod (13), a packing auger (14), a fixing frame (15), a sleeve (16), a detachable granulation cabin structure (17), a material collecting box (18), a material discharging hopper (19), a material scraping plate structure (20), a feeding motor (21), a rotary motor (22) and a sealing cover (23), wherein the support rod (2) is welded at the upper left part of the base (1), the mixing box (3) is in bolted connection with the upper part of the support rod (2), the feed inlet (4) is arranged at the middle position of the upper part of the front surface of the mixing box (3), the material mixing device is characterized in that the material mixing motor (5) is in bolted connection with the middle position of the upper part of the material mixing box (3), the upper part of the automatic material conveying belt structure (6) is in bolted connection with the front surface of the material mixing box (3), the lower part of the automatic material conveying belt structure is in bolted connection with the upper left part of the base (1), the material conveying pipe (7) is in bolted connection with the lower right part of the material mixing box (3), the first-stage baffle (8) is inserted into the upper inner side of the material conveying pipe (7), the support frame (9) is in bolted connection with the middle position of the upper part of the base (1), the material conveying barrel (10) is in bolted connection with the upper part of the support frame (9), the disassembly hook structure (11) is in bolted connection with the upper left part and the lower left part of the material conveying barrel (10) respectively, the material inlet hole (12) is arranged at the upper left inner side of the material conveying barrel (, the packing auger (14) is welded at the periphery of the outer side of the rotating rod (13), the fixing frame (15) is respectively welded at the right upper part and the right lower part of the inner side of the feeding barrel (10), the sleeve (16) is welded between the fixed frame (15) and the fixed frame (15), the detachable granulating bin structure (17) is arranged at the right part of the feeding barrel (10), the material collecting box (18) is connected with the right upper part of the base (1) through a bolt, the discharging hopper (19) is welded at the right lower part of the material collecting box (18), the scraper structure (20) is arranged at the upper part of the base (1), the feeding motor (21) is connected with the right lower part of the front surface of the support rod (2) through a bolt, the rotary motor (22) is connected to the middle position of the front surface of the support rod (2) through a bolt, and the sealing cover (23) is clamped at the left part of the feeding barrel (10); the detachable granulating bin structure (17) comprises a discharge bin (171), a bearing (172), a connecting rod (173), a square bulge (174), a material extruding plate (175), a cylindrical hole (176), a first-level lug plate (177), a threaded rod (178), a clamping nut (179) and a connecting plate (1710), the outer ring of the bearing (172) is embedded in the middle position of the lower part of the inner side of the discharging bin (171), the connecting rod (173) is connected with the upper part of the inner ring of the bearing (172) through a bolt, the square bulge (174) is welded at the middle position of the upper part of the connecting rod (173), the material extruding plates (175) are respectively welded at the left side and the right side of the connecting rod (173), the cylindrical holes (176) are respectively arranged at the left part and the right part of the inner side of the discharging bin (171), one-level otic placode (177) weld respectively in the upper left portion and the upper right portion of going out feed bin (171), threaded rod (178) coupling on the upper portion of one-level otic placode (177). The clamping nut (179) is in threaded connection with the upper part of the threaded rod (178), and the connecting plate (1710) is sleeved on the lower part of the clamping nut (179).

2. The pelletizer for biochemical engineering according to claim 1, wherein the scraper structure (20) comprises a handle (201), a plug-in rechargeable lithium battery (202), a motor (203), a button (204), a U-shaped frame (205) and scrapers (206), the plug-in rechargeable lithium battery (202) is inserted into the middle position of the lower part of the inner side of the handle (201), the motor (203) is inserted into the middle position of the upper part of the inner side of the handle (201), the button (204) is clamped into the upper left part of the handle (201), the U-shaped frame (205) is inserted into the output shaft of the motor (203), and the scrapers (206) are respectively glued to the left and right sides of the U-shaped frame (205).

3. The pelletizer for biochemical engineering according to claim 1, wherein the disassembling hook structure (11) comprises a housing (111), a telescopic rod (112), a clamping hook (113), a spring (114), a limiting ring (115), a secondary ear plate (116), a middle connecting rod (117), a pressing rod (118) and a tertiary ear plate (119), the telescopic rod (112) is inserted in the middle position of the inner upper part of the housing (111), the clamping hook (113) is pin-jointed on the upper part of the telescopic rod (112), the spring (114) is clamped on the inner upper part of the housing (111), the limiting ring (115) is screw-jointed on the lower part of the telescopic rod (112), the secondary ear plate (116) is screw-jointed on the lower part of the housing (111), the middle connecting rod (117) is shaft-jointed on the lower part of the secondary ear plate (116), the pressing rod (118) is shaft-jointed on the lower part of the middle connecting rod (117), the three-stage ear plate (119) is coupled to the upper part of the pressure lever (118) in a shaft way; the three-stage lug plates (119) are respectively connected with the upper left part and the lower left part of the feeding barrel (10) through bolts; the clamping hooks (113) are respectively clamped at the left upper part and the left lower part of the sealing cover (23).

4. The pelletizer for biochemical engineering according to claim 1, wherein the autoloading belt structure (6) includes a roller (61), a connecting shaft (62), a mounting plate (63), a conveyor belt (64) and a material carrying box (65), the connecting shaft (62) is welded at the middle position of the left and right sides of the roller (61) respectively, the mounting plate (63) is sleeved on the outer side of the connecting shaft (62), the conveyor belt (64) is sleeved on the outer side of the roller (61), and the material carrying box (65) is bolted on the front surface of the conveyor belt (64).

5. The pelletizer for biochemical engineering according to claim 1, characterized in that the right part of the rotating rod (13) is provided with a square groove, and the square groove at the right part of the rotating rod (13) is matched with the square protrusion (174).

6. The pelletizer for biochemical engineering according to claim 1, characterized in that the output shaft of the rotary motor (22) is connected to the left part of the rotary rod (13) through a coupling.

7. The pelletizer for biochemical engineering according to claim 4, wherein the cross section of the roller (61) is concave.

8. The pelletizer for biochemical engineering according to claim 4, wherein the material carrying box (65) is provided in plurality, and the distance between the material carrying box (65) and the material carrying box (65) is set to be between eight centimeters and ten centimeters.

9. The pelletizer for biochemical engineering according to claim 4, wherein the number of the mounting plates (63) is four, two of the mounting plates (63) are a pair, one pair of bolts is connected to the upper part of the base (1), and the other pair of bolts is connected to the front surface of the mixing box (3).

10. The pelletizer for biochemical engineering according to claim 4, characterized in that the conveyor belt (64) is at an angle to the mixing box (3).

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