CN116651322B

CN116651322B - Extrusion granulator for manufacturing microbial environment-friendly fertilizer

Info

Publication number: CN116651322B
Application number: CN202310814063.XA
Authority: CN
Inventors: 王巍翰; 王其选; 孙玲丽; 雷丹; 孙茂旭; 王心选; 王凤霞
Original assignee: Yantai Zhongde Group Co ltd
Current assignee: Yantai Zhongde Group Co ltd
Priority date: 2023-07-05
Filing date: 2023-07-05
Publication date: 2023-12-15
Anticipated expiration: 2043-07-05
Also published as: CN116651322A

Abstract

The invention provides an extrusion granulator for manufacturing microbial environment-friendly fertilizers, which relates to the technical field of biological fertilizer production and manufacturing and comprises an equipment frame, wherein a mixing mechanism is fixedly arranged in the equipment frame, a crushing mechanism is fixedly arranged on the mixing mechanism, a granulating mechanism is fixedly arranged on the crushing mechanism, and a drying mechanism is fixedly arranged on the equipment frame; according to the invention, through the cutting rods with adjustable intervals, fertilizer particles with different diameters can be cut, so that fertilizers with corresponding sizes can be manufactured according to different use occasions; according to the invention, the fertilizer particles are cut through the cutting gear rings with different rotation speeds, so that the fertilizer particles with different lengths can be manufactured according to the needs; according to the invention, the fertilizer particles can be classified through the drying mechanism and dried for different durations respectively, so that the same drying degree is ensured.

Description

Extrusion granulator for manufacturing microbial environment-friendly fertilizer

Technical Field

The invention relates to the technical field of bio-fertilizer production and manufacturing, in particular to an extrusion granulator for manufacturing microbial environment-friendly fertilizer.

Background

The microbial fertilizer is essentially characterized in that it is a living fertilizer with life. The microbial fertilizer is a fertilizer formed by fermenting and culturing one or more beneficial microorganisms, and has various values of improving soil fertility, improving soil structure, promoting plant to absorb nutrition and the like.

When bio-fertilizer is usually used, the fertilizer is required to be manufactured into granules which are convenient to package and use in advance, the existing fertilizer granulating device is usually a roller granulator, and the roller granulator extrudes waste into granules through two extrusion rollers, but the method cannot ensure that fertilizer granules can fall off smoothly in the extrusion process, and the specification of the granules cannot be adjusted according to actual requirements, and meanwhile, the mutual adhesion between the granules is easy to occur.

The Chinese patent publication No. CN113101869B discloses an automatic bio-fertilizer granulator, which comprises a fertilizer granulating device by a granulating extrusion roller with a cutting function, redundant fertilizers are cut in the extrusion process, the fertilizers are prevented from being adhered to each other after being molded, and the cut fertilizers are recycled by a blowing device.

However, when the fertilizer is granulated, fertilizer particles with required specifications cannot be cut out according to requirements, meanwhile, when the fertilizer particles are separated by the air blower after cutting and corners are cut, finished fertilizer particle products which are not required to be recycled are easily blown into a recycling area, and the granulating efficiency is reduced.

The invention provides an extrusion granulator for manufacturing microbial environment-friendly fertilizer.

Disclosure of Invention

Aiming at the technical problems, the invention provides an extrusion granulator for manufacturing microbial environment-friendly fertilizers, which comprises an equipment frame, wherein a mixing mechanism is fixedly arranged in the equipment frame, a crushing mechanism is fixedly arranged on the mixing mechanism, a granulating mechanism is fixedly arranged on the crushing mechanism, a drying mechanism is fixedly arranged on the equipment frame, the granulating mechanism comprises a second outer frame, a third transmission rod is fixedly arranged on the second outer frame, a gear is fixedly arranged on the third transmission rod, a fourth motor is rotatably arranged on the second outer frame, a gear is arranged on the fourth motor, a belt wheel is arranged on the fourth motor, the gear on the fourth motor is meshed with the gear on the third transmission rod, an extrusion screw rod is rotatably arranged in the second outer frame, a belt wheel is arranged on the extrusion screw rod, the extrusion screw rod is connected with the fourth motor through a belt, a fourth support frame is rotatably arranged on the second outer frame, a sliding chute is arranged on the fourth support frame, a fifth motor is fixedly arranged on the fourth support frame, a gear is rotatably arranged on the fourth support frame, an adjusting gear is rotatably arranged on the fourth support frame, a plurality of sliding limiting blocks are arranged on the fourth support frame, a plurality of sliding keys are arranged on the fourth support frame and the fourth support frame, a plurality of sliding keys are rotatably arranged on the fourth sliding key are matched with the fourth sliding key, a plurality of sliding key are rotatably arranged on the fourth sliding key, a plurality of sliding key are matched with the fourth sliding key, a sliding key is arranged on the fourth sliding key, a sliding key is matched with a sliding key, and a cylinder is rotatably arranged on the fourth sliding key, and a sliding key is matched with a sliding key, and a cylinder is rotatably arranged on a sliding key, and a sliding key is arranged on a sliding key, and a sliding key is arranged. The limiting block is internally provided with threads, and is matched with the screw rod of the adjusting screw rod.

Further, the granulating mechanism comprises a second transmission gear, a sixth motor and an adjusting rod, wherein the second transmission gear and the adjusting rod are rotatably arranged on the equipment frame, the sixth motor is fixedly arranged on the equipment frame, a screw rod is fixedly arranged on the sixth motor, gear patterns are arranged on the adjusting rod, and the screw rod on the sixth motor is matched with the gear pattern worm on the adjusting rod; the fourth support frame is rotatably provided with a cutting gear ring, the second transmission gear is meshed with the cutting gear ring, the adjusting rod is slidably provided with a connecting rod, a tension spring is arranged between the connecting rod and the adjusting rod, the adjusting rod is rotatably provided with a first speed regulating gear and an adjusting rod, and the first speed regulating gear and the adjusting rod are meshed with the second transmission gear.

Further, the drying mechanism comprises a drying support, a drying plate is fixedly arranged on the drying support, a plurality of spiral feeding rods are rotatably arranged on the drying support, belt wheels are fixedly arranged on the spiral feeding rods, the spiral feeding rods are connected through the belt wheels, a first feeding rod is rotatably arranged on the drying support, a hollowed feeding belt is rotatably arranged on the first feeding rod, the belt wheels are fixedly arranged on the first feeding rod, the first feeding rods are connected through a belt, a second feeding rod is rotatably arranged on the drying support, a third feeding belt is rotatably arranged on the second feeding rod, belt wheels are fixedly arranged on the second feeding rod, the second feeding rods are connected through the belt wheels, a third feeding rod is rotatably arranged on the drying support, a second feeding belt is fixedly arranged on the third feeding rod, a gear is fixedly arranged on the third feeding rod, a feeding plate is fixedly arranged in the drying support, and a first collecting plate, a second collecting plate and a third collecting plate are fixedly arranged on the drying support.

Further, the eighth motor is fixedly installed on the drying support, the gear is fixedly installed on the eighth motor, the gear on the eighth motor is meshed with the gear on the first feeding rod, the ninth motor is fixedly installed on the drying support, the gear on the ninth motor is fixedly installed on the ninth motor, the gear on the ninth motor is meshed with the gear on the second feeding rod, the tenth motor is fixedly installed on the drying support, the gear is fixedly installed on the tenth motor, the tenth motor is fixedly installed with a belt wheel, the tenth motors are connected through a belt, the gear on the tenth motor is meshed with the gear on the first feeding rod, the eleventh motor is fixedly installed on the drying support, the gear is fixedly installed on the eleventh motor, and the gear on the eleventh motor is meshed with the gear on the third feeding rod.

Further, the mixing mechanism comprises a telescopic rod, the telescopic rod is fixedly arranged on an equipment frame, a first supporting plate is fixedly arranged on the telescopic rod, a first transmission rod is rotatably arranged on the first supporting plate, a gear is fixedly arranged on the first transmission rod, a second motor is fixedly arranged on the first supporting plate, a gear is fixedly arranged on the second motor, the gear on the second motor is meshed with the gear on the first transmission rod, the mixing mechanism comprises a mixing barrel, the mixing barrel is fixedly arranged on the equipment frame, a sealing cover is rotatably arranged on the mixing barrel, a transmission cover is rotatably arranged on the sealing cover, a first supporting frame is fixedly arranged in the mixing barrel, a first stirring roller is rotatably arranged on the first supporting frame, the first stirring roller is in contact fit with the transmission cover, a first transmission gear is rotatably arranged on the first supporting frame, a gear on the first stirring roller is fixedly arranged on the first stirring roller, a gear on the second stirring roller is meshed with the first transmission gear, and a gear on the second stirring roller is rotatably arranged on the second stirring roller.

Further, the mixing drum is internally and fixedly provided with a second supporting frame, the first stirring roller is in rotary fit with the second supporting frame, the first stirring roller is provided with a pawl in a rotary mode, the smashing mechanism comprises a second supporting plate, the second supporting plate is fixedly arranged on the second supporting frame and is provided with a plurality of sliding grooves, a baffle is slidably arranged in the sliding grooves of the second supporting plate, the baffle is fixedly provided with a cylindrical key, the second supporting plate is provided with a triangular wheel in a rotary mode, the triangular wheel is provided with a sliding groove, the cylindrical key on the baffle is in sliding fit with the sliding groove on the triangular wheel, ratchets are arranged in the triangular wheel, and the ratchets in the triangular wheel are in ratchet fit with the pawl ratchets.

Further, a third motor is fixedly arranged on the mixing drum, a belt wheel is fixedly arranged on the third motor, a first threaded rod is rotatably arranged on the second transmission rod, the belt wheel is fixedly arranged on the first threaded rod, the first threaded rod is connected with the third motor through a belt, a second transmission rod is slidably arranged on the mixing drum, the second transmission rod is matched with the first threaded rod screw rod, a transmission connecting rod is hinged to the second transmission rod, and the transmission connecting rod is hinged to the sealing cover.

Further, a chute is arranged in the second supporting plate, a crushing rod is slidably arranged in the chute in the second supporting plate, a gear is fixedly arranged on the crushing rod, and the gear on the crushing rod is meshed with the gear on the first stirring roller; the crushing mechanism comprises a first outer frame, the first outer frame is fixedly arranged on the mixing drum, and a plurality of filter screens are fixedly arranged on the first outer frame; the crushing mechanism comprises a third supporting frame, the third supporting frame is rotatably arranged in the first outer frame, a cylindrical groove is formed in the third supporting frame, and the crushing rod is rotatably matched with the cylindrical groove in the third supporting frame.

Further, the equipment frame is fixedly provided with a water tank, the equipment frame is fixedly provided with a first water pump and a second water pump, water pumping ports of the first water pump and the second water pump are fixedly connected with the water tank, a water outlet of the first water pump is fixedly provided with a first water inlet pipe, the first water inlet pipe is fixedly connected with the mixing drum, a water outlet of the second water pump is fixedly provided with a second water inlet pipe, and the second water inlet pipe is fixedly connected with the filter screen.

Further, a hot air pipe is fixedly installed on the equipment frame, a disengaging rod is fixedly installed on the equipment frame, a transmission gear rod is rotatably installed on the equipment frame, belt wheels are fixedly installed on the transmission gear rod, the transmission gear rods are connected through a belt, a first feeding belt is installed between the transmission gear rods in a rolling mode, a first motor is fixedly installed on the equipment frame, a gear is fixedly installed on the first motor, and the gear on the first motor is meshed with the gear on the transmission gear rod.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the invention, through the cutting rods with adjustable intervals, fertilizer particles with different diameters can be cut, so that fertilizers with corresponding sizes can be manufactured according to different use occasions; (2) According to the invention, the fertilizer particles are cut through the cutting gear rings with different rotation speeds, so that the fertilizer particles with different lengths can be manufactured according to the needs; (3) According to the invention, the fertilizer particles can be classified through the drying mechanism and dried for different durations respectively, so that the same drying degree is ensured.

Drawings

FIG. 1 is a schematic view of the left-hand overall structure of the present invention.

Fig. 2 is a schematic diagram of the overall structure of the front face of the present invention.

FIG. 3 is a schematic diagram of the overall structure of the present invention.

Fig. 4 is a schematic diagram of the assembled structure of the water tank of the present invention.

FIG. 5 is a schematic view of a front cut-away structure of a mixing mechanism according to the present invention.

FIG. 6 is a schematic side sectional view of a mixing mechanism according to the present invention.

Fig. 7 is a schematic structural view of a breaking mechanism according to the present invention.

FIG. 8 is a schematic view of the granulation mechanism of the present invention in cross-section.

Fig. 9 is a schematic diagram of the assembly position of the speed adjusting gear of the present invention.

Fig. 10 is a schematic diagram of the whole structure of the drying mechanism of the present invention.

Fig. 11 is a schematic diagram of a left side structure of the drying mechanism of the present invention.

Fig. 12 is a schematic view of the set-up structure of the flip-flop of the present invention.

Fig. 13 is an enlarged schematic view of the structure at A1 in fig. 8.

Fig. 14 is an enlarged schematic view of the structure at A2 in fig. 8.

Fig. 15 is an enlarged schematic view of the structure at B1 in fig. 6.

Fig. 16 is an enlarged schematic view of the structure at C1 in fig. 9.

Fig. 17 is an enlarged schematic view of the structure at D1 in fig. 7.

Reference numerals: 1-an equipment frame; 2-a mixing mechanism; 3-a breaking mechanism; 4-a granulating mechanism; 5-a drying mechanism; 6-a water tank; 7-a first water inlet pipe; 8-a first water pump; 9-a second water inlet pipe; 10-a second water pump; 11-a hot air pipe; 12-a transmission gear lever; 13-a first feeding belt; 14-a first motor; 15-a release lever; 201-a telescopic rod; 202-a first support plate; 203-a first transmission rod; 204-a second motor; 205-sealing cover; 206-mixing drum; 207-a drive cover; 208-a first stirring roller; 209-a first support frame; 210-a second stirring roller; 211-a first transmission gear; 212-a second support frame; 213-pawl; 214-a first threaded rod; 215-a third motor; 216-a second drive rod; 217-drive links; 301-a first outer frame; 302-triangular wheel; 303-baffle; 304-a second support plate; 305-crushing the rod; 306-a filter screen; 307-third support frame; 401-a second outer frame; 402-fourth motor; 403-a third transmission rod; 404-extruding a screw; 405-fourth support frame; 406-cutting the rod; 407-adjusting the screw; 408-a fifth motor; 409-limiting block; 410-a first folding bar; 411-cutting gear ring; 412-a first speed gear; 413-a second transmission gear; 414-a second speed gear; 415-sixth motor; 416-adjusting the rod; 417-connecting rods; 418-fourth drive rod; 419-second folding bar; 501-drying a bracket; 502-baking the plate; 503-a spiral feeding rod; 504-hollowed-out feeding belt; 505-a first feed bar; 506-seventh motor; 507-eighth motor; 508-a second feed belt; 509-a third feeding belt; 510-a second feed bar; 511-ninth motor; 512-tenth motor; 513-eleventh motor; 514-feeding plate; 515-a first collection plate; 516-a second collection plate; 517-a third collection plate; 518-third feed bar.

Description of the embodiments

The technical scheme provided by the invention is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 17, an extrusion granulator for manufacturing microbial environment-friendly fertilizers comprises a device frame 1, wherein a mixing mechanism 2 is fixedly installed in the device frame 1, the mixing mechanism 2 comprises a telescopic rod 201, the telescopic rod 201 is fixedly installed on the device frame 1, a first supporting plate 202 is fixedly installed on the telescopic rod 201, a first transmission rod 203 is rotatably installed on the first supporting plate 202, a gear is fixedly installed on the first transmission rod 203, a second motor 204 is fixedly installed on the first transmission rod 203, a gear is fixedly installed on the second motor 204, and the gear on the second motor 204 is meshed with the gear on the first transmission rod 203.

As shown in fig. 1 to 17, the mixing mechanism 2 comprises a mixing drum 206, the mixing drum 206 is fixedly arranged in a frame 1 of the equipment, a sealing cover 205 is rotatably arranged on the mixing drum 206, a transmission cover 207 is rotatably arranged on the sealing cover 205, a first supporting frame 209 is fixedly arranged in the sealing cover 205, a first stirring roller 208 is rotatably arranged on the first supporting frame 209, a gear is fixedly arranged on the first stirring roller 208, the first stirring roller 208 is in contact fit with the transmission cover 207, a first transmission gear 211 is rotatably arranged in the first supporting frame 209, a second stirring roller 210 is rotatably arranged in the first supporting frame 209, a gear pattern is arranged on the second stirring roller 210, a gear on the first stirring roller 208 is meshed with the first transmission gear 211, a gear pattern on the second stirring roller 210 is meshed with the first transmission gear 211, when the organic fertilizer mixer is used, the first supporting plate 202 is driven to descend through the telescopic rod 201, the first transmission rod 203 is in contact fit with the transmission cover 207, the second motor 204 is started to drive the first transmission rod 203 to rotate, the first transmission rod 203 rotates to drive the transmission cover 207 to rotate and drive the first stirring roller 208 to rotate, the second stirring roller 210 is driven to reversely rotate through the meshing of the first stirring roller 208 and the first transmission gear 211, and organic matters in the mixing barrel 206 can be mixed and simultaneously are drawn close to the center through the mutually reverse rotation of the first stirring roller 208 and the second stirring roller 210, so that the phenomenon that part of fertilizer remains in the mixing barrel 206 to influence the later use when the organic fertilizer is granulated is prevented.

As shown in fig. 1 to 17, a third motor 215 is fixedly installed on the mixing drum 206, a first threaded rod 214 is rotatably installed on the mixing drum 206, belt wheels are fixedly installed on the first threaded rod 214 and the third motor 215, the first threaded rod 214 is connected with the third motor 215 through a belt, a second transmission rod 216 is slidably installed on the mixing drum 206, the second transmission rod 216 is matched with a screw rod of the first threaded rod 214, a transmission connecting rod 217 is hinged on the second transmission rod 216, the transmission connecting rod 217 is hinged with the sealing cover 205, the third motor 215 drives the first threaded rod 214 to rotate, the second transmission rod 216 is controlled to slide on the mixing drum 206, and the sealing cover 205 is driven to rotate on the mixing drum 206 when the second transmission rod 216 slides on the mixing drum 206.

As shown in fig. 1 to 17, the second support frame 212 is fixedly installed in the mixing drum 206, the pawl 213 is rotatably installed on the first stirring roller 208, the breaking mechanism 3 comprises a second support plate 304, the second support plate 304 is fixedly installed on the second support frame 212, a chute is arranged on the second support plate 304, a baffle 303 is slidably installed in the chute of the second support plate 304, a cylindrical key is fixedly installed on the baffle 303, a triangular wheel 302 is rotatably installed on the second support plate 304, the triangular wheel 302 is slidably matched with the baffle 303, a chute is arranged on the triangular wheel 302, the cylindrical key on the baffle 303 is slidably matched with the chute on the triangular wheel 302, a pawl is arranged in the triangular wheel 302, a ratchet in the triangular wheel 302 is matched with the pawl 213, when the baffle 303 can stir the mixing drum 206, the fertilizer in the mixing drum 206 is prevented from prematurely falling into the breaking mechanism 3, when the first stirring roller 208 rotates in a direction opposite to the stirring direction, the triangular wheel 302 is driven by the pawl 213 to rotate, the triangular wheel 302 is slidably matched with the cylindrical key on the baffle 303, the triangular wheel 303 is driven by the chute on the baffle 303, and the triangular wheel 304 is slidably matched with the cylindrical key on the baffle 303, and the triangular wheel 302 is conveniently controlled to control whether the fertilizer in the triangular wheel 302 falls into the breaking mechanism 3.

As shown in fig. 1 to 17, a gear pattern is arranged in the second supporting plate 304, a sliding groove is arranged in the second supporting plate 304, a crushing rod 305 is slidably mounted in the sliding groove of the second supporting plate 304, a gear is fixedly mounted on the crushing rod 305, the gear on the crushing rod 305 is meshed with the gear on the first stirring roller 208, the gear on the crushing rod 305 is meshed with the gear pattern on the second supporting plate 304, the crushing rod 305 can be driven to rotate on the second supporting plate 304 through the rotation of the first stirring roller 208, and meanwhile, the crushing rod 305 is driven to slide in the sliding groove of the second supporting plate 304 through the meshing with the gear pattern of the second supporting plate 304, so that waste materials can be more finely crushed through the crushing rod 305, and granulation can be conveniently carried out.

As shown in fig. 1 to 17, the breaking mechanism 3 includes a first outer frame 301, a third supporting frame 307 is rotatably mounted in the first outer frame 301, a cylindrical groove is provided on the third supporting frame 307, a breaking rod 305 is rotatably matched with the cylindrical groove of the third supporting frame 307, the first outer frame 301 is fixedly mounted on the mixing drum 206, a plurality of filter screens 306 are fixedly mounted on the first outer frame 301, and the filter screens 306 are used for injecting a small amount of water into the first outer frame 301 when the breaking rod 305 breaks, so that fertilizer particles can be formed conveniently.

As shown in fig. 1 to 17, the first outer frame 301 is fixedly provided with a granulating mechanism 4, the granulating mechanism 4 comprises a second outer frame 401, the second outer frame 401 is fixedly arranged on the first outer frame 301, an extrusion screw rod 404 is rotatably arranged on the second outer frame 401, a belt wheel is fixedly arranged on the extrusion screw rod 404, a fourth motor 402 is fixedly arranged on the second outer frame 401, a gear is fixedly arranged on the fourth motor 402, a third transmission rod 403 and a fourth transmission rod 418 are rotatably arranged on the second outer frame 401, a belt wheel is fixedly arranged on the third transmission rod 403 and the fourth transmission rod 418, the gear on the fourth motor 402 is meshed with the gear on the third transmission rod 403, the third transmission rod 403 is connected with the extrusion screw rod 404 through a belt, a fourth transmission rod 418 is connected with the extrusion screw rod 404 through a belt, a fourth supporting frame 405 is fixedly arranged on the second outer frame 401, the fourth support frame 405 is provided with a chute, the first folding rod 410 and the second folding rod 419 are slidably arranged in the chute of the fourth support frame 405, the second folding rod 419 is provided with a cylindrical key, the first folding rod 410 is provided with a cylindrical groove, the cylindrical key on the second folding rod 419 is in rotary fit with the cylindrical groove on the first folding rod 410, a folding frame structure formed by the first folding rod 410 and the second folding rod 419 is slidably arranged in the chute of the fourth support frame 405, the second folding rod 419 is fixedly provided with a cutting rod 406, the first folding rod 410 and the second folding rod 419 are rotatably provided with a limiting block 409, threads are arranged in the limiting block 409, the fourth support frame 405 is rotatably provided with an adjusting screw 407, the adjusting screw 407 is matched with the first water inlet pipe 7 and the second water inlet pipe 9, the adjusting screw 407 is fixedly provided with a gear, the fourth support frame 405 is fixedly provided with a fifth motor 408, the fifth motor 408 is provided with a gear, the gear on the fifth motor 408 is meshed with the gear on the adjusting screw 407, the third driving rod 403 is driven to rotate by the fourth motor 402, the extruding screw 404 is driven to rotate by the third driving rod 403, fertilizer in the first outer frame 301 falls into the second outer frame 401 to be extruded and granulated by the extruding screw 404, and the adjusting screw 407 is driven to rotate by the fifth motor 408, the two limiting blocks 409 are driven to approach or separate from each other by the rotating of the adjusting screw 407, the folding frame formed by the first folding rod 410 and the second folding rod 419 is driven to extend or shorten by the limiting blocks 409, and the distance between the fixed cutting rods 406 on the second folding rod 419 is prolonged or shortened, so that fertilizer particles with different widths can be extruded and cut by the cutting rods 406 conveniently.

As shown in fig. 1 to 17, a cutting gear ring 411 is rotatably installed on the fourth supporting frame 405, a gear line is arranged on the cutting gear ring 411, the cutting gear ring 411 is used for cutting the fertilizer extruded and cut by the cutting rod 406, the granulating mechanism 4 comprises a second transmission gear 413, a sixth motor 415 and an adjusting rod 416, the second transmission gear 413 and the adjusting rod 416 are rotatably installed on the equipment frame 1, the second transmission gear 413 is meshed with the gear line on the cutting gear ring 411, the adjusting rod 416 is provided with the gear line, the sixth motor 415 is fixedly installed on the equipment frame 1, a screw rod is fixedly installed on the sixth motor 415, the screw rod on the sixth motor 415 is matched with the gear line worm on the adjusting rod 416, a connecting rod 417 is slidably installed in the adjusting rod 416, a tension spring is installed between the connecting rod 417 and the adjusting rod 416, a first speed regulating gear 412 and a second speed regulating gear 414 are rotatably installed on the connecting rod 417, the first speed regulating gear 412 and the second speed regulating gear 414 are meshed with the second transmission gear 413, the cutting rod 406 is driven to rotate by the fourth motor 415 to rotate in the forward direction, the connecting rod 406 drives the connecting rod 417 to rotate, the connecting rod 417 is driven by the fourth motor 412 to rotate, the fourth motor 418 is driven by the fourth motor 418 to rotate, and the fourth speed regulating rod 418 is meshed with the fourth speed gear 418 is driven by the fourth speed regulating rod 418, and the fourth speed 418 is meshed with the fourth speed gear 418 to rotate by the fourth speed gear 418, which is meshed with the fourth speed gear 418, and not meshed with the fourth speed gear 418, which is rotatably driven by the fourth speed gear 418, and controls the cutting gear ring 411 to rotate to cut the fertilizer into granules so that the granules of fertilizer with different lengths can be cut.

As shown in fig. 1 to 17, a drying mechanism 5 is fixedly installed on a machine frame 1, a hot air pipe 11 is fixedly installed on the machine frame 1, a transmission gear rod 12 is rotatably installed on the machine frame 1, belt wheels are fixedly installed on the transmission gear rod 12, the transmission gear rods 12 are connected through a belt, a first feeding belt 13 is rotatably installed on the transmission gear rod 12, a disengaging rod 15 is fixedly installed on the machine frame 1, a first motor 14 is fixedly installed on the machine frame 1, a gear is fixedly installed on the first motor 14, the gear on the first motor 14 is meshed with the gear on the transmission gear rod 12, fertilizer particles cut through a cutting gear ring 411 fall onto the first feeding belt 13 and are dried through the hot air pipe 11, meanwhile, the transmission gear rod 12 is driven to rotate through the first motor 14, the first feeding belt 13 is driven to roll, the fertilizer particles are conveyed into the drying mechanism 5 to be processed, and meanwhile, the excessive fertilizer particles adhered to the first feeding belt 13 are scraped through the disengaging rod 15, so that waste caused by accumulation of the fertilizer on the first feeding belt 13 is avoided.

As shown in fig. 1 to 17, the drying mechanism 5 comprises a drying bracket 501, the drying bracket 501 is fixedly arranged on the equipment frame 1, a drying plate 502 is fixedly arranged on the drying bracket 501, a spiral feeding rod 503 is rotatably arranged on the drying bracket 501, a belt wheel is fixedly arranged on the spiral feeding rod 503, the spiral feeding rods 503 are connected through a belt, a seventh motor 506 is fixedly arranged on the drying bracket 501, a belt wheel is fixedly arranged on the seventh motor 506, the seventh motor 506 is connected with the spiral feeding rod 503 through a belt, a first feeding rod 505 is rotatably arranged on the drying bracket 501, a gear is fixedly arranged on the first feeding rod 505, a belt wheel is fixedly arranged on the first feeding rod 505, a hollowed feeding belt 504 is rotatably arranged on the first feeding rod 505, an eighth motor 507 and a tenth motor 512 are fixedly arranged on the drying bracket 501, gears are fixedly arranged on the eighth motor 507 and the tenth motor 512, the gears on the eighth motor 507 and the tenth motor 512 are meshed with the gears on the first feeding rod 505, after fertilizer particles are conveyed onto the spiral feeding rod 503 through the first feeding belt 13, the spiral feeding rod 503 is driven to rotate through the seventh motor 506, longer fertilizer particles roll onto the hollowed-out feeding belts 504 on the two sides, shorter fertilizer particles fall into spiral grooves on the spiral feeding rod 503 and are driven to move forwards through the spiral grooves, fertilizer particles with different lengths are conveniently classified and respectively collected, a feeding plate 514 is fixedly arranged in the drying bracket 501, a second feeding rod 510 is rotatably arranged on the drying bracket 501, gears are fixedly arranged on the second feeding rod 510, pulleys are fixedly arranged on the second feeding rod 510, a third feeding belt 509 is rotatably arranged on the second feeding rod 510 through a belt connection, after the spiral feeding rod 503 carries out length screening on fertilizer particles, the fertilizer particles with shorter length are conveyed to the feeding plate 514, and the fertilizer particles with larger diameter are screened through the third feeding belt 509, then the remaining fertilizer particles with smaller diameter are collected through the third collecting plate 517, the fertilizer particles with larger diameter are conveyed to the second collecting plate 516 through the third feeding belt 509, and are dried for the second time through the drying plate 502, and are collected, so that the fertilizer particles with larger diameter are prevented from failing to achieve better drying effect when being dried for the first time.

As shown in fig. 1 to 17, a third feeding rod 518 is rotatably mounted on the drying support 501, a second feeding belt 508 is rotatably mounted on the third feeding rod 518, a gear is fixedly mounted on the third feeding rod 518, an eleventh motor 513 is fixedly mounted on the drying support 501, a gear is fixedly mounted on the eleventh motor 513, the gear on the eleventh motor 513 is meshed with the gear on the third feeding rod 518, when longer fertilizer particles conveyed by the hollowed-out feeding belt 504 pass over the second feeding belt 508, fertilizer particles with smaller diameters fall onto the second feeding belt 508 from gaps of the hollowed-out feeding belt 504, and are collected by the second feeding belt 508, and fertilizer particles with larger diameters are continuously conveyed to the first collecting plate 515 by the hollowed-out feeding belt 504, are secondarily dried by the drying plate 502, and are collected.

As shown in fig. 1 to 17, the water tank 6 is fixedly installed on the equipment frame 1, the first water pump 8 and the second water pump 10 are fixedly installed on the equipment frame 1, the water pumping ports of the first water pump 8 and the second water pump 10 are fixedly connected with the water tank 6, the first water inlet pipe 7 is fixedly connected with the water outlet of the first water pump 8, the first water inlet pipe 7 is fixedly connected with the mixing drum 206, when the mixing mechanism 2 mixes and stirs fertilizer, required water is conveniently added into the mixing drum 206, the second water inlet pipe 9 is fixedly connected with the water outlet of the second water pump 10, the second water inlet pipe 9 is fixedly connected with the filter screen 306, and when the breaking mechanism 3 breaks the fertilizer, a proper amount of water is conveniently injected into the fertilizer, so that fertilizer particles are easier to form.

Working principle: when the organic fertilizer mixing device is used, firstly, organic fertilizer raw materials are poured into a mixing barrel 206, then a third motor 215 is started to drive a first threaded rod 214 to rotate, a second transmission rod 216 is driven to slide on the mixing barrel 206, a sealing cover 205 is closed with the mixing barrel 206, a first stirring roller 208 is in contact fit with a transmission cover 207, then a telescopic rod 201 is started to drive a first supporting plate 202 to descend, a first transmission rod 203 is in contact fit with the transmission cover 207, then a second motor 204 is started to drive the first transmission rod 203 to rotate, the transmission cover 207 is used for driving the first stirring roller 208 to rotate, the first stirring roller 208 is driven to drive the second stirring roller 210 to simultaneously reversely rotate through a first transmission gear 211 when the first stirring roller 208 rotates, a proper amount of water is added into the mixing barrel 206 by starting a first water pump 8 according to the requirement during the period, after the mixing of fertilizer is finished, the second motor 204 is started to reversely rotate, the first stirring roller 208 is driven to rotate through the transmission cover 207, a triangular wheel 302 is driven to rotate through the first stirring roller 208, a baffle 303 is driven to slide on a second supporting plate 304 through the triangular wheel 302, and the baffle 303 is prevented from falling down in the mixing barrel 206; then, the second motor 204 is started to rotate forward, the fertilizer in the mixing drum 206 is continuously stirred, meanwhile, the mixed fertilizer is pushed into the first outer frame 301 through the first stirring roller 208 and the second stirring roller 210 in the stirring process, after the fertilizer falls into the first outer frame 301, the crushing rod 305 is driven to slide and rotate on the second supporting plate 304 through the first stirring roller 208, the mixed fertilizer in the first outer frame 301 is crushed, and the required water is injected into the first outer frame 301 through the second water pump 10; then, the fourth motor 402 is started to drive the third transmission rod 403 to rotate, the third transmission rod 403 drives the extrusion screw rod 404 to rotate, the smashed fertilizer in the first outer frame 301 is extruded, the smashed fertilizer is extruded onto the cutting rod 406 through the extrusion screw rod 404, meanwhile, the fifth motor 408 is started to drive the adjusting screw rods 407 to rotate according to the requirement, the distance between the cutting rods 406 is adjusted, fertilizer particles with different diameters are extruded conveniently, meanwhile, the extrusion screw rod 404 drives the fourth transmission rod 418 to rotate, and the sixth motor 415 is started to drive the adjusting rod 416 to rotate according to the requirement, so that the first speed regulating gear 412 is meshed with the second transmission gear 413 and the fourth transmission rod 418, or the second speed regulating gear 414 is meshed with the second transmission gear 413 and the fourth transmission rod 418, the cutting gear ring 411 is controlled to rotate at different rotating speeds, and fertilizer particles with different lengths are cut conveniently; the cut fertilizer particles fall onto the first feeding belt 13 and are primarily dried through the hot air pipe 11, mutual adhesion among the fertilizer particles in subsequent conveying is avoided, the fertilizer particles on the first feeding belt 13 are scraped through the separation rod 15 and then fall onto the spiral feeding rod 503, and are dried through the drying plate 502, the lengths of the fertilizer particles are classified through the spiral feeding rod 503, the longer fertilizer particles are conveyed onto the hollowed-out feeding belt 504 for processing, the shorter fertilizer particles are conveyed through the spiral groove on the spiral feeding rod 503, the shorter fertilizer particles are conveyed onto the feeding plate 514 through the spiral feeding rod 503, the fertilizer particles are conveyed onto the third feeding belt 509 for separation through the feeding plate 514, the smaller fertilizer particles are continuously conveyed onto the third collecting plate 517 through the feeding plate 514, the larger fertilizer particles are conveyed onto the second collecting plate 516 through the third feeding belt 509, the lengths of the fertilizer particles are secondarily dried through the drying plate 502, the longer fertilizer particles on the hollowed-out feeding belt 504 are conveyed onto the second feeding belt 508 through the hollowed-out feeding belt 508, the granules fall onto the second feeding belt 508 through the second drying plate 508, and the larger fertilizer particles fall onto the second feeding belt 504 through the second drying plate 508, and the larger fertilizer particles are collected through the second drying plate 508, and the larger fertilizer particles fall onto the second collecting plate 515 through the second drying plate.

Claims

1. The extrusion granulator for manufacturing the microbial environment-friendly fertilizer comprises an equipment frame (1), wherein a mixing mechanism (2) is fixedly arranged in the equipment frame (1), a breaking mechanism (3) is fixedly arranged on the mixing mechanism (2), a granulating mechanism (4) is fixedly arranged on the breaking mechanism (3), a drying mechanism (5) is fixedly arranged on the equipment frame (1), the extrusion granulator is characterized in that the granulating mechanism (4) comprises a second outer frame (401), a third transmission rod (403) is fixedly arranged on the second outer frame (401), a gear is fixedly arranged on the third transmission rod (403), a fourth motor (402) is rotatably arranged on the second outer frame (401), a gear is arranged on the fourth motor (402), a belt wheel is arranged on the fourth motor (402), a gear on the fourth motor (402) is meshed with a gear on the third transmission rod (403), an extrusion spiral rod (404) is rotatably arranged on the second outer frame (401), a belt wheel is arranged on the extrusion spiral rod (404), a gear is connected with the fourth outer frame (401) through a belt, a fourth transmission frame (418) is rotatably arranged on the fourth outer frame (401), a fourth transmission frame (418) is fixedly arranged on the fourth transmission frame (405), a fifth motor (408) is fixedly arranged on the fourth supporting frame (405), a gear is fixedly arranged on the fifth motor (408), an adjusting screw (407) is rotatably arranged on the fourth supporting frame (405), the gear is arranged on the adjusting screw (407), the gear on the adjusting screw (407) is meshed with the gear on the fifth motor (408), a plurality of first folding rods (410) and second folding rods (419) are slidably arranged on the fourth supporting frame (405), cylindrical keys are arranged on the first folding rods (410) and the second folding rods (419), the cylindrical keys on the first folding rods (410) and the second folding rods (419) are slidably matched with sliding grooves on the fourth supporting frame (405), a rotary groove is arranged on the first folding rods (410), the cylindrical keys on the second folding rods (419) are rotatably matched with the rotary groove on the first folding rods (410), a cutting rod (406) is fixedly arranged on the second folding rods (419), a limit block (409) is rotatably arranged on the first folding rods (410) and the second folding rods (419), and the limit block (409) is internally provided with a limit block (409) which is matched with the screw rod (407). The granulating mechanism (4) comprises a second transmission gear (413), a sixth motor (415) and an adjusting rod (416), wherein the second transmission gear (413) and the adjusting rod (416) are rotatably arranged on the equipment frame (1), the sixth motor (415) is fixedly arranged on the equipment frame (1), a screw rod is fixedly arranged on the sixth motor (415), a gear pattern is arranged on the adjusting rod (416), and the screw rod on the sixth motor (415) is matched with a gear pattern worm on the adjusting rod (416); a cutting gear ring (411) is rotatably arranged on the fourth supporting frame (405), a second transmission gear (413) is meshed with the cutting gear ring (411), a connecting rod (417) is slidably arranged on the adjusting rod (416), a tension spring is arranged between the connecting rod (417) and the adjusting rod (416), a first speed regulating gear (412) and the adjusting rod (416) are rotatably arranged on the adjusting rod (416), and the first speed regulating gear (412) and the adjusting rod (416) are meshed with the second transmission gear (413); the drying mechanism (5) comprises a drying bracket (501), a drying plate (502) is fixedly arranged on the drying bracket (501), a plurality of spiral feeding rods (503) are rotatably arranged on the drying bracket (501), belt wheels are fixedly arranged on the spiral feeding rods (503), the spiral feeding rods (503) are connected through belt wheels, a first feeding rod (505) is rotatably arranged on the drying bracket (501), a hollowed feeding belt (504) is rotatably arranged on the first feeding rod (505), belt wheels are fixedly arranged on the first feeding rod (505), the first feeding rods (505) are connected through a belt, a second feeding rod (510) is rotatably arranged on the drying bracket (501), a third feeding belt (509) is rotatably arranged on the second feeding rod (510), belt wheels are fixedly arranged on the second feeding rod (510), the second feeding rods (510) are connected through a belt, a third feeding rod (518) is rotatably arranged on the drying bracket (501), a second feeding belt (508) is rotatably arranged on the third feeding rod (518), a gear is fixedly arranged on the third feeding rod (518), a second collecting plate (516) is fixedly arranged on the drying bracket (501), a second collecting plate (517) is fixedly arranged on the drying bracket (501), and a second collecting plate (516) is fixedly arranged on the drying plate; the mixing mechanism (2) comprises a telescopic rod (201), the telescopic rod (201) is fixedly arranged on an equipment frame (1), a first supporting plate (202) is fixedly arranged on the telescopic rod (201), a first transmission rod (203) is rotatably arranged on the first supporting plate (202), a gear is fixedly arranged on the first transmission rod (203), a second motor (204) is fixedly arranged on the first supporting plate (202), a gear is fixedly arranged on the second motor (204), the gear on the second motor (204) is meshed with the gear on the first transmission rod (203), the mixing mechanism (2) comprises a mixing barrel (206), the mixing barrel (206) is fixedly arranged on the equipment frame (1), a sealing cover (205) is rotatably arranged on the mixing barrel (206), a transmission cover (207) is rotatably arranged on the sealing cover (205), a first supporting frame (209) is fixedly arranged in the mixing barrel (206), a first stirring roller (208) is rotatably arranged on the first supporting frame (209), the first stirring roller (208) is in contact fit with the transmission cover (207), the first gear (208) is rotatably arranged in the first supporting frame (209), the first stirring roller (211) is fixedly meshed with the first stirring roller (211), a second stirring roller (210) is rotatably arranged on the first supporting frame (209), gear patterns are arranged on the second stirring roller (210), and the gear patterns on the second stirring roller (210) are meshed with the first transmission gear (211); the utility model discloses a mixing drum, including mixing drum (206), first stirring roller (208), second support frame (212) fixed mounting, first stirring roller (208) and second support frame (212) rotary fit, pawl (213) are installed to the last rotation of first stirring roller (208), smash mechanism (3) including second backup pad (304), second backup pad (304) fixed mounting is equipped with a plurality of spouts on second backup pad (304) on second support frame (212), install baffle (303) in the spout of second backup pad (304), be equipped with the cylinder key on baffle (303) fixedly, install triangular wheel (302) on second backup pad (304), be equipped with the spout on triangular wheel (302), cylinder key on baffle (303) and the spout sliding fit on triangular wheel (302), be equipped with the ratchet in triangular wheel (302), ratchet in triangular wheel (302) and pawl (213) ratchet cooperation.

2. The extrusion granulator for manufacturing microbial environment-friendly fertilizers according to claim 1, wherein an eighth motor (507) is fixedly installed on the drying support (501), gears are fixedly installed on the eighth motor (507), gears on the eighth motor (507) are meshed with gears on the first feeding rod (505), a ninth motor (511) is fixedly installed on the drying support (501), gears are fixedly installed on the ninth motor (511), gears on the ninth motor (511) are meshed with gears on the second feeding rod (510), a tenth motor (512) is fixedly installed on the drying support (501), gears are fixedly installed on the tenth motor (512), pulleys are fixedly installed on the tenth motor (512), the tenth motor (512) are connected through a belt, gears on the tenth motor (512) are meshed with gears on the first feeding rod (505), gears are fixedly installed on the drying support (501), gears on the eleventh motor (513), and gears on the eleventh motor (513) are meshed with gears on the third feeding rod (518).

3. The extrusion granulator for manufacturing microbial environment-friendly fertilizers according to claim 1, wherein a third motor (215) is fixedly installed on the mixing drum (206), a belt wheel is fixedly installed on the third motor (215), a first threaded rod (214) is rotatably installed on the second transmission rod (216), the belt wheel is fixedly installed on the first threaded rod (214), the first threaded rod (214) is connected with the third motor (215) through a belt, a second transmission rod (216) is slidably installed on the mixing drum (206), the second transmission rod (216) is matched with a screw rod of the first threaded rod (214), a transmission connecting rod (217) is hinged on the second transmission rod (216), and the transmission connecting rod (217) is hinged with the sealing cover (205).

4. The extrusion granulator for manufacturing microbial environment-friendly fertilizers according to claim 1, wherein a chute is arranged in the second supporting plate (304), a crushing rod (305) is slidably arranged in the chute on the second supporting plate (304), a gear is fixedly arranged on the crushing rod (305), and the gear on the crushing rod (305) is meshed with the gear on the first stirring roller (208); the smashing mechanism (3) comprises a first outer frame (301), the first outer frame (301) is fixedly arranged on the mixing barrel (206), and a plurality of filter screens (306) are fixedly arranged on the first outer frame (301); the crushing mechanism (3) comprises a third supporting frame (307), the third supporting frame (307) is rotatably arranged in the first outer frame (301), a cylindrical groove is formed in the third supporting frame (307), and the crushing rod (305) is rotatably matched with the cylindrical groove in the third supporting frame (307).

5. The extrusion granulator for manufacturing microbial environment-friendly fertilizers according to claim 1, wherein the water tank (6) is fixedly installed on the equipment frame (1), the first water pump (8) and the second water pump (10) are fixedly installed on the equipment frame (1), the water pumping ports of the first water pump (8) and the second water pump (10) are fixedly connected with the water tank (6), the first water inlet pipe (7) is fixedly installed on the water outlet of the first water pump (8), the first water inlet pipe (7) is fixedly connected with the mixing drum (206), the second water inlet pipe (9) is fixedly installed on the water outlet of the second water pump (10), and the second water inlet pipe (9) is fixedly connected with the filter screen (306).

6. The extrusion granulator for manufacturing microbial environment-friendly fertilizers according to claim 1 is characterized in that a hot air pipe (11) is fixedly arranged on a device frame (1), a separation rod (15) is fixedly arranged on the device frame (1), a transmission gear rod (12) is rotatably arranged on the device frame (1), belt wheels are fixedly arranged on the transmission gear rod (12), the transmission gear rods (12) are connected through a belt, a first feeding belt (13) is rotatably arranged between the transmission gear rods (12), a first motor (14) is fixedly arranged on the device frame (1), gears are fixedly arranged on the first motor (14), and the gears on the first motor (14) are meshed with the gears on the transmission gear rod (12).