CN218422632U - Fertile granulation equipment of granule boron - Google Patents

Abstract

The utility model discloses a fertile granulation equipment of granule boron, including chassis and granulation subassembly, the chassis left is provided with the compounding subassembly that is used for the mixing material, and compounding subassembly left is provided with driving motor for the granulation subassembly sets up in the mixing subassembly below, the granulation subassembly includes granulation storehouse, feed inlet, feeder hopper, granulation chamber, sieve section of thick bamboo, spiral leaf and drive wheel, the feed inlet has been seted up to granulation storehouse top, and feed inlet top fixedly connected with feeder hopper, the granulation chamber has been seted up in the granulation storehouse, and granulation intracavity front and back bilateral symmetry rotates and is connected with the sieve section of thick bamboo, sieve section of thick bamboo inner wall fixedly connected with spiral leaf, and sieve section of thick bamboo left side sleeve pipe pivot fixedly connected with drive wheel, granulation storehouse right wall and the laminating of sieve section of thick bamboo, and the sieve mesh has been seted up on the sieve section of thick bamboo surface. The utility model discloses a cooperation between each part can promote the smoothness on boron fertilizer granule surface when carrying out the granulation to boron fertilizer, and it is extravagant to reduce the material simultaneously.

Description

Fertile granulation equipment of granule boron

Technical Field

The utility model relates to a fertilizer production technical field specifically is a fertile granulation equipment of granule boron.

Background

The physical properties of the fertilizer are mainly granular, and the granular fertilizer is convenient to transport, package and use, but the physical properties of the boron fertilizer are mainly powdery and sticky sand, so that the granulation of the powdery boron fertilizer is an essential process in the fertilizer production.

At present, the disadvantages of easy loss, low utilization rate, rough physical properties of particles, high granulation cost and the like exist in granulation by taking boron powder or boric acid as a raw material.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and a granulation device for granular boron fertilizer is provided in order to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fertile granulation equipment of granule boron to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a fertile granulation equipment of granule boric, includes chassis and granulation subassembly, the chassis left is provided with the compounding subassembly that is used for the mixing material, and the compounding subassembly left is provided with driving motor for the granulation subassembly sets up in the mixing subassembly below, the granulation subassembly is including granulation storehouse, feed inlet, feeder hopper, granulation chamber, sieve section of thick bamboo, spiral leaf and drive wheel, the feed inlet has been seted up to granulation storehouse top, and feed inlet top fixedly connected with feeder hopper, the granulation chamber has been seted up in the granulation storehouse, and both sides symmetry rotates around the granulation intracavity and is connected with the sieve section of thick bamboo, sieve section of thick bamboo inner wall fixedly connected with spiral leaf, and sieve section of thick bamboo left side sleeve pipe pivot fixedly connected with drive wheel, granulation storehouse right wall and the laminating of sieve section of thick bamboo, and sieve mesh has been seted up on the sieve section of thick bamboo surface.

Furthermore, the driving motor and the driving wheel on the front side of the granulating bin form a driving structure through a belt and a belt pulley, and the driving wheels are meshed with each other.

Further, the mixing assembly comprises a mixing bin, a feeding port, a discharging port and a stirring rod, the feeding port is formed in the upper portion of the mixing bin, the discharging port is formed in the lower portion of the mixing bin, the stirring rod is connected to the mixing bin in a rotating mode, and the stirring rod is arranged in a three mode.

Further, the compounding subassembly still includes stirring leaf and drive wheel, puddler fixed surface is connected with the stirring leaf, and puddler left end fixedly connected with drive wheel, intermeshing between the drive wheel, and the drive wheel and the driving motor fixed connection at blending bunker middle part, the stirring leaf is at puddler surface spiral distribution, and the spiral opposite direction of two adjacent stirring leaves.

Further, a feeding assembly used for feeding is arranged on the upper right side of the chassis and comprises a conveying motor, supports, a feeding roller and a conveying belt, the conveying motor is fixedly connected to the right portion of the upper surface of the chassis, the four supports are symmetrically and fixedly connected to the front side and the rear side of the upper right side of the chassis in a symmetrical mode, the front side and the rear side are two, the feeding roller is rotatably connected between the supports, the conveying belt is arranged on the outer side of the feeding roller in a laminating mode, the feeding roller and the motor form a transmission structure through a belt, a belt pulley and the conveying belt, and filtering holes are formed in the surface of the conveying belt.

Further, the feeding assembly further comprises a base plate, a support rod, a transmission shaft and a top plate, the base plate is fixedly connected between the supports, the support plate is symmetrically and fixedly connected with the support rod in the front and at the back, the transmission shaft is rotatably connected between the support rods, the top plate is symmetrically and fixedly connected to the surface of the transmission shaft, and the transmission shaft forms a transmission structure with the feeding roller through a belt, a belt pulley.

Further, the feeding assembly further comprises clamping plates and material receiving frames, the clamping plates are symmetrically and fixedly connected to the left side and the right side of the base plate, and the material receiving frames are arranged between the clamping plates.

The utility model provides a fertile granulation equipment of granule boron possesses following beneficial effect: according to the particle boron fertilizer granulation equipment, through the matching of parts of each part, the smoothness of the surface of boron fertilizer particles can be improved when the boron fertilizer is granulated, and meanwhile, the material waste is reduced;

1. the utility model discloses a granulation subassembly's setting for after the material after the misce bene leaves the blending bunker, can get into the granulation intracavity from the feeder hopper through the feed inlet, driving motor drives a sieve section of thick bamboo through the drive wheel and in granulation intracavity opposite direction rotates, extrudees the material, and make the material get into in the sieve section of thick bamboo through the sieve mesh on sieve section of thick bamboo surface in the extrusion, the material is carried right in the sieve section of thick bamboo by the spiral leaf and is left a sieve section of thick bamboo, make the material shaping through the rotation of a sieve section of thick bamboo simultaneously, promote the surface smoothness of granule through the friction of a sieve section of thick bamboo inner wall and material;

2. the utility model discloses a setting of compounding subassembly, add raw materials, granulating agent and water into blending bunker from the charge door after, driving motor drives the puddler through the drive wheel and rotates, and the turn to of two adjacent puddlers is opposite, thereby make the stirring leaf fully mix the material, the material that the completion of mixing can leave blending bunker from the discharge gate;

3. the utility model discloses a setting of pay-off subassembly, product leave sieve section of thick bamboo and fall back on the conveyer belt, and conveying motor accessible feed roll drives the conveyer belt and removes to carry the product right, and in transportation process, the feed roll can drive the transmission shaft and rotate on branch, thereby makes the roof relapse jack-up with the conveyer belt, makes the material vibrations, thereby falls the filtration pore that does not become the granule powder smuggleing secretly in the product and gets into in the material frame that connects through the conveyer belt surface.

Drawings

Fig. 1 is a schematic sectional front view of the present invention;

FIG. 2 is a schematic view of the granulation chamber of the present invention in cross-section from the right side;

fig. 3 is a schematic view of the three-dimensional structure of the bracket of the present invention.

In the figure: 1. a chassis; 2. a mixing assembly; 201. a mixing bin; 202. a feed inlet; 203. a discharge port; 204. a stirring rod; 205. stirring blades; 206. a drive wheel; 3. a drive motor; 4. a pelletizing assembly; 401. a granulation bin; 402. a feed inlet; 403. a feed hopper; 404. a granulation chamber; 405. a screen cylinder; 406. helical leaves; 407. a driving wheel; 5. a feeding assembly; 501. a conveying motor; 502. a support; 503. a feed roller; 504. a conveyor belt; 505. a backing plate; 506. a strut; 507. a drive shaft; 508. a top plate; 509. clamping a plate; 510. and (4) receiving a material frame.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are provided to illustrate the invention but are not intended to limit the scope of the invention.

As shown in fig. 1 and fig. 2, a granulation device for granulated boric fertilizer comprises a chassis 1 and a granulation assembly 4, wherein the left side of the chassis 1 is provided with a mixing assembly 2 for mixing materials, the left side of the mixing assembly 2 is provided with a driving motor 3, the granulation assembly 4 for granulation is arranged below the mixing assembly, the granulation assembly 4 comprises a granulation bin 401, a feed inlet 402, a feed hopper 403, a granulation cavity 404, a screen cylinder 405, a spiral blade 406 and a driving wheel 407, the feed inlet 402 is arranged above the granulation bin 401, the feed hopper 403 is fixedly connected above the feed inlet 402, the granulation cavity 404 is arranged in the granulation bin 401, the screen cylinder 405 is symmetrically and rotatably connected with the front side and the rear side in the granulation cavity 404, the spiral blade 406 is fixedly connected with the inner wall of the screen cylinder 405, the driving wheel 407 is fixedly connected with a sleeve rotating shaft at the left side of the screen cylinder 405, the right wall of the granulation bin 401 is attached to the screen cylinder 405, and the surface of the sieve cylinder 405 is provided with sieve pores, the driving motor 3 forms a transmission structure with the driving wheel 407 on the front side of the granulating bin 401 through a belt and a belt pulley, the driving wheels 407 are meshed with each other, through the arrangement of the granulating component 4, after the uniformly mixed material leaves the mixing bin 201, the uniformly mixed material can enter the granulating cavity 404 through the feed inlet 402 from the feed hopper 403, the driving motor 3 drives the sieve cylinder 405 to rotate oppositely in the granulating cavity 404 through the driving wheel 407, the material is extruded, the material enters the sieve cylinder 405 through the sieve pores on the surface of the sieve cylinder 405 in the extrusion process, the material is conveyed rightwards in the sieve cylinder 405 by the spiral blade 406 to leave the sieve cylinder 405, the material is molded through the rotation of the sieve cylinder 405, and the surface smoothness of particles is improved through the friction between the inner wall of the sieve cylinder 405 and the material.

As shown in fig. 1, the mixing assembly includes a mixing silo 201, a material receiving frame 510, a material outlet 203 and a stirring rod 204, a material inlet 202 is disposed above the mixing silo 201, the material outlet 203 is disposed below the mixing silo 201, the stirring rod 204 is rotatably connected to the mixing silo 201, and the stirring rod 204 is disposed three, the mixing assembly 2 further includes a stirring blade 205 and a driving wheel 206, the stirring rod 204 is fixedly connected to the stirring blade 205, the left end of the stirring rod 204 is fixedly connected to the driving wheel 206, the driving wheel 206 is engaged with the driving wheel 206, the driving wheel 206 and the driving motor 3 are fixedly connected to the middle portion of the mixing silo 201, the stirring blade 205 is spirally distributed on the surface of the stirring rod 204, and the spiral directions of the two adjacent stirring blades 205 are opposite, by setting the mixing assembly 2, after the raw material, the granulating agent and the water are added to the mixing silo 201 from the material inlet 202, the driving motor 3 drives the stirring rod 204 to rotate through the driving wheel 206, and the directions of the two adjacent stirring rods 204 are opposite, so that the stirring blades 205 sufficiently mix the material, and the mixed material can leave the mixing silo 201 from the material outlet 203.

As shown in fig. 1 and 3, a feeding assembly 5 for feeding is arranged on the right upper side of a chassis 1, the feeding assembly 5 comprises a conveying motor 501, supports 502, a feeding roller 503 and a conveying belt 504, the conveying motor 501 is fixedly connected to the right part of the upper surface of the chassis 1, four supports 502 are symmetrically and fixedly connected to the front side and the rear side of the right upper side of the chassis 1, the feeding roller 503 is rotatably connected between the front support 502 and the rear support 502, the conveying belt 504 is attached to the outer side of the feeding roller 503, the feeding roller 503 forms a transmission structure with the motor through a belt and a belt pulley, filter holes are formed in the surface of the conveying belt 504, the feeding assembly 5 further comprises a backing plate 505, support rods 506, a transmission shaft 507 and a top plate 508, a backing plate 505 is fixedly connected between the left support 502 and the right support 502, the support plate 505 is symmetrically and fixedly connected to the front side and the rear side of the backing plate 506, and the transmission shaft 507 is rotatably connected between the support rods 506, transmission shaft 507 surface symmetry fixedly connected with roof 508, transmission shaft 507 passes through the belt, the belt pulley constitutes transmission structure with feed roll 503, pay-off subassembly 5 still includes cardboard 509 and connects material frame 510, backing plate 505 left and right sides symmetry fixedly connected with cardboard 509, and be provided with between the cardboard 509 and connect material frame 510, setting through pay-off subassembly 5, the product leaves sieve section of thick bamboo 405 and falls back on conveyer belt 504, conveyer motor 501 accessible feed roll 503 drives conveyer belt 504 and removes, thereby carry the product right, and in transportation process, feed roll 503 can drive transmission shaft 507 and rotate on branch 506, thereby make roof 508 jack-up conveyer belt 504 repeatedly, make the material vibrations, thereby the powder that does not become the granule that smugglies in the product falls down through the filtration pore on conveyer belt 504 surface and gets into in connecing material frame 510.

In summary, when the granulation apparatus for boric fertilizer granules is used, according to the structure shown in fig. 1, fig. 2 and fig. 3, firstly, raw materials, granulating agents and water are added into the mixing bin 201 from the feeding port 202, the driving motor 3 drives the stirring rods 204 to rotate through the driving wheel 206, and the rotation directions of the two adjacent stirring rods 204 are opposite, so that the stirring blades 205 fully mix the materials, the mixed materials can leave the mixing bin 201 from the discharging port 203, the uniformly mixed materials enter the granulation chamber 404 from the feeding hopper 403 through the feeding port 402, the driving motor 3 drives the sieve drum 405 to rotate oppositely in the granulation chamber 404 through the driving wheel 407, the materials are extruded, and in the extrusion process, the materials enter the sieve drum 405 through the sieve holes on the surface of the sieve drum 405, the materials are conveyed to the right by the spiral blades 406 in the sieve drum 405 to leave the sieve drum 405, the materials are shaped through the rotation of the sieve drum 405, the surface smoothness of the particles is improved through the friction between the inner wall of the sieve drum 405 and the material, after the products leave the sieve drum 405 and fall onto the conveyer belt 504, the conveyer belt 501 can move through the conveyer belt 503 to drive the conveyer belt 503, so as to drive the conveyer belt 503 to rotate to drive the feeding roller 508 to lift the powder to repeatedly lift the powder falling onto the conveyer belt 510, thereby the powder on the conveyer belt 510, and the top plate 510, so as to lift the powder falling onto the conveyer belt 504, and to lift the powder, thereby the powder, and to lift the powder body 510, and to lift the powder.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to practitioners skilled in this art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides a granule boric fertilizer granulation equipment, includes chassis (1) and granulation subassembly (4), its characterized in that, chassis (1) left is provided with compounding subassembly (2) that are used for the mixing material, and compounding subassembly (2) left is provided with driving motor (3), is used for the granulation subassembly (4) set up in the mixing subassembly below, granulation subassembly (4) are including granulating storehouse (401), feed inlet (402), feeder hopper (403), granulation chamber (404), sieve section of thick bamboo (405), spiral leaf (406) and drive wheel (407), feed inlet (402) have been seted up to granulation storehouse (401) top, and feed inlet (402) top fixedly connected with feeder hopper (403), granulation chamber (404) have been seted up in granulation storehouse (401), and both sides symmetry rotates around in granulation chamber (404) and is connected with sieve section of thick bamboo (405), sieve section of thick bamboo (405) inner wall fixedly connected with spiral leaf (406), and sieve section of thick bamboo (405) left side sleeve pipe pivot fixedly connected with drive wheel (407), granulation storehouse (401) right wall and sieve section of thick bamboo (405) laminating, and sieve section of thick bamboo (405) surface have seted up sieve mesh (405).

2. The equipment for granulating the granulated boric fertilizer as claimed in claim 1, wherein the driving motor (3) forms a transmission structure with a transmission wheel (407) at the front side of the granulating bin (401) through a belt and a belt pulley, and the transmission wheels (407) are meshed with each other.

3. The equipment for granulating the granulated boric fertilizer as claimed in claim 1, wherein the mixing assembly comprises a mixing bin (201), a feeding port (202), a discharging port (203) and stirring rods (204), the feeding port (202) is formed above the mixing bin (201), the discharging port (203) is formed below the mixing bin (201), the stirring rods (204) are rotatably connected in the mixing bin (201), and the number of the stirring rods (204) is three.

4. The particle boric fertilizer granulation equipment according to claim 3, wherein the mixing component (2) further comprises a stirring blade (205) and a driving wheel (206), the surface of the stirring rod (204) is fixedly connected with the stirring blade (205), the left end of the stirring rod (204) is fixedly connected with the driving wheel (206), the driving wheels (206) are meshed with each other, the driving wheel (206) in the middle of the mixing bin (201) is fixedly connected with the driving motor (3), the stirring blades (205) are spirally distributed on the surface of the stirring rod (204), and the spiral directions of two adjacent stirring blades (205) are opposite.

5. The particle boric fertilizer granulating equipment according to claim 1, wherein a feeding component (5) for feeding is arranged on the upper right side of the chassis (1), the feeding component (5) comprises a conveying motor (501), supports (502), a feeding roller (503) and a conveying belt (504), the conveying motor (501) is fixedly connected to the right part of the upper surface of the chassis (1), the four supports (502) are symmetrically and fixedly connected to the front side and the rear side of the upper right side of the chassis (1), the feeding roller (503) is rotatably connected between the front support and the rear support (502), the conveying belt (504) is attached to the outer side of the feeding roller (503), the feeding roller (503) and the motor form a transmission structure through a belt and a belt pulley, and filter holes are formed in the surface of the conveying belt (504).

6. The equipment for granulating the granular boron fertilizer as claimed in claim 5, wherein the feeding assembly (5) further comprises a backing plate (505), supporting rods (506), a transmission shaft (507) and a top plate (508), the backing plate (505) is fixedly connected between the brackets (502) on the left side and the right side, the supporting rods (506) are symmetrically and fixedly connected to the front side and the rear side of the backing plate (505), the transmission shaft (507) is rotatably connected between the supporting rods (506), the top plate (508) is symmetrically and fixedly connected to the surface of the transmission shaft (507), and the transmission shaft (507) and the feeding roller (503) form a transmission structure through a belt, a belt pulley and the like.

7. The equipment for granulating a granular boric fertilizer as claimed in claim 6, wherein said feeding assembly (5) further comprises a clamping plate (509) and a material receiving frame (510), the clamping plate (509) is symmetrically and fixedly connected to the left and right sides of said backing plate (505), and the material receiving frame (510) is arranged between the clamping plates (509).

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