CN-224207943-U - Discharge mechanism for granulating machine granulation processing

Abstract

The utility model belongs to the technical field of discharging mechanisms, in particular to a discharging mechanism for granulating and processing of a granulator, which comprises a concave seat, wherein a pair of supporting plates are fixedly connected to the vertical top of the concave seat, a granulator body is fixedly connected to the tops of the pair of supporting plates, a discharging pipe is arranged at the bottom of the granulator body, a discharging mechanism is arranged between the opposite side walls of the pair of supporting plates, the discharging mechanism comprises a screening assembly, a screening bucket is fixedly connected between the opposite side walls of the pair of sliding rods, and the screening bucket comprises a pair of sliding rods which are connected with the supporting plates in a sliding manner through a pair of sliding holes, and screening holes are uniformly distributed in the screening bucket, so that the problem that the discharging mechanism of the traditional granulator cannot screen a finished product, so that crushed slag and qualified particles generated in the production process are discharged together and packaged, the purity and quality of the finished product are seriously influenced, the difficulty and the cost of a subsequent screening process are increased, and the production efficiency is reduced, and the requirement of high-quality production cannot be met is solved.

Inventors

• ZHANG YUEXIANG

Assignees

• 南京特塑科技有限公司

Dates

Publication Date

20260508

Application Date

20250603

Claims (6)

1. 1. The discharging mechanism for the granulating processing of the granulator comprises a concave seat (1), wherein a pair of supporting plates (2) are fixedly connected to the vertical top of the concave seat (1), a pair of granulator bodies (3) are fixedly connected to the tops of the supporting plates (2), and discharging pipes (4) are arranged at the bottoms of the granulator bodies (3), and the discharging mechanism is characterized in that a discharging mechanism is arranged between the opposite side walls of the pair of supporting plates (2) and comprises: The screening assembly comprises a pair of sliding rods (5) which are slidably connected through a pair of sliding holes on a supporting plate (2), a group of screening hoppers (6) are fixedly connected between opposite side walls of the sliding rods (5), screening holes (7) which are uniformly distributed are formed in the screening hoppers (6), and a driving assembly for driving the screening hoppers (6) to shake is arranged on a granulator body (3); And the recovery component is arranged between the opposite side walls of the concave seat (1) and is used for recovering residues.
2. 2. The discharging mechanism for granulation processing of the granulator according to claim 1, wherein the driving assembly comprises a motor (8) fixedly connected to the outer circular wall of the granulator through a second fixing block, a Z-shaped rod (9) is arranged at the output end of the motor (8), a first rectangular block (10) is fixedly connected to the side wall of the sieve bucket (6), an equal waist groove (11) is formed in the first rectangular block (10), and the bottom end of the Z-shaped rod (9) is slidably connected to the isosceles groove (11).
3. 3. The discharging mechanism for granulation processing of the granulator according to claim 2, wherein the recycling assembly comprises a collecting hopper (12) fixedly connected to the bottom of the sieve hopper (6), a collecting box (13) is fixedly connected between the opposite side walls of the concave seat (1) through a pair of first fixing blocks, and a second rectangular block (14) is fixedly connected to the collecting box (13).
4. 4. The discharging mechanism for granulation processing of the granulator is characterized in that a first conveying pipe (15) is fixedly connected to the side wall of the second rectangular block (14), the bottom of the first conveying pipe (15) is located in the collecting box (13), a second conveying pipe (16) is communicated with the first conveying pipe (15), one end of the second conveying pipe (16) is obliquely arranged towards the top of the granulator body (3), a first rotating rod (17) is rotatably connected to the inner top wall of the first conveying pipe (15), the top of the first rotating rod (17) penetrates through the top of the first conveying pipe (15), and a packing auger (18) is fixedly connected to the first rotating rod (17).
5. 5. The discharging mechanism for granulation processing of the granulator according to claim 4, wherein a first gear (19) is fixedly connected to the top of the first rotating rod (17), a first synchronous wheel (20) is fixedly connected to the Z-shaped rod (9), a third rectangular block (21) is fixedly connected to the first conveying pipe (15), a second rotating rod (25) is rotatably connected to the third rectangular block (21) through a rotating hole, and the bottom of the second rotating rod (25) is rotatably connected to the top of the second rectangular block (14).
6. 6. The discharging mechanism for granulation processing of a granulator according to claim 5, wherein the second rotating rod (25) is fixedly connected with a second synchronizing wheel (22), the first synchronizing wheel (20) is in transmission connection with the second synchronizing wheel (22) through a synchronous belt (23), a second gear (24) is fixedly connected to the bottom of the second rotating rod (25), and the second gear (24) is in meshed connection with the first gear (19).

Description

Discharge mechanism for granulating machine granulation processing Technical Field The utility model belongs to the technical field of discharge mechanisms, and particularly relates to a discharge mechanism for granulation processing of a granulator. Background The granulator is a device for processing materials into granules and is widely applied to the industries of chemical industry, chemical fertilizer, medicine, food and the like. The materials are formed into particles by extrusion, shearing, rolling and other modes. Common types include drum granulators, rotary drum granulators, disk granulators, and the like. The working principle is that the mixed materials are sent into a granulator, and the materials are coagulated into particles under specific process conditions. The granulator can improve the fluidity of materials, is convenient for storage and transportation, and is also beneficial to subsequent processing. In the prior art, the discharging mechanism of the traditional granulator cannot screen finished products, so that the slag generated in the production process is discharged and packaged together with qualified particles, the purity and quality of the finished products are seriously affected, the difficulty and cost of the subsequent screening process are increased, the production efficiency is reduced, and the requirement of high-quality production cannot be met. The utility model provides a discharge mechanism for granulating machine granulation processing. Disclosure of utility model In order to make up the deficiency of the prior art, the discharging mechanism of the traditional granulator is not capable of screening finished products, so that the slag generated in the production process is discharged and packaged together with qualified particles, the purity and quality of the finished products are seriously affected, the difficulty and cost of the subsequent screening process are increased, the production efficiency is reduced, and the requirement of high-quality production cannot be met. The utility model solves the technical problems by adopting the technical scheme that the discharging mechanism for the granulating processing of the granulator comprises a concave seat, wherein a pair of support plates are fixedly connected to the vertical top of the concave seat, a granulator body is fixedly connected to the tops of the pair of support plates, a discharging pipe is arranged at the bottom of the granulator body, a discharging mechanism is arranged between the opposite side walls of the pair of support plates, and the discharging mechanism comprises: The screening assembly comprises a pair of sliding rods which are slidably connected through a pair of sliding holes on a supporting plate, a group of screening hoppers are fixedly connected between the opposite side walls of the sliding rods, screening holes which are uniformly distributed are formed in the screening hoppers, and a driving assembly for driving the screening hoppers to shake is arranged on the granulator body; and the recovery component is arranged between the opposite side walls of the concave seat and used for recovering residues. Preferably, the driving assembly comprises a motor fixedly connected with the outer circular wall of the granulator through a second fixing block, a Z-shaped rod is arranged at the output end of the motor, a first rectangular block is fixedly connected with the side wall of the sieve bucket, an equal waist groove is formed in the first rectangular block, and the bottom end of the Z-shaped rod is slidably connected in the isosceles groove. Preferably, the recovery assembly comprises a collecting hopper fixedly connected with the bottom of the screening hopper, a collecting box is fixedly connected between the opposite side walls of the concave seat through a pair of first fixing blocks, and a second rectangular block is fixedly connected on the collecting box. Preferably, the side wall of the second rectangular block is fixedly connected with a first conveying pipe, the bottom of the first conveying pipe is located in the collecting box, a second conveying pipe is communicated with the first conveying pipe, one end of the second conveying pipe is obliquely arranged towards the top of the granulator body, a first rotating rod is connected to the inner top wall of the first conveying pipe in a rotating mode, the top of the first rotating rod penetrates through the top of the first conveying pipe, and an auger is fixedly connected to the first rotating rod. Preferably, the top of the first rotating rod is fixedly connected with a first gear, the Z-shaped rod is fixedly connected with a first synchronous wheel, the first conveying pipe is fixedly connected with a third rectangular block, the third rectangular block is rotatably connected with a second rotating rod through a rotating hole, and the bottom of the second rotating rod is rotatably connected to the top of the second rectangular block. P