CN220030829U

CN220030829U - Granulator for producing cable materials

Info

Publication number: CN220030829U
Application number: CN202320970493.6U
Authority: CN
Inventors: 魏贺君
Original assignee: Cangzhou Liankong New Material Co ltd
Current assignee: Cangzhou Liankong New Material Co ltd
Priority date: 2023-04-26
Filing date: 2023-04-26
Publication date: 2023-11-17
Anticipated expiration: 2033-04-26

Abstract

The utility model discloses a granulator for producing cable materials, which comprises a base, a support frame, a machine barrel and a feed hopper, wherein the support frame is arranged at the upper end of the base, the machine barrel is arranged at the upper end of the support frame, the feed hopper is arranged at the upper end of the machine barrel, and a feed component which is used for preventing dust from penetrating the feed hopper of the granulator for producing cable materials is arranged on the feed hopper, and relates to the technical field of the granulator: the feeding hopper of the granulator for producing the cable materials is provided with the guide cylinder, the vibrator and the feeding pipe, so that the cable materials are guided into the feeding hopper in a sealing way and vibrated by the vibrator, dust in the cable materials is prevented from leaking out, and the feeding hopper is prevented from being blocked; through setting up screening subassembly to the granulator discharge end, the granule material passes through the screening of conical screen board, promotes the material through the push pedal and removes, not only avoids the sieve mesh of conical screen board to block up, still improves conical screen board's screening efficiency.

Description

Granulator for producing cable materials

Technical Field

The utility model relates to the field of a granulator, in particular to a granulator for producing cable materials.

Background

The screw granulator is a forming machine capable of manufacturing materials into specific shapes, the existing wire and cable materials are mostly made of PVC materials, in the wire and cable material processing, the granulating processing of the PVC materials is one of important production links, but when the produced cable materials enter the granulator through a feed hopper, dust exists in the cable materials, the dust easily pollutes workshop environment, and after the cable materials are granulated, the particles with different sizes need to be screened, in the screening process, the sieve holes on a sieve plate are easily blocked by the particles, so that the screening efficiency is reduced;

therefore, it is necessary to invent a granulator for producing a cable material.

Disclosure of Invention

The present utility model aims to provide a granulator for producing cable materials, which solves the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a granulator of production cable material, includes frame, support frame, barrel and feeder hopper, the support frame is installed to the upper end of frame, the barrel is installed to the support frame upper end, the feeder hopper is installed to the barrel upper end, is provided with the feeding subassembly that prevents the dust diffuse to the feeder hopper of production cable material granulator on the feeder hopper, and the right-hand member of barrel is provided with screening subassembly, and it can be to the screening subassembly of screening behind the production cable material granulation.

In a preferred embodiment of the utility model, the feeding assembly comprises a guide cylinder, a connecting ring and a feeding pipe, wherein the guide cylinder is clamped at the upper end of the feeding hopper and then fixed through a bolt, the connecting ring is fixedly arranged at the upper end of the guide cylinder, and the feeding pipe is arranged on the outer wall of the connecting ring through a bolt.

In a preferred embodiment of the present utility model, a first support plate is mounted at the lower end of the guide cylinder, and a vibrator is mounted on the first support plate.

In a preferred embodiment of the utility model, an observation port is arranged at the upper end of the feeding pipe, and a connecting port is arranged at the left end of the feeding pipe.

In a preferred embodiment of the present utility model, the screening assembly includes a support base, a first particle screening cylinder and a second particle screening cylinder, the support base is mounted at the right end of the housing, and the first particle screening cylinder and the second particle screening cylinder are mounted at the upper end of the support base, respectively.

In a preferred embodiment of the present utility model, a conical screen plate is installed in the second particle screening cylinder, a connecting shaft is rotatably installed at the upper end of the conical screen plate, a motor is installed in the lower end of the conical screen plate, and the output end of the motor is connected with the connecting shaft.

In a preferred embodiment of the utility model, the side walls of the connecting shaft are symmetrically provided with supporting rods, and the lower ends of the supporting rods are provided with pushing plates.

In a preferred embodiment of the present utility model, a telescopic rod is installed on the right side of the first particle screening cylinder, a baffle is installed at the output end of the telescopic rod, and the baffle is blocked at the right end of the second particle screening cylinder.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

The beneficial effects are that:

the feeding hopper of the granulator for producing the cable materials is provided with the guide cylinder, the vibrator and the feeding pipe, so that the cable materials are guided into the feeding hopper in a sealing way and vibrated by the vibrator, dust in the cable materials is prevented from leaking out, and the feeding hopper is prevented from being blocked; through setting up screening subassembly to the granulator discharge end, the granule material passes through the screening of conical screen board, promotes the material through the push pedal and removes, not only avoids the sieve mesh of conical screen board to block up, still improves conical screen board's screening efficiency.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a block diagram of a pelletizer for producing cable material;

FIG. 2 is a block diagram of the feed assembly of a pelletizer for producing cable material;

FIG. 3 is a schematic view of a guide cylinder in a pelletizer for producing cable material;

FIG. 4 is a block diagram of a screen assembly in a pelletizer for producing cable material;

fig. 5 is a schematic illustration of a push plate installation in a pelletizer for producing cable material.

In the figure: the device comprises a base 1, a support frame 11, a machine barrel 12, a feed hopper 13, a feeding component 2, a guide cylinder 21, a first support plate 22, a vibrator 23, a connecting ring 24, a feed pipe 25, an observation port 26, a connecting port 27, a screening component 3, a support seat 31, a first particle screening cylinder 32, a second particle screening cylinder 33, a conical screen plate 34, a motor 35, a connecting shaft 351, a support rod 36, a push plate 37, a telescopic rod 38 and a baffle 381.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

Example 1: as shown in figures 1-3 of the drawings,

the device comprises a machine base 1, a support frame 11, a machine barrel 12 and a feed hopper 13, wherein the support frame 11 is installed at the upper end of the machine base 1, the machine barrel 12 is installed at the upper end of the support frame 11, the feed hopper 13 is installed at the upper end of the machine barrel 12, cable materials are granulated and produced through the machine barrel 12, the cable materials enter the machine barrel 12 through the feed hopper 13, a feeding component 2 which is used for preventing dust from diffusing into the feed hopper 13 of a production cable material granulator is arranged on the feed hopper 13, and a screening component 3 which can screen the produced cable materials after granulation is arranged at the right end of the machine barrel 12;

the feeding assembly 2 comprises a guide cylinder 21, a connecting ring 24 and a feeding pipe 25, wherein the guide cylinder 21 is clamped at the upper end of the feeding hopper 13 and then is fixed through bolts, the guide cylinder 21 is used for guiding cable materials in the feeding pipe 25 into the feeding hopper 13, the connecting ring 24 is fixedly arranged at the upper end of the guide cylinder 21, the connecting ring 24 is used for fixedly connecting the feeding pipe 25, the feeding pipe 25 is arranged on the outer wall of the connecting ring 24 through bolts, the cable materials enter the feeding hopper 13 through the feeding pipe 25, dust in the cable materials is prevented from diffusing and polluting a workshop, a first supporting plate 22 is arranged at the lower end of the guide cylinder 21, the first supporting plate 22 is used for supporting a vibrator 23, the vibrator 23 is arranged on the first supporting plate 22, the vibrator 23 is used for vibrating the first supporting plate 22 and the guide cylinder 21, blanking is facilitated in the guide cylinder 21, blocking is prevented, an observation port 26 is arranged at the upper end of the feeding pipe 25, the upper end of the feeding pipe 25 can be observed through opening a cover at the upper end of the observation port 26, the condition in the feeding pipe 25 and the feeding hopper 13 can be observed, a connecting port 27 is arranged at the left end of the connection port 27, the cable materials conveying device is externally connected to the connection port 27, and the cable materials are input into the feeding pipe 25;

the external cable material conveyor of connector 27 inputs cable material to inlet pipe 25 in, through opening the lid of viewing aperture 26 upper end, can observe the condition in inlet pipe 25 and the feeder hopper 13, and cable material in the inlet pipe 25 falls into in the guide cylinder 21, and in the guide cylinder 21 led the cable material in the inlet pipe 25 to get into the feeder hopper 13, vibrator 23 vibrate backup pad one 22 and guide cylinder 21, makes the convenient blanking in the guide cylinder 21, prevents to block up, and the material in the feeder hopper 13 falls into barrel 12 again.

Example 2: as shown in figures 1, 4 and 5,

the screening assembly 3 comprises a supporting seat 31, a first particle screening cylinder 32 and a second particle screening cylinder 33, the supporting seat 31 is arranged at the right end of the machine base 1, the first particle screening cylinder 32 and the second particle screening cylinder 33 are respectively arranged at the upper end of the supporting seat 31, the inside of the second particle screening cylinder 33 is used for screening large particles produced in the machine barrel 12 and placing small particle materials, the first particle screening cylinder 32 is used for placing large particle materials, a conical screen plate 34 is arranged in the inside of the second particle screening cylinder 33, the conical screen plate 34 is used for screening the large particles, a connecting shaft 351 is rotatably arranged at the upper end of the conical screen plate 34, the connecting shaft 351 rotates to drive a supporting rod 36 and a push plate 37 to rotate, a motor 35 is arranged in the lower end of the conical screen plate 34, the output end of the motor 35 is connected with the connecting shaft 351, the motor 35 drives the connecting shaft 351 to rotate, the supporting rods 36 are symmetrically arranged on the side wall of the connecting shaft 351, the supporting rods 36 are used for supporting the pushing plates 37 to be installed, the pushing plates 37 are arranged at the lower ends of the supporting rods 36, the pushing plates 37 rotate and push the particle materials at the upper ends of the conical sieve plates 34 to be sieved, the sieve holes of the conical sieve plates 34 are prevented from being blocked, the telescopic rod 38 is arranged at the right side of the first particle sieving cylinder 32, the telescopic rod 38 is used for pushing the baffle 381, the baffle 381 is arranged at the output end of the telescopic rod 38, the baffle 381 is blocked at the right end of the second particle sieving cylinder 33, and the large particle materials in the second particle sieving cylinder 33 are controlled to be discharged into the first particle sieving cylinder 32 through the baffle 381;

the big and small particles produced in the machine barrel 12 enter the second particle screening barrel 33, the motor 35 drives the connecting shaft 351 to rotate, the connecting shaft 351 drives the supporting rod 36 and the push plate 37 to rotate, the push plate 37 rotates to push the particle materials at the upper end of the conical screen plate 34, the particle materials are moved, the blocking of sieve holes of the conical screen plate 34 is avoided, the big and small particles are screened through the conical screen plate 34, the small particles fall into the second particle screening barrel 33, the telescopic rod 38 pulls the baffle 381, and the big particle materials are discharged into the first particle screening barrel 32.

The working principle of the utility model is as follows: the external cable material conveyor of connector 27, input cable material to the inlet pipe 25, through opening the lid of viewing aperture 26 upper end, can observe the condition in inlet pipe 25 and the feeder hopper 13, cable material in the inlet pipe 25 falls into guide cylinder 21, guide cylinder 21 is in the cable material guide entering feeder hopper 13 in the inlet pipe 25, the vibrator 23 vibrates backup pad one 22 and guide cylinder 21, make the convenient blanking in the guide cylinder 21, prevent to block up, the material in the feeder hopper 13 falls into barrel 12 again, the speed reducer is connected to the motor of frame 1 upper end, the speed reducer is connected to barrel 12, the inside processing of barrel 12 produces the granule to cable material, the big or small granule that produces in the barrel 12 gets into in granule screening section of thick bamboo two 33, motor 35 drives connecting axle 351 and rotates, connecting axle 351 drives bracing piece 36 and push pedal 37 and rotates, push pedal 37 rotates, granule material promotion on the conical screen plate 34 upper end, make granule material remove, avoid the sieve mesh jam of conical screen plate 34, screen size granule screening 381 falls into granule screening section of thick bamboo two 33, telescopic link 38 pulls the baffle, granule screening 32 is sieved in the granule screening barrel 32.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims

1. The granulator for producing cable materials comprises a machine base (1), a support frame (11), a machine barrel (12) and a feed hopper (13), wherein the support frame (11) is arranged at the upper end of the machine base (1), the machine barrel (12) is arranged at the upper end of the support frame (11), the feed hopper (13) is arranged at the upper end of the machine barrel (12),

the feeding hopper (13) is provided with a feeding component (2) for preventing dust from diffusing into the feeding hopper (13) of the production cable material granulator, and the right end of the machine barrel (12) is provided with a screening component (3) which can screen the screening component (3) after granulating the production cable material.

2. A granulator for the production of cable materials according to claim 1, characterized in that the feed assembly (2) comprises a guide cylinder (21), a connecting ring (24) and a feed pipe (25), the guide cylinder (21) being clamped at the upper end of the feed hopper (13) and then being fixed by means of bolts, the connecting ring (24) being fixedly mounted at the upper end of the guide cylinder (21), the outer wall of the connecting ring (24) being provided with the feed pipe (25) by means of bolts.

3. A granulator for the production of cable materials according to claim 2, characterized in that the lower end of the guide cylinder (21) is provided with a first support plate (22), and in that the first support plate (22) is provided with a vibrator (23).

4. A granulator for the production of cable materials according to claim 2, characterized in that the upper end of the feed pipe (25) is provided with an observation port (26), and the left end of the feed pipe (25) is provided with a connection port (27).

5. A granulator for the production of cable material according to claim 1, characterized in that the screening assembly (3) comprises a support seat (31), a first particle screening cylinder (32) and a second particle screening cylinder (33), the support seat (31) being mounted at the right end of the housing (1), the first particle screening cylinder (32) and the second particle screening cylinder (33) being mounted at the upper end of the support seat (31), respectively.

6. The granulator for producing cable materials according to claim 5, characterized in that the inside of the second particle screening cylinder (33) is provided with a conical screen plate (34), the upper end of the conical screen plate (34) is rotatably provided with a connecting shaft (351), the lower end of the conical screen plate (34) is internally provided with a motor (35), and the output end of the motor (35) is connected with the connecting shaft (351).

7. A granulator for producing cable materials according to claim 6, characterized in that the side walls of the connecting shaft (351) are symmetrically provided with support bars (36), the lower ends of the support bars (36) being provided with push plates (37).

8. The granulator for producing cable materials according to claim 5, characterized in that a telescopic rod (38) is mounted on the right side of the first particle screening cylinder (32), a baffle (381) is mounted at the output end of the telescopic rod (38), and the baffle (381) is blocked on the right end of the second particle screening cylinder (33).