CN222039265U - Polyethylene cable material multi-stage drying vibrating screen - Google Patents

Abstract

The utility model relates to the field of cable material processing equipment, specifically a multi-stage drying vibration screen for polyethylene cable material, including a processing bin and a spherical mesh body arranged in the processing bin, the spherical mesh body is provided with a material inlet, the left end of the spherical mesh body is rotatably and slidably connected with the processing bin through a first rotating shaft, the right end of the spherical mesh body is rotatably and slidably connected with the processing bin through a second rotating shaft, the first rotating shaft and the second rotating shaft are both sleeved with springs, the processing bin is fixedly mounted with a first motor and a second motor, the end of the first rotating shaft is a multi-prism structure, the output shaft of the first motor is provided with a polygonal hole adapted to the multi-prism structure, the second rotating shaft is provided with a driving block, and the output shaft of the second motor is fixed with a cam corresponding to the position of the driving block. The utility model can effectively accelerate the filtering process of polyethylene cable material in the spherical mesh body by combining rotation and vibration, thereby improving production efficiency.

Description

Multi-stage drying vibrating screen for polyethylene cable material

Technical Field

The utility model relates to the field of cable material processing equipment, in particular to a polyethylene cable material multistage drying vibrating screen.

Background

In the production process of polyethylene cable material, raw materials are often doped with impurities and dust, and if the impurities are not effectively removed, the impurities directly affect the quality and performance of the cable material. Therefore, it is often necessary to filter the cable material using multiple screen plates to remove impurities therefrom.

Some existing filtering devices, such as China patent publication No. CN211279326U, disclose a multi-layer drying vibrating screen for silane crosslinked polyethylene cable materials, which filters and screens the cable materials in a tank body through the cooperation of three screen plates, so that impurities in the cable materials are removed. However, the multilayer drying vibrating screen has some defects in the actual use process, specifically, the existing three screen plates can only vibrate up and down, the screening effect is limited, and the thorough impurity removal can be realized only by long-time screening. This not only reduces production efficiency but also increases energy consumption and maintenance costs. Aiming at the problems, the utility model provides a polyethylene cable material multistage drying vibrating screen with higher screening efficiency.

Disclosure of utility model

The utility model aims to provide a multi-stage drying vibrating screen for polyethylene cable materials, which is used for solving the problems in the background technology.

The utility model is realized by the following technical scheme:

The utility model provides a multistage dry shale shaker of polyethylene cable material, including the processing storehouse with arrange in spherical dictyosome in the processing storehouse, link up on the lateral wall of spherical dictyosome and be provided with the pan feeding mouth, the left end of spherical dictyosome through first pivot with processing storehouse rotates and sliding connection, the right-hand member of spherical dictyosome through a second pivot with processing storehouse rotates and sliding connection, be located the spherical dictyosome with all overlap in the first pivot between the processing storehouse with all be equipped with the spring in the second pivot, fixed mounting has first motor and second motor on the processing storehouse, first pivot tip is the polygon prism structure, be provided with on the output shaft of first motor with polygon hole of polygon prism structure looks adaptation, be provided with the drive block in the second pivot, be fixed with on the output shaft of second motor with the cam that the drive block position corresponds.

Optionally, the position of the processing bin corresponding to the feeding hole on the spherical net body is movably penetrated with a feeding nozzle, one end of the feeding nozzle inserted into the processing bin is provided with a first magnet, the material of the feeding hole on the spherical net body is iron, and a second magnet is fixedly arranged on the processing bin.

Optionally, a discharge nozzle is arranged at a position of the processing bin corresponding to the feeding hole on the spherical net body, the discharge nozzle and the feeding nozzle are arranged on the same side of the processing bin, and the discharge nozzle extends towards the inside of the processing bin.

Optionally, a drying fan is installed at the top in the processing bin, and one surface of the drying fan, which is exhausted, faces the spherical net body.

Optionally, the multistage dry shale shaker of polyethylene cable material still includes base and angle adjusting device, processing storehouse bottom left side with the base rotates to be connected, angle adjusting device includes electric putter and connecting rod, electric putter installs the base with between the processing storehouse, the one end of connecting rod with electric putter's output shaft rotates to be connected, the other end of connecting rod with the right side of processing storehouse bottom rotates to be connected.

Optionally, the bottom of processing storehouse is provided with the aggregate tank of drawable, the protruding spacing arch that is equipped with on the inner wall of aggregate tank, the plane cell body of shelving on the spacing arch, the mesh of plane cell body is less than the mesh of spherical cell body.

Compared with the prior art, the utility model provides a polyethylene cable material multistage drying vibrating screen, which has the following beneficial effects:

In the utility model, a first motor drives a spherical net body to rotate around a first rotating shaft; meanwhile, the second motor enables the spherical net body to generate left and right reciprocating vibration through the synergistic effect of the cam and the driving block. The mode of combining rotation and vibration can effectively accelerate the filtration process of polyethylene cable materials in the spherical net body, thereby improving the production efficiency;

According to the utility model, the feeding nozzle, the first magnet and the second magnet are arranged, and iron is adopted as the material of the feeding port on the spherical net body. The feeding nozzle and the feeding port can be conveniently butted and communicated, so that polyethylene cable materials can be conveniently added into the spherical net body, and in addition, after the feeding is finished, the feeding nozzle can be firmly fixed on the processing bin through the first magnet and the second magnet, so that an avoidance space is provided for rotation of the spherical net body;

According to the utility model, the collecting tank and the plane net body are arranged, so that polyethylene cable materials preliminarily filtered by the spherical net body fall down and then fall onto the plane net body in the collecting tank, and the plane net body can carry out secondary filtration on the polyethylene cable materials, thereby realizing fine screening on the polyethylene cable materials.

Drawings

FIG. 1 is a schematic diagram of a structure of a butt joint state of a feeding mouth and a feeding mouth of the utility model;

FIG. 2 is a schematic diagram of a structure of the utility model in which a feed nozzle and a feed inlet are separated;

Fig. 3 is a schematic structural view of the feed inlet of the present utility model rotated below the spherical net body.

In the figure: 1. a processing bin; 2. a spherical net body; 200. a feed inlet; 201. an end plate; 202. a mesh structure; 3. a first rotating shaft; 300. a polygonal column structure; 4. a second rotating shaft; 5. a spring; 6. a first motor; 600. polygonal holes; 7. a second motor; 8. a driving block; 9. a cam; 10. a feed nozzle; 11. a first magnet; 12. a second magnet; 13. a discharge nozzle; 14. a drying fan; 15. a base; 16. an electric push rod; 17. a connecting rod; 18. a first pin; 19. a second pin; 20. a third pin; 21. a material collecting groove; 22. a limit protrusion; 23. a planar net body.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples: referring to fig. 1 to 3, according to an embodiment of the present utility model, a multi-stage drying and vibrating screen for polyethylene cable materials is provided, which includes a processing bin 1 and a spherical net body 2 disposed in the processing bin 1, wherein a feeding port 200 is disposed on a side wall of the spherical net body 2 in a penetrating manner, a left end of the spherical net body 2 is rotatably and slidably connected with the processing bin 1 through a first rotating shaft 3, a right end of the spherical net body 2 is rotatably and slidably connected with the processing bin 1 through a second rotating shaft 4, springs 5 are respectively sleeved on the first rotating shaft 3 and the second rotating shaft 4 between the spherical net body 2 and the processing bin 1, a first motor 6 and a second motor 7 are fixedly mounted on the processing bin 1, a polygonal structure 300 is disposed at an end of the first rotating shaft 3, a driving block 8 is disposed on the second rotating shaft 4, and a cam 9 corresponding to the driving block 8 is fixed on an output shaft of the second motor 7.

The polyethylene cable material multistage drying vibrating screen adopting the structure is characterized in that the polyethylene cable material is added into the spherical screen body 2 through the feeding port 200, then, the first motor 6 is enabled to drive the spherical screen body 2 to rotate around the first rotating shaft 3, the second motor 7 is enabled to drive the spherical screen body 2 to vibrate left and right back and forth through the cooperation of the cam 9 and the driving block 8, so that the polyethylene cable material in the spherical screen body 2 is subjected to vibration filtration, and the dual functions of rotation and left and right vibration of the spherical screen body 2 can accelerate the filtration speed of the polyethylene cable material, and the production efficiency is improved.

Preferably, the left end and the right end of the spherical net body 2 are spherical shell-shaped plates, the middle part of the spherical net body 2 is a net structure 202, the feeding hole 200 is arranged on the end plates 201 of the spherical net body 2, and the two end plates 201 of the spherical net body 2 are respectively connected with the processing bin 1 in a rotating and sliding manner through a first rotating shaft 3 and a second rotating shaft 4.

In order to facilitate adding the polyethylene cable material into the spherical net body 2, in this exemplary embodiment, a feeding nozzle 10 is movably penetrated at a position of the processing bin 1 corresponding to the feeding opening 200 on the spherical net body 2, one end of the feeding nozzle 10 inserted into the processing bin 1 is provided with a first magnet 11, the feeding opening 200 on the spherical net body 2 is made of iron, and a second magnet 12 is fixedly arranged on the processing bin 1. When the polyethylene cable material is required to be added into the spherical net body 2, the feeding nozzle 10 is inserted into the spherical net body 2 until the first magnet 11 on the feeding nozzle 10 is adsorbed on the feeding port 200 of the spherical net body 2, the feeding nozzle 10 is in butt joint and communication with the feeding port 200, the polyethylene cable material can be added into the spherical net body 2 through the feeding nozzle 10 outside the processing bin 1, after the feeding is completed, the feeding nozzle 10 is pulled out, the first magnet 11 on the feeding nozzle 10 is adsorbed on the second magnet 12 of the processing bin 1, and thus the feeding nozzle 10 can be stably fixed on the processing bin 1, and a avoiding space is provided for the rotation of the spherical net body 2.

In the present exemplary embodiment, the processing bin 1 is provided with a discharge nozzle 13 corresponding to the position of the feed inlet 200 on the spherical mesh body 2, the discharge nozzle 13 and the feed nozzle 10 are disposed on the same side of the processing bin 1, and the discharge nozzle 13 extends into the processing bin 1. In the rotation process of the spherical net body 2, polyethylene cable materials leak out of meshes of the spherical net body 2, impurities in the polyethylene cable materials are trapped in the spherical net body 2, and along with the increase of the impurities, when the feeding nozzle 10 moves to the lower side of the spherical net body 2, redundant impurities are discharged through the feeding nozzle 10 and then discharged from the processing bin 1 through the discharging nozzle 13, so that the impurities are discharged.

In order to better promote the discharge and exhaustion of impurities in the spherical net body 2, in the present exemplary embodiment, the multi-stage drying and vibrating screen for polyethylene cable materials further comprises a base 15 and an angle adjusting device, the left side of the bottom of the processing bin 1 is rotatably connected with the base 15 through a first pin shaft 18, the angle adjusting device comprises an electric push rod 16 and a connecting rod 17, the electric push rod 16 is installed between the base 15 and the processing bin 1, one end of the connecting rod 17 is rotatably connected with an output shaft of the electric push rod 16 through a second pin shaft 19, and the other end of the connecting rod 17 is rotatably connected with the right side of the bottom of the processing bin 1 through a third pin shaft 20. When the impurities in the spherical net body 2 are required to be discharged, the electric push rod 16 is extended, the electric push rod 16 drives the processing bin 1 to turn upwards through the connecting rod 17, and the feeding nozzle 10 is placed at the bottom of the spherical net body 2 as much as possible, so that the impurities in the spherical net body 2 can be better discharged and exhausted.

In the present exemplary embodiment, a drying fan 14 is installed at the top of the inside of the processing bin 1, and the exhaust side of the drying fan 14 faces the spherical mesh body 2. After the drying fan 14 is started, air in the rapid processing bin 1 can flow, so that the drying of the polyethylene cable material is quickened, and the drying effect in the screening process of the polyethylene cable material is further improved.

In the present exemplary embodiment, a drawable collecting tank 21 is provided at the bottom of the processing bin 1, a limiting protrusion 22 is protruding on the inner wall of the collecting tank 21, a planar net body 23 is placed on the limiting protrusion 22, and the mesh of the planar net body 23 is smaller than the mesh of the spherical net body 2. After the polyethylene cable material preliminarily filtered by the spherical net body 2 falls down, the polyethylene cable material can fall onto the plane net body 23 in the material collecting tank 21, and the plane net body 23 can carry out secondary filtration on the polyethylene cable material, so that fine screening on the polyethylene cable material is realized.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a multistage dry shale shaker of polyethylene cable material, its characterized in that, including processing storehouse (1) with arrange in spherical dictyosome (2) in processing storehouse (1), link up on the lateral wall of spherical dictyosome (2) and be provided with pan feeding mouth (200), the left end of spherical dictyosome (2) through first pivot (3) with processing storehouse (1) rotate and sliding connection, the right-hand member of spherical dictyosome (2) through a second pivot (4) with processing storehouse (1) rotate and sliding connection, be located between spherical dictyosome (2) with processing storehouse (1) first pivot (3) with all overlap in second pivot (4) and be equipped with spring (5), fixed mounting has first motor (6) and second motor (7) on processing storehouse (1), first pivot (3) tip be polygon prism structure (300), be provided with on the output shaft of first motor (6) with polygon (300) looks adaptation shape cam (8) are located on second pivot (8) fixed block (8).

2. The polyethylene cable material multistage drying vibrating screen according to claim 1, wherein: the processing bin (1) is provided with a feeding nozzle (10) in a movable penetrating mode at a position corresponding to a feeding hole (200) in the spherical net body (2), one end of the feeding nozzle (10) inserted into the processing bin (1) is provided with a first magnet (11), the feeding hole (200) in the spherical net body (2) is made of iron, and the processing bin (1) is fixedly provided with a second magnet (12).

3. The polyethylene cable material multistage drying vibrating screen according to claim 2, wherein: the processing bin (1) is provided with a discharge nozzle (13) corresponding to the position of the feeding hole (200) on the spherical net body (2), the discharge nozzle (13) and the feeding nozzle (10) are arranged on the same side of the processing bin (1), and the discharge nozzle (13) extends towards the inside of the processing bin (1).

4. The polyethylene cable material multistage drying vibrating screen according to claim 1, wherein: the top is installed in processing storehouse (1) dry fan (14), the one side that dry fan (14) exhaust is towards spherical screen body (2).

5. The polyethylene cable material multistage drying vibrating screen according to claim 1, wherein: still include base (15) and angle adjusting device, processing storehouse (1) bottom left side with base (15) rotate and be connected, angle adjusting device includes electric putter (16) and connecting rod (17), electric putter (16) are installed base (15) with between processing storehouse (1), one end of connecting rod (17) with the output shaft of electric putter (16) rotates and is connected, the other end of connecting rod (17) with the right side of processing storehouse (1) bottom rotates and is connected.

6. The polyethylene cable material multistage drying vibrating screen according to claim 1, wherein: the bottom of processing storehouse (1) is provided with but aggregate tank (21) of pull, the protruding spacing arch (22) that is equipped with in the inner wall in aggregate tank (21), place plane screen body (23) on spacing arch (22), the mesh of plane screen body (23) is less than the mesh of spherical screen body (2).