CN219266621U

CN219266621U - Processing device for optical fiber cable coating layer

Info

Publication number: CN219266621U
Application number: CN202320903059.6U
Authority: CN
Inventors: 李扬; 朱宇杭; 杨国勇
Original assignee: Kingsignal Optical Fiber And Cable Ganzhou Co ltd
Current assignee: Kingsignal Optical Fiber And Cable Ganzhou Co ltd
Priority date: 2023-04-20
Filing date: 2023-04-20
Publication date: 2023-06-27
Anticipated expiration: 2033-04-20

Abstract

The utility model relates to the technical field of optical fiber cable processing, in particular to a processing device for an optical fiber cable coating layer. The utility model provides a processing device for an optical fiber cable coating layer, which is compact in package and convenient to take out. A processingequipment for optic fibre optical cable coating, including base, mount pad, cladding subassembly and extrusion subassembly, the rigid coupling has the mount pad on the base, and the mount pad right side is equipped with cladding subassembly, and the cable is located in the middle of the cladding subassembly, is equipped with extrusion subassembly on the cladding subassembly. According to the utility model, the cable can be wrapped by the wrapping layer under the action of the winding gear and the driving gear, the notch of the winding gear is convenient for taking out the wound material from the side edge, and the wrapping of the cable can be more compact under the action of the extrusion component.

Description

Processing device for optical fiber cable coating layer

Technical Field

The utility model relates to the technical field of optical fiber cable processing, in particular to a processing device for an optical fiber cable coating layer.

Background

When the optical fiber cable is wrapped, the wrapping tape is wrapped on the outer sides of a plurality of cables, so that the wrapping tape is more convenient and difficult to scatter during subsequent processing, and the processing efficiency is convenient to improve.

Disclosure of Invention

In order to overcome the defects that the wrapping tape is not compact in winding and inconvenient to take out after wrapping is completed in the conventional wrapping device, the utility model provides a processing device for a fiber optic cable wrapping layer, which is compact in wrapping and convenient to take out.

The technical implementation scheme of the utility model is as follows: a processingequipment for optic fibre optical cable coating, including base, mount pad, cladding subassembly and extrusion subassembly, the rigid coupling has the mount pad on the base, and the mount pad right side is equipped with cladding subassembly, and the cable is located in the middle of the cladding subassembly, is equipped with extrusion subassembly on the cladding subassembly.

More preferably, the cladding subassembly is including mounting bracket, driving gear, driving motor, winding gear and blowing roller, the base top rigid coupling has the mounting bracket, the mounting bracket is located the mount pad right side, install driving motor on the mount pad, the rigid coupling has three driving gear and a winding gear on the mounting bracket, three driving gear all meshes with the winding gear, winding gear is the ring form and is equipped with a breach, winding gear front side rigid coupling has the blowing roller, first driving gear is located winding gear left side, second driving gear is located winding gear top, third driving gear is located winding gear below, first driving gear and second driving gear pass through flat belt transmission, first driving gear and third driving gear also pass through flat belt transmission, driving motor's output shaft passes through the key and is connected with first driving gear.

More preferably, the extrusion assembly comprises a guide seat, an extrusion block and an elastic piece, wherein the guide seat is fixedly connected to the mounting frame, penetrates through the winding gear and is positioned at the front side of the winding gear, and is rotationally connected with the winding gear, the extrusion block is arranged at the right side of the guide seat and positioned at the front side of the winding gear, and the elastic piece is connected between the guide seat and the extrusion block.

More preferably, the device further comprises a guide gear, at least two guide gears are arranged on the mounting seat, and the guide gears are meshed with the winding gears.

More preferably, the feeding device further comprises a limiting disc, and the front side of the feeding roller is connected with the limiting disc in a threaded manner.

More preferably, the motor driving device further comprises a guide assembly, wherein the guide assembly comprises a guide ring and a guide groove block, the guide ring is fixedly connected to the mounting seat, the guide ring is positioned on the right side of the driving motor and on the front side of the guide seat, and the guide groove block is fixedly connected to the guide ring.

Compared with the prior art, the utility model has the following advantages:

1. according to the utility model, the cable can be wrapped by the wrapping layer under the action of the winding gear and the driving gear, the notch of the winding gear is convenient for taking out the wound material from the side edge, and the wrapping of the cable can be more compact under the action of the extrusion component.

2. Under the action of the guide gear, the winding gear rotates smoothly and stably.

3. Under the effect of limiting disc, can make the steady blowing of blowing roller, avoid throwing away in the parcel area of putting on the blowing roller simultaneously.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a left side view of the present utility model.

Fig. 3 is a schematic perspective view of a wrapping assembly according to the present utility model.

Fig. 4 is a schematic perspective view of the extrusion assembly of the present utility model.

Meaning of reference numerals in the drawings: 1. the wire feeder comprises a base, 2, a mounting seat, 3, a cladding component, 30, a mounting frame, 31, a driving gear, 32, a driving motor, 33, a winding gear, 34, a discharging roller, 4, a guide gear, 5, a limiting disc, 6, an extrusion component, 60, a guide seat, 61, an extrusion block, 62, an elastic piece, 7, a guide component, 70, a guide ring, 71, a guide groove block, 100 and a wire.

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.

A processingequipment for optic fibre optical cable coating, as shown in FIG. 1, including base 1, mount pad 2, cladding subassembly 3 and extrusion subassembly 6, there is mount pad 2 through bolted connection on the base 1, and the mount pad 2 right side is equipped with cladding subassembly 3, and cable 100 is located cladding subassembly 3 centre, is equipped with extrusion subassembly 6 on the cladding subassembly 3.

As shown in fig. 1-3, the wrapping assembly 3 includes a mounting frame 30, a driving gear 31, a driving motor 32, a winding gear 33 and a discharging roller 34, wherein the mounting frame 30 is fixedly connected above the base 1, the mounting frame 30 is located on the right side of the mounting seat 2, the driving motor 32 is mounted on the mounting seat 2, three driving gears 31 and one winding gear 33 are fixedly connected on the mounting frame 30, the three driving gears 31 are all meshed with the winding gear 33, the winding gear 33 is in a ring shape and is provided with a notch, the discharging roller 34 is fixedly connected on the front side of the winding gear 33, a wrapping belt is sleeved on the discharging roller 34, when the winding gear 33 rotates, the discharging roller 34 is driven to rotate, so that the wrapping belt is wound on the cable 100, the first driving gear 31 is located on the left side of the winding gear 33, the second driving gear 31 is located above the winding gear 33, the third driving gear 31 is located below the winding gear 33, the first driving gear 31 and the second driving gear 31 are transmitted through a flat belt, and the first driving gear 31 and the third driving gear 31 are also transmitted through the flat belt, and the output shaft of the driving motor 32 is connected with the first driving gear 31 through the flat belt.

As shown in fig. 1 and 4, the extrusion assembly 6 includes a guide holder 60, an extrusion block 61 and an elastic member 62, the guide holder 60 is fixedly connected to the mounting frame 30, the guide holder 60 penetrates through the winding gear 33 and is located at the front side of the winding gear 33 and is rotationally connected with the winding gear 33, the extrusion block 61 is disposed at the right side of the guide holder 60, the extrusion block 61 is located at the front side of the winding gear 33, and the elastic member 62 is connected between the guide holder 60 and the extrusion block 61, and in this embodiment, the elastic member 62 is a rubber elastic belt.

As shown in fig. 1, 3 and 4, the device further comprises a limiting disc 5, the front side of the discharging roller 34 is in threaded connection with the limiting disc 5, and the limiting disc 5 can limit the wrapping belt on the discharging roller 34 so that the wrapping belt cannot slide.

When the device is used, firstly, the wrapping belt is required to be sleeved on the discharging roller 34, then the limiting disc 5 is in threaded connection with the discharging roller 34, the wrapping belt can be prevented from being thrown out in the rotation process of the discharging roller 34, then one end of the cable 100 is placed on the extrusion block 61, at the moment, the extrusion block 61 can be pressed towards the direction of the guide seat 60, the elastic piece 62 is compressed, a space for placing the cable 100 is obtained, after the cable 100 is placed, the extrusion block 61 is loosened, the extrusion block 61 can restore the original state under the action of elasticity, the cable 100 is extruded and fixed, the cable 100 is enabled to be wrapped more compactly, the cable 100 can be automatically conveyed forwards under the driving of external force, then the driving motor 32 drives the first driving gear 31 to rotate, the three driving gears 31 simultaneously rotate under the transmission effect of the flat belt, and meanwhile, the winding gear 33 meshed with the extrusion block 60 is driven to rotate to pay out the wrapping belt, and the cable 100 is wrapped by the wrapping belt, so that the cable 100 is wrapped by the wrapping belt.

As shown in fig. 1-3, the device further comprises a guide gear 4, two guide gears 4 are mounted on the mounting seat 2, the guide gears 4 are positioned on the right sides of the second driving gear 31 and the third driving gear 31, and the guide gears 4 are meshed with the winding gear 33.

When the driving gear 31 rotates, the guiding gear 4 meshed with the driving gear is also driven to rotate, so that the winding gear 33 rotates smoothly and stably.

As shown in fig. 1 and 2, the guide assembly 7 is further included, the guide assembly 7 includes a guide ring 70 and a guide groove block 71, the guide ring 70 is welded on the mounting seat 2, the guide ring 70 is located on the right side of the driving motor 32 and on the front side of the guide seat 60, and the guide groove block 71 is welded in the guide ring 70.

The guide groove block 71 can fix the cable 100 so that the cable 100 is not scattered and the coating effect of the cable 100 is better.

While the present disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure as defined by the appended claims and their equivalents. The scope of the disclosure should, therefore, not be limited to the above-described embodiments, but should be determined not only by the following claims, but also by the equivalents of the following claims.

Claims

1. A processingequipment for optic fibre optical cable coating, characterized by: including base (1), mount pad (2), cladding subassembly (3) and extrusion subassembly (6), the rigid coupling has mount pad (2) on base (1), and mount pad (2) right side is equipped with cladding subassembly (3) that are used for cladding winding to cable (100), and cable (100) are located in the middle of cladding subassembly (3), are equipped with on cladding subassembly (3) with cable (100) parcel compact extrusion subassembly (6).

2. A processing apparatus for a cladding layer of an optical fiber cable according to claim 1, wherein: cladding subassembly (3) including mounting bracket (30), driving gear (31), driving motor (32), winding gear (33) and blowing roller (34), mounting bracket (30) are located to base (1) top rigid coupling, install driving motor (32) on mounting bracket (2) right side, the rigid coupling has three driving gear (31) and a winding gear (33) on mounting bracket (30), three driving gear (31) all mesh with winding gear (33), winding gear (33) are the ring form and are equipped with a breach, winding gear (33) front side rigid coupling has blowing roller (34) that are used for placing the parcel area, first driving gear (31) are located winding gear (33) left side, second driving gear (31) are located winding gear (33) top, third driving gear (31) are located winding gear (33) below, first driving gear (31) and second driving gear (31) pass through flat belt transmission, first driving gear (31) and third driving gear (31) also pass through flat belt transmission with first driving gear (32).

3. A processing apparatus for a cladding layer of an optical fiber cable according to claim 2, wherein: the extrusion assembly (6) comprises a guide seat (60), an extrusion block (61) and an elastic piece (62), wherein the guide seat (60) is fixedly connected to the mounting frame (30), the guide seat (60) penetrates through the winding gear (33) and is positioned on the front side of the winding gear (33) and is rotationally connected with the winding gear (33), the extrusion block (61) is arranged on the right side of the guide seat (60), the extrusion block (61) is positioned on the front side of the winding gear (33), and the elastic piece (62) is connected between the guide seat (60) and the extrusion block (61).

4. A processing apparatus for a cladding layer of an optical fiber cable according to claim 3, wherein: the device also comprises a guide gear (4), wherein the installation seat (2) is provided with at least two guide gears (4), and the guide gears (4) are meshed with the winding gears (33).

5. A processing apparatus for a cladding layer of an optical fiber cable according to claim 4, wherein: the feeding device also comprises a limiting disc (5), and the front side of the feeding roller (34) is connected with the limiting disc (5) in a threaded manner.

6. A processing apparatus for a cladding layer of an optical fiber cable according to claim 5, wherein: the motor is characterized by further comprising a guide assembly (7), wherein the guide assembly (7) comprises a guide ring (70) and a guide groove block (71), the guide ring (70) is fixedly connected to the mounting seat (2), the guide ring (70) is positioned on the right side of the driving motor (32) and on the front side of the guide seat (60), and the guide groove block (71) is fixedly connected in the guide ring (70).