CN113443505A

CN113443505A - Cable core cabling equipment and method for skeleton type optical cable

Info

Publication number: CN113443505A
Application number: CN202110743887.3A
Authority: CN
Inventors: 刘为; 刘喆驰; 冯晨; 阎浩
Original assignee: Yangtze Optical Fibre and Cable Co Ltd
Current assignee: Yangtze Optical Fibre and Cable Co Ltd
Priority date: 2021-05-14
Filing date: 2021-07-01
Publication date: 2021-09-28
Anticipated expiration: 2041-07-01
Also published as: CN113443505B

Abstract

The invention relates to cable core cabling equipment and a cable core cabling method for a skeleton type optical cable, which comprise a skeleton pay-off rack and a skeleton take-up rack which are respectively arranged along the longitudinal front and back, wherein a fiber releasing disc is arranged between the skeleton pay-off rack and the skeleton take-up rack, and fiber releasing heads are arranged on the fiber releasing disc along the circumferential direction. The framework pay-off is drawn and paid out by adopting longitudinal straight line traction without torsion, and the optical fiber or the optical fiber belt is rotationally paid out at a certain pitch through the rotary fiber pay-off disc and enters the framework groove, so that the manufacturing equipment and the process of the cable core are simplified, and the equipment structure is more reasonable; the production speed can be obviously improved, and the production efficiency of the framework type optical cable can be effectively improved.

Description

Cable core cabling equipment and method for skeleton type optical cable

Technical Field

The invention relates to cable core cabling equipment and method for a skeleton type optical cable, and belongs to the technical field of optical communication transmission.

Background

The skeleton type optical cable is an important choice for constructing a distribution line segment of the access network optical cable due to the characteristics of high density, high strength, convenience in branching and no factice. The cable core of the skeleton type optical cable is generally composed of a skeleton and an optical fiber ribbon arranged in a skeleton groove, in order to prevent the optical fiber ribbon from being stressed, the optical fiber ribbon needs a certain twisting pitch in the skeleton groove to form a stable matrix combination, and the bending resistance of the optical fiber ribbon is ensured. Therefore, the production equipment, particularly the framework take-up and pay-off frame, is large and heavy, the rotation speed of the framework is limited, the equipment and process control is complex, the production speed is also limited, and the improvement of the production efficiency and the simplification of the production process are not facilitated.

Disclosure of Invention

The technical problem to be solved by the invention is to provide cable core cabling equipment and method of a framework type optical cable aiming at the defects in the prior art, the cable core cabling equipment and method are reasonable in structural arrangement, and the improvement of production speed and efficiency is facilitated.

The technical scheme of the cable core cabling equipment adopted for solving the problems is as follows: the fiber winding machine is characterized in that a rotary driving device is arranged on one side of the fiber winding machine, and the output end of the rotary driving device is connected with the fiber winding machine to drive the fiber winding machine to rotate.

According to the scheme, a front framework guide wheel and a rear framework guide wheel are arranged between the framework pay-off rack and the framework take-up rack, the front framework guide wheel is arranged between the framework pay-off rack and the fiber releasing disc, the rear framework guide wheel is arranged between the fiber releasing disc and the framework take-up rack, and a framework releasing axis is formed by connecting the front framework guide wheel and the rear framework guide wheel.

According to the scheme, put fine dish discoid, the middle part of putting fine dish has been seted up the through-hole and is used for wearing to draw the skeleton, the quotation circumference of putting fine dish is provided with 6~12 and puts fine head, every is put fine head and is put fine motor including putting fine head driving-disc and putting for control unwrapping wire tension, put fine dish and use the skeleton to draw to put the axis and rotatory for skeleton pay off rack and skeleton take-up stand as the central line.

According to the scheme, 2-12 fiber releasing disks are arranged at intervals along the fiber releasing axial line, and a doubling die is arranged behind each fiber releasing disk corresponding to the fiber releasing head.

According to the scheme, the water-blocking tape wrapping machine is arranged between the last doubling die and the framework take-up frame.

According to the scheme, the spiral pitch formed by the fiber releasing disc rotating relative to the framework pay-off frame and the framework take-up frame is 400-1000 mm.

According to the scheme, the rotation driving device is a synchronous rotation driving device, and the synchronous rotation driving device is connected with each fiber releasing disc.

According to the scheme, the fiber releasing head comprises an optical fiber ribbon fiber releasing head and an optical fiber releasing head.

The technical scheme of the cable core cabling method of the invention is as follows:

the framework is led out from a framework pay-off rack and penetrates through a middle through hole of a fiber pay-off disc through a front framework guide wheel, then the framework is taken up from a doubling die and a rear framework guide wheel to a framework take-up rack, the framework is pulled linearly and is paid out without rotation, the paying-off tension of the framework is set to be 50N-100N, optical communication units (optical fiber ribbons or optical fiber ribbons and optical fibers) are paid out from a fiber pay-off head of the fiber pay-off disc at a certain tension, the fiber pay-off disc drives the fiber pay-off head to rotate at a spiral pitch set by framework grooves, the paying-off tension of the optical communication units is 0.8N-2N, the optical communication units are merged into each spiral framework groove from the framework groove opening in number through the doubling die, meanwhile, a water blocking tape is paid out from the framework pay-off rack, the paying-off tension is 5N-10N, and the water blocking tape is tightly wrapped on the periphery of the framework through a water blocking machine, and the framework type cable core is manufactured.

The invention has the beneficial effects that: 1. the skeleton pay-off adopts longitudinal linear traction to pay out without torsion, the optical fiber or the optical fiber band is rotationally paid out at a certain pitch through the rotary fiber pay-off disc to enter the skeleton groove, so that the skeleton linear pay-off and pay-off are not required to be twisted when the optical fiber band and the optical fiber groove are installed in the process of manufacturing the skeleton type cable core, namely, a huge and heavy skeleton pay-off and take-up frame is not required to rotate, the rotation of the fiber pay-off disc and the fiber pay-off head is relatively light, the manufacturing equipment and the process of the cable core are simplified, and the equipment structure is more reasonable; 2. in the process of cabling the cable core, the large and heavy framework take-up and pay-off frame is not rotated in a linear guide mode, the framework does not rotate any more, and the fiber pay-off disc is relatively light in driving rotation, so that the production speed can be obviously improved, and the production efficiency of the framework type optical cable can be effectively improved.

Drawings

Fig. 1 is a schematic structural view of a cabling apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the back surface of the fiber releasing disc in one embodiment of the invention.

Detailed Description

Embodiments of the present invention are further described below with reference to the accompanying drawings.

The fiber drawing and releasing device comprises a framework pay-off rack and a framework take-up rack which are arranged longitudinally and longitudinally in a front-back mode, wherein a front framework guide wheel and a rear framework guide wheel are arranged between the framework pay-off rack and the framework take-up rack, the front framework guide wheel is arranged between the framework pay-off rack and the fiber releasing disc, the rear framework guide wheel is arranged between the fiber releasing disc and the framework take-up rack, and a framework releasing axis is formed by a connecting line of the front framework guide wheel and the rear framework guide wheel. Install between skeleton pay off rack and skeleton take-up frame and put fine dish 3, put fine dish discoid, install on putting fine dish fixed bolster 1, put the middle part of fine dish and seted up through-hole 9 and be used for wearing to draw the skeleton, the quotation circumference of putting fine dish is provided with 6 and puts fine head, every is put fine head and is put fine motor 10 including putting fine head driving-disc 8 and putting, puts fine tension through PLC automatically regulated control it, optical communication unit 4 (optical fiber ribbon, or optical fiber ribbon and optic fibre) are followed the fine head of putting fine dish and are emitted with certain tension, put fine dish and put the axis and rotate as relative skeleton pay off rack and skeleton take-up frame of central line with 6 draws of skeleton. Put the fine dish and set up 2 along drawing the axis of putting, installed rotary driving device 2 on one side fixed bolster of putting the fine dish, rotary driving device be synchronous rotation drive device, synchronous rotation drive device and each put the fine dish and link to each other, synchronous rotation drive device's output and each put the fine dish and link to each other the drive and put fine dish synchronous revolution for put the rotatory spiral pitch that forms of fine dish relative skeleton pay off rack and skeleton admission frame and be 400~1000 mm. A doubling die 5 is arranged behind each fiber releasing disc corresponding to the fiber releasing head. And a water-blocking tape wrapping machine 7 is arranged between the last doubling die and the framework take-up frame.

The technical scheme of the cable core cabling method of the embodiment is as follows: the framework is led out from a framework pay-off rack and penetrates through a middle through hole of a fiber pay-off reel through a front framework guide wheel, then the framework is wound up from a framework take-up rack through a doubling die, a water blocking tape wrapping machine and a rear framework guide wheel, the framework is pulled linearly to be released and does not rotate, the framework pay-off tension is set to be 50N-100N, optical communication units (optical fiber ribbons or optical fiber ribbons and optical fibers) are released from a fiber release head of the fiber pay-off reel with certain tension, the fiber release reel drives the fiber release head to rotate at a spiral pitch 600 mm set by a framework groove, the optical communication unit pay-off tension is 0.8N-2N, the optical communication units are merged into each spiral framework groove from the framework groove opening according to the number through the doubling die, meanwhile, the water blocking tape is released from the water blocking tape pay-off rack, the pay-off tension is 5N-10N, and the water blocking tape is tightly wrapped on the periphery of the framework through the water blocking tape wrapping machine, and the framework cable core is manufactured.

Claims

1. The utility model provides a cable core stranding equipment of skeleton type optical cable, includes along the skeleton pay off rack and the skeleton take-up stand that set up respectively around vertical, has installed between skeleton pay off rack and skeleton take-up stand and has put the fine dish, has installed along circumference on putting the fine dish and has put fine head, its characterized in that has installed rotary driving device in the one side of putting the fine dish, rotary driving device's output with put that fine dish links to each other the drive and put fine dish rotation.

2. The apparatus for cabling cable cores of a skeletal cable according to claim 1, wherein a front skeleton guide wheel and a rear skeleton guide wheel are arranged between the skeleton pay-off stand and the skeleton take-up stand, the front skeleton guide wheel is arranged between the skeleton pay-off stand and the fiber pay-off reel, the rear skeleton guide wheel is arranged between the fiber pay-off reel and the skeleton take-up stand, and a connection line between the front skeleton guide wheel and the rear skeleton guide wheel forms a skeleton pay-off axis.

3. The apparatus of claim 2, wherein the fiber releasing disc is disc-shaped, a through hole is formed in the middle of the fiber releasing disc for threading the frame, 6 to 12 fiber releasing heads are circumferentially arranged on the disc surface of the fiber releasing disc, each fiber releasing head comprises a fiber releasing head driving disc and a fiber releasing motor for controlling the releasing tension, and the fiber releasing disc rotates relative to the frame releasing frame and the frame winding frame by taking the frame releasing axis as a central line.

4. The cable core cabling device of the framework type optical cable according to claim 3, wherein 2-12 fiber placing discs are arranged at intervals along the cable leading-out axis, and a doubling die is arranged behind each fiber placing disc corresponding to the fiber placing head.

5. The core cabling apparatus for a skeletal cable according to claim 4, wherein a water-blocking tape wrapping machine is provided between the last doubling die and the skeletal take-up reel.

6. The cable core cabling device of the framework type optical cable according to claim 1 or 2, wherein a spiral pitch formed by the rotation of the fiber pay-off reel relative to the framework pay-off rack and the framework take-up rack is 400-1000 mm.

7. The core cabling apparatus for a skeletal cable according to claim 4, wherein the rotational driving device is a synchronous rotational driving device, and the synchronous rotational driving device is connected to each fiber placement tray.

8. The core cabling apparatus for a skeletal cable according to claim 3, wherein the fiber release head comprises a fiber ribbon release head and an optical fiber release head.

9. The cabling method of the cable core of the skeleton type optical cable is characterized in that

The framework is led out from a framework pay-off rack and penetrates through a middle through hole of a fiber releasing disc through a front framework guide wheel, then the framework is wound up from a framework take-up rack through a doubling die and a rear framework guide wheel, the framework is pulled linearly to release the fiber without rotating, the fiber releasing tension of the framework is set to be 50N-100N, optical communication units are released from fiber releasing heads of the fiber releasing disc with certain tension, the fiber releasing disc drives the fiber releasing heads to rotate at a spiral pitch set by framework grooves, the fiber releasing tension of the optical communication units is 0.8N-2N, the optical communication units are merged into all spiral framework grooves from the openings of the framework grooves through the doubling die, meanwhile, the water blocking tape is released from the framework releasing frame, the fiber releasing tension is 5N-10N, and the water blocking tape is tightly wrapped on the periphery of the framework through a water blocking tape wrapping machine, and the framework type cable core is manufactured.