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CN-122025290-A - Cable stranded wire integrated equipment

CN122025290ACN 122025290 ACN122025290 ACN 122025290ACN-122025290-A

Abstract

The invention relates to the technical field of cable processing equipment, in particular to a wire coil feeding mechanism of cable stranded wire integrated equipment, which comprises a first base, a sliding plate longitudinally sliding, a vertical frame arranged on the sliding plate, a vertical moving base sliding along the vertical frame, a supporting frame arranged on the rear wall of the vertical moving base and a supporting rod arranged on the rear wall of the supporting frame, wherein an inner wire coil wheel frame and an outer wire coil wheel frame sleeved outside the inner wire wheel frame in a rotating manner are respectively provided with a plurality of cavities along the circumferential direction, a wire coil support is used for rotatably supporting the inner wire coil wheel frame and is provided with a driving mechanism for driving the inner wire wheel frame and the outer wire coil wheel frame to synchronously rotate, a wire coil supporting piece is arranged in each cavity of the inner wire coil wheel frame and the outer wire coil wheel frame and is provided with a wire unwinding shaft, the twisting mechanism comprises a supporting table, a first plate frame, a second plate frame and a third plate frame arranged on the top surface of the supporting table, the first plate frame is sequentially rotatably sleeved with two wire distribution plates from outside to inside, the second plate frame is sequentially rotatably sleeved with the wire distribution plates and a first wire doubling mold, and the third plate frame is rotatably sleeved with the second wire winding plate. So as to reduce the occupied area of the cable stranded wire equipment and be convenient for safely and efficiently installing the wire coil.

Inventors

  • Kuang Yuansheng

Assignees

  • 青岛一缆电缆有限公司

Dates

Publication Date
20260512
Application Date
20260327

Claims (10)

  1. 1. An integrated cable strand apparatus comprising: The wire coil feeding mechanism (1) comprises a first base (1.1) longitudinally arranged, a sliding plate (1.3) longitudinally sliding along the first base (1.1), a vertical frame (1.5) vertically fixed on the top surface of the sliding plate (1.3), a vertical moving base (1.8) vertically sliding along the rear side of the vertical frame (1.5), a supporting frame (1.9) with the front end vertically fixed on the rear wall of the vertical moving base (1.8) and supporting rods (1.10) vertically fixed on the bottom ends of two sides of the middle part of the rear wall of the supporting frame (1.9); the inner wire coil wheel carrier (3) is provided with a plurality of axially extending cavities along the circumferential direction at the outer edge; The outer wire coil wheel frame (4) is sleeved outside the inner wire coil wheel frame (3) in a rotating way, and a plurality of axially extending cavities are arranged along the circumferential direction; the paying-off support (2) is used for rotatably supporting the middle part of the inner wire coil wheel frame (3) and is provided with a driving mechanism for driving the inner wire coil wheel frame (3) and the outer wire coil wheel frame (4) to synchronously and reversely rotate; The wire coil support piece (5) is arranged in each cavity of the inner wire coil wheel frame (3) and the outer wire coil wheel frame (4) and is respectively provided with a forward extending unreeling shaft (5.2); The stranding mechanism (7) comprises a supporting table (7.1) arranged at the rear side of the pay-off support (2) and a first plate frame (7.2), a second plate frame (7.3) and a third plate frame (7.4) which are sequentially fixed on the top surface of the supporting table (7.1) from front to back, wherein the top of the first plate frame (7.2) is sequentially rotated from outside to inside to be sleeved with two wire distribution plates (7.5), the top of the second plate frame (7.3) is sequentially rotated from outside to inside to be sleeved with the wire distribution plates (7.5) and a first wire combining die (7.6), and the top of the third plate frame (7.4) is rotated to be sleeved with a second wire combining die (7.7).
  2. 2. The integrated cable stranded wire equipment according to claim 1, wherein the paying-off support (2) comprises a base II (2.1) arranged at the rear side of the base I (1.1), a door-shaped frame (2.2) with the bottom end fixed at two sides of the front end of the top surface of the base II (2.1), a rotating motor (2.3) fixed at the middle part of the front wall of the door-shaped frame (2.2) and a rotating shaft (2.4) with the front end fixedly butted with the rear end of a power output shaft of the rotating motor (2.3), the middle part of the inner wire disc frame (3) is fixedly sleeved on the rotating shaft (2.4), and a gear transmission mechanism for enabling the outer wire disc frame (4) to reversely rotate relative to the rotating shaft (2.4) is arranged between the front end of the rotating shaft (2.4) and the outer edge of the front end of the outer wire disc frame (4).
  3. 3. The cable stranded wire integrated device according to claim 2, wherein a driving gear (2.5) is fixedly sleeved at the front part of the rotating shaft (2.4), a driving gear (2.6) is rotatably installed on the rear wall at the top end of the middle part of the door-shaped frame (2.2), an even number of transition gears (2.7) are sequentially meshed and transmitted between the driving gear (2.5) and the driving gear (2.6), and an inner gear ring (4.5) meshed and matched with the driving gear (2.6) is fixed at the front part of the outer edge of the outer wire coil frame (4).
  4. 4. The integrated cable stranded wire device according to claim 3, wherein the inner wire reel frame (3) comprises an inner ring I (3.1), an outer ring I (3.2) arranged outside the inner ring I (3.1), a plurality of connecting plates I (3.5) which are fixed between the inner ring I (3.1) and the outer ring I (3.2) in the radial direction and are uniformly distributed along the circumferential direction, a shaft sleeve (3.3) which is arranged in the middle of the inner ring I (3.1) and fixedly sleeved with the rotating shaft (2.4) and an end plate (3.4) which is fixed between the front end and the rear end of the shaft sleeve (3.3) and the inner peripheral wall of the inner ring I (3.1), and the inner peripheral wall of the outer ring I (3.2) between two adjacent connecting plates I (3.5) is fixedly connected with the rear part of the wire reel supporting piece (5) respectively.
  5. 5. The integrated cable stranded wire equipment according to claim 4, wherein the outer wire reel frame (4) comprises an inner ring II (4.1) rotatably sleeved outside the outer ring II (3.2), an outer ring II (4.2) arranged outside the inner ring II (4.1) and a plurality of connecting plates II (4.3) which are radially fixed between the inner ring II (4.1) and the outer ring II (4.2) and uniformly distributed along the circumferential direction, the inner peripheral walls of the outer ring II (4.2) between two adjacent connecting plates II (4.3) are fixedly connected with the rear part of the wire reel supporting piece (5) respectively, and the inner gear ring (4.5) is fixed at the front end of the outer ring II (4.2).
  6. 6. The cable stranded wire integrated equipment according to claim 5, wherein a slewing bearing (3.6) is respectively arranged between the front and rear parts of the outer ring I (3.2) and the inner ring II (4.1), annular rails (4.4) are respectively fixed at the front and rear ends of the peripheral wall of the outer ring II (4.2), wheel seats (2.8) are respectively fixed at the two sides of the middle part of the top surface of the base II (2.1) corresponding to the annular rails (4.4), and supporting grooved wheels (2.9) matched with the annular rails (4.4) in a rotating and clamping manner are respectively rotatably arranged at the tops of the wheel seats (2.8).
  7. 7. The integrated cable stranded wire equipment according to claim 5, wherein the cable tray supporting piece (5) comprises an end seat (5.1) fixed between the inner peripheral wall of the outer ring I (3.2) between two adjacent connecting plates I (3.5) and the rear end of the inner peripheral wall of the outer ring II (4.2) between two adjacent connecting plates II (4.3), the rear end of the unreeling shaft (5.2) is rotatably sleeved on the front wall of the inner end of the end seat (5.1), and the front end of the unreeling shaft (5.2) is radially and detachably sleeved with a limiting pin (5.3).
  8. 8. The integrated cable stranded wire device according to claim 1, wherein the inner wire reel frame (3) and the outer wire reel frame (4) are respectively fixed with a wire guide mechanism (6) at positions right opposite to the unreeling shaft (5.2), the wire guide mechanism (6) comprises a groove-shaped member (6.1) fixed along the longitudinal direction, end beams (6.2) fixed at the front end and the rear end of an inner cavity of the groove-shaped member (6.1), guide rods (6.3) with the front end and the rear end respectively sleeved at the end of the end beams (6.2), sliding seats (6.4) with the top sleeved at the front part of the guide rods (6.3) and clamped in the inner cavity of the groove-shaped member (6.1) along the longitudinal sliding direction, guide sheaves (6.5) rotatably installed between two side walls at the bottom of the sliding seats (6.4) in pairs, and springs (6.6) sleeved at the rear part of the guide rods (6.3).
  9. 9. The integrated cable stranded wire equipment according to claim 1, wherein the distribution board (7.5) comprises a ring body (7.5.1), a plurality of through holes (7.5.2) along the axial direction are uniformly formed in the ring body (7.5.1) along the circumferential direction, and a plurality of groups of wire guide wheels (7.5.3) are installed on the inner side and the outer side of an inner cavity of the through hole (7.5.2) in a pair rotation mode.
  10. 10. The integrated cable stranded wire equipment according to claim 1, wherein horizontal guide rails (1.2) are respectively fixed on two sides of the top surface of the first base (1.1) along the longitudinal direction, horizontal sliding blocks (1.4) matched with the horizontal guide rails (1.2) in a sliding clamping manner are fixed on the bottom surface of the sliding plate (1.3), vertical guide rails (1.7) are respectively fixed on two sides of the rear wall of the vertical frame (1.5) along the vertical direction, vertical sliding blocks (1.12) matched with the vertical guide rails (1.7) in a sliding clamping manner are fixed on the front wall of the vertical moving base (1.8), a screw rod (1.6) is rotatably installed in the middle of an inner cavity of the vertical frame (1.5), nuts matched with the screw rod (1.6) in a sleeved manner are fixedly sleeved on the front portion of the vertical moving base (1.8), and rocking handles (1.11) are fixedly sleeved on the top ends of the screw rod (1.6).

Description

Cable stranded wire integrated equipment Technical Field The invention relates to the technical field of cable processing equipment, in particular to cable stranded wire integrated equipment. Background Conventional cable stranding equipment typically employs a "straight" linear layout, i.e., a plurality of pay-off frames arranged in a straight line in front of a stranding host. This arrangement has significant drawbacks: Firstly, the whole length of the equipment is long, the requirement on the factory building space is high, and the occupied area is large; secondly, when pay-off rack quantity is more (for example 12 discs, 24 discs or even more), the pay-off reel that is furthest from the transposition host computer is on line operation very inconvenient, needs operating personnel to carry heavy drum (weight can reach more than 1 ton) for a long distance, and intensity of labour is big, inefficiency, and has the safety risk of high altitude construction and mechanical injury. In addition, when changing the drum, fork truck need frequently get into the equipment region, and with personnel's flow intersection, further increased the potential safety hazard. In the prior art, although the improvement of disc replacement and the like by adopting a trolley is adopted, the whole layout is unchanged, the space is saved, and the logistics path is still disordered. Therefore, a new structure of the wire twisting equipment is needed, which not only can greatly reduce the occupied area, but also can safely, conveniently and efficiently finish the wire winding operation. Disclosure of Invention The invention aims to provide cable stranded wire integrated equipment which is used for solving the problems that the cable stranded wire equipment in the prior art is large in occupied area and inconvenient to safely and efficiently install a wire coil. The invention provides a cable stranded wire integrated device, which comprises a first base, a sliding plate, a vertical frame, a vertical moving base, a supporting frame and supporting rods, wherein the first base is longitudinally arranged, the sliding plate longitudinally slides along the first base, the vertical frame is vertically fixed on the top surface of the sliding plate, the vertical moving base vertically slides along the rear side of the vertical frame, the supporting frame is vertically fixed on the rear wall of the vertical moving base at the front end, and the supporting rods are vertically fixed on the bottom ends of two sides of the middle part of the rear wall of the supporting frame; the wire coil support is arranged in each cavity of the inner wire coil wheel frame and the outer wire coil wheel frame and is respectively provided with a forward extending unwinding shaft, the twisting mechanism comprises a support table arranged at the rear side of the wire coil support, a first plate frame, a second plate frame and a third plate frame which are sequentially fixed on the top surface of the support table from front to back, two wire distribution plates are sequentially sleeved at the top of the first plate frame from outside to inside in a rotating mode, a wire distribution plate and a wire doubling die I are sequentially sleeved at the top of the second plate frame in a rotating mode from outside to inside, and a wire doubling die II is rotatably sleeved at the top of the third plate frame. Preferably, the pay-off support comprises a second base, a door-shaped frame, a rotating motor and a rotating shaft, wherein the second base is arranged at the rear side of the first base, the bottom end of the door-shaped frame is fixed to two sides of the front end of the second top surface of the base, the rotating motor is fixed to the middle part of the front wall of the door-shaped frame, the front end of the rotating motor is fixedly connected with the rear end of a power output shaft of the rotating motor in a butt joint mode, the middle part of the inner wire disc wheel frame is fixedly sleeved on the rotating shaft, and a gear transmission mechanism enabling the outer wire disc wheel frame to reversely rotate relative to the rotating shaft is arranged between the front end of the rotating shaft and the outer edge of the front end of the outer wire disc wheel frame. Preferably, the driving gear is fixedly sleeved on the front part of the rotating shaft, the driving gear is rotatably mounted on the rear wall of the top end of the middle part of the door-shaped frame, an even number of transition gears are sequentially meshed and transmitted between the driving gear and the driving gear, and an inner gear ring meshed and matched with the driving gear is fixed on the front part of the outer edge of the outer disc wheel frame. Preferably, the inner coil wheel frame comprises an inner ring I, an outer ring I arranged outside the inner ring I, a plurality of connecting plates I which are radially fixed between the inner ring I and the outer ring I and uniformly distri