JP4881759B2 - Wire bundling device - Google Patents

Description

  The present invention relates to an electric wire bundler that winds a removed electric wire into a bundle.

  In transmission lines, the corrosion of electric wires due to deterioration over time has progressed, and the work of replacing electric wires tends to increase. Wire re-laying work is done by winding a new wire from a new wire drum with a take-up wire drawing car, binding the new wire and the old wire, and winding the removed wire with a take-up wire drawing car via a reel winder. It is carried out by a method of collecting and collecting by a bundling drum, or a method of collecting and collecting by winding the wire reel once and then rewinding it manually.

  The bundling drum is composed of a substantially cylindrical core having a pair of opposing disks as both ends, a flange fixed to one end of both ends of the core, and a flange detachably attached to the other end. Then, wind the electric wire around the core part, remove the flange after winding, and pull it out from the core in a bundle.

  When the unwinding operation of the removed electric wire is performed manually, the work efficiency is low and there is a risk of being flipped by the electric wire. Further, when the reel width of the bundling drum is narrow, the length that can be wound when the wire diameter is large is shortened. For this reason, the number of reel replacement operations increases, and the work efficiency decreases, so there is a problem that the track stop time becomes long.

  In addition, when the wire bundle is pulled out from the bundle drum, there is a problem that the friction between the core and the inner portion of the wire bundle is large, so that the wire bundle cannot be easily pulled out.

  The problem to be solved by the present invention is to enable easy removal from the bundling drum in a bundled state where the removed electric wires are wound.

  In order to solve the above-described problems, an electric wire bundling device according to the present invention includes a gantry, a shaft that is rotatably supported by the gantry via a bearing, a rotary drive unit that is coupled to the shaft via a clutch, and a shaft. In an electric wire bundling device having a bundled electric wire bundling drum, the bundling drum has a substantially cylindrical core having a pair of opposing large-diameter and small-diameter discs at both ends, and a large-diameter end of the core. It has a fixed flange and a flange removably attached to the small diameter end of the core, and forms a shaft hole into which the shaft is inserted at the center of the core and the two flanges. A hollow shaft that is fixed across the center of the plate and into which the shaft is inserted, a plurality of fixed cores that are arranged at intervals in the circumferential direction across the periphery of a pair of discs, and formed between the plurality of fixed cores Arranged in a slit The movable core is supported at the peripheral edge of the large-diameter disk so that one end of the movable core can swing in the radial direction, and a link mechanism is connected in the vicinity of the other end. A slider slidable along the arm, an arm connected to the slider and the movable core via a rotary joint, and a screw jack supported by a small-diameter disk and connected to the arm via the rotary joint. It is characterized by having.

  According to the present invention, since the movable core of the bundling drum is supported so as to be swingable in the radial direction, the arm connected to the slider is hollowed by moving the slider to the larger diameter side of the core with a screw jack. The movable core moves in a direction parallel to the axis, and in conjunction with the movement, the movable core moves toward the hollow shaft with the large-diameter end of the core as a fulcrum. Thereby, the core radius on the small-diameter end side is reduced by inclining the movable core toward the hollow shaft side, and the friction between the core and the inner portion of the wire bundle is reduced. Therefore, by laying down the bundling drum with the large-diameter side flange down and removing the small-diameter side flange, the electric wires can be easily pulled out from the core in a bundled state.

  According to the present invention, it is possible to easily pull out a bundled drum from a bundled drum in a bundled state.

  Embodiments of the wire bundling device of the present invention will be described below with reference to the drawings.

  FIG. 1 is a configuration diagram of the wire bundling device of this embodiment. 1A is a front view of the drum base 1, FIG. 1B is a side view of the drum base 1, and FIG. 1C is a diagram showing a state where the bundling drum 2 is set on the drum base 1. Show.

  As shown in FIG. 1, the drum rack 1 of the wire bundling device of the present embodiment includes three bearing support members 4, 5, 6 provided upright on a base 3, and bearing support members 4, 5. Each has a shaft 9 that is rotatably supported via bearings 7 and 8. The shaft 9 has fixing members 10 and 11 for fixing the bundling drum 2, and a clutch connector 12 is attached to one end portion. Further, the bearing 7 and the fixing member 10 are detachable from the shaft 9 and are removed when being attached to the bundling drum 2 and attached after the attachment. The clutch 13 is attached to a shaft 14, and the shaft 14 is supported by the bearing support member 6 via a bearing support member 15 and a bearing 16. A motor 17 that rotates the shaft 14 and the shaft 9 is connected to the clutch 13 via the clutch 13. An operation panel 18 for operating the clutch 13 is provided above the motor 17, and a clutch-motor connecting portion 19 is provided at the rear of the motor 17.

  Although not shown, the bearing support portions of the bearing support members 4 and 5 are formed with the upper half opened so that the bearings 7 and 8 of the shaft 9 can be placed thereon. A rotation lever is provided at the open end of the bearing support portion, and after setting the shaft 9 on the drum mount 1, the rotation lever is rotated to close the open end of the bearing support portion.

  Next, the configuration of the bundling drum 2 will be described with reference to FIG. 2A is a front view and a side view of the bundling drum 2, FIG. 2B is an enlarged view of the center portion of the flange 23, and FIG. 2C is a view when the flange 24 is removed from the disc 21. FIG. 2 and FIG. 2 (d) respectively show views when the shaft 9 is inserted into the bundling drum 2.

The bundling drum 2 is fixed to the disk 21, a substantially cylindrical core 22 having a pair of opposed large-diameter disks 20 and a small-diameter disk 21 at both ends, a flange 23 fixed to the disk 20, and the disk 21. The flange 24 is made up of. The flange 23 has an outer disk 25 and an inner disk 26 having a radius smaller than that of the disk 20 arranged at the center of a ring 27 having a radius larger than that of the disk 20, and a peripheral edge of the outer disk 25 and an inner edge of the ring 27. A frame body is formed by fixing a plurality of (in the embodiment, eight) square members 28 at equal intervals in a radial manner, and is fixed to the disc 20. The flange 23 is fixed so that a square member 28 is disposed between slits 44, which will be described later, and a pair of opposing plate members 29 are provided along the slits 44 on the periphery of the outer circular plate 25. The pin 30 is fixed to the plate material 29. The outer disk 25 is provided with four bolt holes 31. When the bundling drum 2 is mounted on the shaft 9, the fixing member 11 and the outer disk 25 are connected to the bolt hole 31 and the four bolts 32. It is fixed by and attached.

  In the flange 24, the disk 33 is arranged at the center of the ring 34 having a larger radius than the disk 21, and a plurality of (eight in the embodiment) square members 35 are radially formed on the periphery of the disk 33 and the inner edge of the ring 34. It is a frame formed by being fixed over an equal interval, and is detachably fixed to the opposite surface of the core 22 of the disk 21. In addition, a predetermined number (four out of eight) of the plurality of square members 35 are provided with bolt holes into which the fixing bolts 39 are inserted in the vicinity of the circular plate 33. In the square member 35, two lifting portions 36 are provided at a position of 180 ° on the surface opposite to the core 22. Further, the disk 21 is provided with two alignment pins 37 and four bolt holes 38 at 180 ° between the slits 44, and the disk 21 and the flange 24 are connected to the disk by the alignment pins 37. The bolt holes 38 and the four fixing bolts 39 are fixed together with the position 21. The flange 24 is fixed so that a square member 35 is disposed between the slits 44. A shaft hole 40 into which the shaft 9 is inserted is provided at the center of the disks 20, 21, 26, 33.

  Here, the configuration of the core 22 will be described with reference to FIGS. 3A is a diagram showing the configuration inside the core 22, FIG. 3B is a diagram showing the configuration of the movable core 43, FIG. 3C is a diagram showing the configuration of the slider 51, and FIG. 3D is a diagram showing the configuration of the screw jack 53. is there.

  The core 22 includes a hollow shaft 41, disks 20 and 21, a fixed core 42, and a movable core 43. The hollow shaft 41 is a cylinder fixed across the shaft holes 40 of the disks 20 and 21 and is hollow so that the shaft 9 can be inserted.

  There are a plurality (eight in the embodiment) of the fixed cores 42, and a plurality of (eight in the embodiment) rectangular plate members that are fixed at equal intervals in the circumferential direction across the peripheral portions of the disks 20 and 21. Thus, it is slightly curved toward the hollow shaft 41, and one side fixed to the disk 21 is slightly shorter than one side fixed to the disk 20. A slit 44 is formed between the fixed cores 42 at the periphery of the disks 20 and 21.

There are a plurality of movable cores 43 (eight in the embodiment). The movable cores 43 are formed by passing a band plate 46 between a pair of rectangular plates 45, pin holes 47 and 48 are provided at both ends, and formed between the fixed cores 42. It arrange | positions so that it may fit in the slit 44 made. The movable core 43 is supported by the outer disk 25 by the pin hole 47 and the pin 30 so that the end on the disk 21 side, which is a free end, swings in the radial direction.
A link mechanism 49 is supported by a pin hole 48 and a pin 50 on the hollow shaft 41 side near the free end of the movable core 43.

  The link mechanism 49 includes a slider 51, an arm 52, and a screw jack 53. A pair of flanges 56 each having a shaft hole 55 through which the hollow shaft 41 passes are fixed at both ends of a hollow cylinder 54 that moves along the hollow shaft 41. On the surface of the hollow cylinder 54, eight slits 58 are formed by passing a plate material 57 to the flange 56 at equal intervals around the circumference. Further, between the slits 58, pin holes 59 are provided in the opposing plate material 57.

  The arm 52 is a square member having a plurality of (eight in the embodiment) and pin holes into which pins 50, 60, and 68 are inserted at both ends and in the vicinity of the center. Each arm 52 is supported at one end by a pin hole 59 and a pin 60 of the slider 51 so as to rotate in the radial direction of the hollow shaft 41 and connected to the slider 51, and the other end by a pin 50 at the movable core 43. Is supported so as to rotate in the radial direction of the hollow shaft 41, and is connected to the movable core 43.

  The screw jack 53 is formed from a casing 67 in which a belt plate 65 is passed to an adjustment bolt 61, an adjustment bolt support member 62, a bolt 63, and a square plate 64, and a pin hole 66 is provided in the belt plate 65 in the vicinity of the plate 64. The adjustment bolt 61 is screwed with the adjustment bolt support member 62 and the bolt 63, and the bolt 63 is fixed to the housing 67. The adjustment bolt support member 62 supports the bolt portion by restraining the movement of the adjustment bolt 61 in the axial direction, and is supported between the slit 44 and the disk 21. There are two screw jacks 53 at a position of 180 ° on the disc 21 and are connected to the two arms 52 by pin holes 66 and pins 68, respectively.

  Here, the operations of the movable core 43, the slider 51, and the arm 52 will be described with reference to FIGS. FIG. 4 shows the movement of the movable core 43. By rotating the adjustment bolt 61 and pulling the screw jack 53 toward the disk 21, the arm 52 moves in a direction perpendicular to the hollow shaft 41, and the slider 51 moves toward the disk 21 in conjunction with the movement. Thus, according to the movement of the six arms 52 connected to the slider 51, the movable core 43 also moves so as to be parallel to the hollow shaft 41 with the pin 30 as a fulcrum. As a result, the radius on the disk 20 side of the core 22 and the radius on the disk 21 side are approximately the same size. Further, by rotating the adjustment bolt 61 and pushing out the screw jack 53, the arm 52 moves in a direction parallel to the hollow shaft 41, and the slider 51 moves to the disk 20 side in conjunction with the movement, whereby the slider In accordance with the movement of the six arms 52 connected to 51, the movable core 43 also moves to the hollow shaft 41 side with the pin 30 as a fulcrum and tilts to the hollow shaft 41 side. Thereby, the radius by the side of the disc 21 of the core 22 becomes smaller than the radius by the side of the disc 20.

  Next, the operation and usage of the embodiment configured as described above will be described. First, the work of changing the wires will be described. FIG. 5 is an outline of the work of replacing the electric wires. A new electric wire 71 is fed out from a new electric wire drum 69 through a metal wheel 73 provided on a steel tower 72 by a take-up type wire drawing device 70, and the new electric wire 71 and the removed electric wire 74 are bundled by a bundling portion 75. While the removed electric wire 74 is wound up by the wire 70, it is wound up and collected by the bundling drum 2 of the wire bundling device of this embodiment.

  Next, a method for using the wire bundling device of this embodiment will be described. First, the adjustment bolt 61 of the bundling drum 2 is turned and the screw jack 53 is attracted to increase the radius of the core 22 on the disk 21 side. Then, the bearing 7 and the fixing member 10 of the shaft 9 are removed, and the shaft 9 is hollow. The shaft is inserted into the shaft 41, and the fixing member 10 and the bearing 7 are attached. Further, the fixing member 11 and the outer circular plate 25 are fixed by the bolt 32, the shaft 9 is attached to the bundling drum 2, and the upper half of the bearing support portions of the bearing support members 4 and 5 (not shown) are opened, The drum support 1 is set, and the rotating lever at the open end of the bearing support portion is rotated to close the open end of the bearing support portion.

  The removed electric wire 74 taken up by the take-up type wire-drawing device 70 is taken up by the electric wire bundling device, and when it is taken up to the length of the specified line, the electric wire is cut and bound.

  The bundling drum 2 with the electric wire wound thereon is lifted from the drum mount 1 and removed, and the bundling drum 2 is tilted sideways so that the detachable flange 24 side is upward.

  The adjustment bolt 61 is turned, the screw jack 53 is pushed out, the movable core 43 is inclined toward the hollow shaft 41 side, and the radius of the core 22 on the disk 21 side is reduced.

  After removing the fixing bolt 39 of the flange 24, the flange 24 is removed. The bundle of bundled electric wires is lifted from the bundling drum 2, pulled out and collected.

  As described above, according to this embodiment, since the movable core 43 of the bundling drum 2 is supported so as to be swingable in the radial direction, the slider 51 is moved to the disk 20 side by the screw jack 53. The arm 52 connected to the slider 51 moves in a direction parallel to the hollow shaft 41, and in conjunction with the movement, the movable core 43 moves toward the hollow shaft 41 with the disk 25 as a fulcrum. As a result, the movable core 43 is inclined toward the hollow shaft 41, whereby the radius of the core 22 on the disk 21 side is reduced, and the friction between the core 22 and the inner portion of the wire bundle is reduced. In this state, it can be easily pulled out.

  In this embodiment, the screw jack 53 is used to move the slider 51. However, any means that can move the slider 51 along the hollow shaft 41 in any state of the core 22 can be used. Something like that.

It is a block diagram of the wire bundling apparatus of this invention. 2 is a configuration diagram of a bundling drum 2. FIG. 3 is a detailed configuration diagram of a core 22. FIG. FIG. 6 is a diagram illustrating an operation of the movable core 43. It is a figure which shows the mode of the electric wire replacement work.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Drum mount 2 Bundling drum 7, 8 Bearing 9 Shaft 10, 11 Fixed member 13 Clutch 20, 21 Disc 22 Core 23, 24 Flange 41 Hollow shaft 42 Fixed core 43 Movable core 49 Link mechanism 51 Slider 52 Arm 53 Screw jack 61 Adjustment bolt

Claims (1)

A wire bundle having a gantry, a shaft rotatably supported by the gantry via a bearing, a rotary drive unit coupled to the shaft via a clutch, and a wire bundle drum attached to the shaft In the take-off device,
The bundling drum is detachably attachable to a small-diameter end of the core, a substantially cylindrical core having a pair of opposing large-diameter and small-diameter disks as ends, a flange fixed to the large-diameter end of the core, and An attached flange, and a shaft hole into which the shaft is inserted is formed at the center of the core and the two flanges;
The core is fixed across the center of the pair of discs and a hollow shaft into which the shaft is inserted, and a plurality of fixtures arranged across the peripheral edge of the pair of discs and spaced apart in the circumferential direction A core and a plurality of movable cores arranged in a slit formed between the plurality of fixed cores,
The movable core is supported at the periphery of the large-diameter disk so that one end of the movable core can swing in the radial direction, and a link mechanism is connected in the vicinity of the other end.
The link mechanism includes a slider slidably provided along the hollow shaft, an arm connected to the slider and the movable core via a rotary joint, and a small-diameter disk supported by the arm. An electric wire bundling device comprising a screw jack connected via a rotary joint.

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