RU2073290C1 - Method for winding cable round wire and device to realize the same - Google Patents

Abstract

FIELD: electric engineering. SUBSTANCE: method involves unreeling the cable from the working drum and winding it onto wires simultaneously with translational movement of the wire drum to exclude breaks of the cable. For this purpose required length E of the cable is wound onto an auxiliary drum, then a part of this cable E1 is unwound and the remaining cable length E2 is used to form a loop on the working drum. After that cable length E2 is wound onto the working drum simultaneously with cable length E1. Before winding the working drum is put coaxially onto the wire and the cable lengths E1 and E2 are wound onto the working drum in different directions from the loop. Then one end of the cable is attached to the wire and the working drum to a plumb line, which prevents rotation of the working drum, while it is moved translationally along the wire axis. In the course of this movement turns of the cable are thrown from the working drum onto the wire until the loop is free. In this point the cable is fixed on the wire and the drum continues its translational movement along the wire until the cable is unwound completely. The device for realization of the method has a working drum, traction member, bracket and an auxiliary drum, a body, which is put onto the wire adapted to move along the wire and made of two rigidly but separately coupled parts. These two parts of the body are made in the form of U-section metal rectangles each of the embracing two half-shafts connected together to form a shaft. The shafts are provided with special means for rotatably fixing the working drum, which is put on the wire and which has a slot over its entire length to pass the wire and facilities for mounting two members intended for throwing off cable turns and installed one after the other close to one of working drum webs. EFFECT: improved efficiency of cable mounting, including fiber optic cables, onto wires. 3 cl, 2 dwg

Description

 The invention relates to the field of electrical engineering and can be used for mounting a cable, including fiber optic (FOC) on wires, for example overhead power lines.

There is a method of mounting additional wires on an existing power line (power transmission line) (see, for example, AS USSR N 1720118, M.cl. N 02 G 1/04, publ. 03/15/92) to transfer power lines to a higher rated voltage at which, to accelerate and improve the quality of wire drawing during its installation, one end of the additional wire is fixed on the first anchor support, laid on the expansion rollers of the hanging garlands of intermediate supports, the second end is laid on the roller, previously fixed on the second anchor support, to the second end of the wire odveshivayut cargo weight
P = KF (σ _max −σ _mount ) ,,
where K 1.3 is the coefficient of overload from the horizontal tension of the wire;
F the cross-sectional area of the additional wire, mm

,
где n число пролетов в анкерном участке,
l_пр приведенный пролет в анкерном участке, м.σ _{max the} maximum permissible wire tension, kgf / mm;
σ _mount wire tension in mounting mode, kgf / mm,
the load is maintained until it moves in a vertical direction at a distance

,
where n is the number of spans in the anchor section,
l _pr reduced span in the anchor section, m

f _p rated arrow of wire sag at maximum voltage, m.

f _m the same in installation mode, m

 then the additional wire is given the same tension as the existing wire has, after which the additional wire is fixed in the linear reinforcement.

 This method can only be used to connect an additional wire to heavily loaded power lines, long-term shutdown of which is unacceptable. This requires laborious calculations of the mass of the cargo and the distance over which it must move, as well as complex operations of suspension of the cargo and control of its movement.

 A known method of winding fiber optic cable (FOC) on wires and lightning protection cables of overhead power lines used in a device developed by ORGRES, manufacturer "Micron" (information about the method is attached to the materials of this application). This method does not require additional elements for attaching the cable to wires or cables, and winding the cable is carried out by towing a device to implement the method on wires or cables with a lead from the ground or using any traction mechanism. While winding is carried out by winding the cable from the drum.

 However, when winding the cable from the drum included in this device, it is necessary to compensate for the reduction in cable weight, which is carried out by moving the counterweight along the console. This requires complex tracking to maintain static balancing of the movement of this device relative to the wire or cable. Otherwise, the cable may break. Moreover, when winding the cable, optimal tension can be ensured by eliminating the reverse stroke in case of accidental weakening of the tension of the traction rope, which requires the use of a special locking device.

 A known method of preparing a cable on an unwinding drum for the subsequent organization of the loop (see French patent N 2650805, Mcl N 02 G 1/06, B 65 H 65/00, publ. In 1992), in which the auxiliary drum wrap the required cable length E, then rewind part of the total cable length E1 to the intermediate drum and, using part of the remaining cable length E2, form a loop on the working drum that is fixed, and then rewind the remaining part of the E2 cable length remaining after the loop is formed onto the working drum drum and paral tionary this winding without separation in the same direction to rewind the snare drum from the intermediate portion of the cable length E1. Moreover, the winding on the working drum of the cable part E1 and the part of the cable E2 remaining after the formation of the loop is carried out simultaneously. The method also provides for the possibility of winding unequal parts of the cable K1 and E2.

 Since this method is used to organize the loop, the main purpose of the further use of the cable prepared by the described method is the ability to have un-spaced cable ends (cable ends in one place). Because of this, the described method cannot be used during subsequent winding of the cable onto the wires by winding it from the working drum, which should be carried out by pulling the cable in one direction with the translational movement of the working drum along the wire.

 This method is selected for the prototype.

 The objective of the invention is to provide the possibility of winding a wire, in which the unwinding of the cable from the working drum to the wires was carried out with the translational movement of the drum along the wire while eliminating cable breakage, for example, when the snow is sticking.

 The solution to this problem is provided in the proposed method of winding the cable onto the wires, in which the required cable length E is wound onto the auxiliary drum, part of the cable length E1 is unwound from it, then, using part of the remaining cable length E2, a loop is formed on the working drum, which is fixed, and carry out the winding of the remaining part of the length of the cable E2 after the formation of the loop on the working drum at the same time as part of the length of the cable E2, the differences of which is that before winding the working drum is worn coaxially the gadfly, and the winding of the cable parts E1 and E2 on the working drum is carried out in opposite directions from the loop, then one end of the cable is attached to the wire, the working drum is attached to a plumb line that impedes the rotation of the working drum, and the working drum is informed of translational movement along the wire during which the discharge turns from the working drum to the wire until the loop is released, fix the cable in this place on the wire and continue the progressive movement of the working drum along the wire until the cable is completely unwound.

 Since the working drum is coaxially put on the wire before winding, and the parts of the cable are wound on the working drum after the loop is formed from it in different directions, this subsequently allows the cable to be unwound onto the wire from the working drum in one direction (in the direction of translational movement of the working drum) . Unwinding to the loop exit allows you to install a cable fastening element, such as a clip, in this place and fasten the drum to a plumb line, stopping its rotation, unwind the cable to the other side of the loop, which eliminates the possibility of cable breakage if the wire is damaged.

 At the same time, the translational movement of the working drum coaxially mounted on the wire of the working drum, during which the coils are reset, eliminates the possibility of cable damage during winding. It should be noted that the proposed method can be carried out by winding the cable and longer than E1 + E2 lengths, where E1 + E2 cable length corresponding to the span between the points of suspension of the wire.

 In this case, after coiling a length of E1 + E2, the remaining length of E3 is wound in a similar manner.

 The implementation of the proposed method can be explained using FIG. 1a, b, c, d, which shows the sequence of operations for implementing the method.

 A device for feeding wire (see AS USSR N 1283113, class B 65 N 51/00, publ. 15.01.87), which can be used when winding the side rings of tires of pneumatic tires to reduce wire breakage for constant tension wire feed.

 The device contains a brake drum, rigidly mounted on a rack, made with the possibility of rotation, a removable coil with wire. At the same time, a rod with a follower roller is also pivotally mounted on the rack, and a two-arm lever pivotally mounted on the rod, one end of which is connected by a spring to the rod and the other is equipped with an articulated brake shoe for interacting with the brake drum. In addition, the device has a guide roller mounted on the bracket.

 When applying wire to the template of the machine for winding rings, the follower with traction due to the tension of the wire is in the upper position, and the two shoulders lever slightly presses the brake pad against the brake drum, creating a weak and constant tension of the wire. When the wire feed speed decreases, its tension decreases, and it sags between the roller and the coil. In this case, the follower roller with traction is lowered under the influence of its own weight so that the lever, turning clockwise, stretches the spring and presses the brake shoe against the brake drum with increasing force. With an increase in the wire feed speed, the follower roll rises due to the wire tension together with the rod, turning the lever counterclockwise so that the brake shoe is pressed against the brake drum with less force. Thus, the braking torque on the brake drum changes in direct proportion to the change in the wire feed speed, and remains constant at a constant speed, which creates a constant wire tension. However, this device only solves the problem of winding wire rings by feeding it to the machine template with constant tension, but cannot be used when winding the cable onto the wires with the exception of its break. In addition, the device is a complex mechanical system, and therefore its use is difficult.

 A device for navigating a wok on wires and lightning protection cables of overhead power transmission lines, developed by ORGRES, manufacturer "Micron". This device contains at least one working drum on which the cable is wound, and from which the cable is reeled up by towing it through wires or cables using any pulling mechanism (including, for example, a lead from the ground). As the cable is unwound from the working drum, its weight reduction should be compensated, for which purpose a balance system is provided in the device, which moves the plumb in the form of a counterweight, balancing the drum with the cable along the console. And to create optimal wok tension during winding, the device has a locking device that eliminates the reverse stroke in case of accidental weakening of traction.

 Thus, the device requires sufficiently sophisticated balancing and tracking to prevent cable breakage during winding and to compensate for its weight, as well as the use of a locking device to prevent reverse motion. In addition, the device does not exclude the possibility of breakage when the wire is damaged.

 This device is selected for the prototype.

 The objective of the invention is to provide a device that does not require complex balancing, tracking and stopper when winding the cable onto the wires while eliminating its breakage.

 The solution to this problem is provided in a device for winding a cable onto wires containing a working drum, a thrust element, a plumb, configured to communicate with the working drum, which further comprises an auxiliary drum for pre-winding the required cable length, a housing that can be moved onto the wire along the wire and consisting of two parts, rigidly, detachably interconnected and representing metal rectangles of the P-inverse profile, each of which span two semi-axles, fastened together, forming a single shaft, while the shafts are mounted from each other at a distance equal to the length of the working drum and have two samples along the perimeter, one of which serves for fixing with the possibility of rotation of the working drum, worn on the shafts and having a slot along its entire length to pass the wire, and the other to strengthen the two elements of the discharge of coils, sequentially installed one after the other close to one of the cheeks of the working drum, a clip for fixing the cable to the wire, and the plumb line is tightly closed replen on the case and has a stopper to prevent rotation of the working drum when winding the cable, a device for fixing on the plumb of the auxiliary drum and the cable winding unit on the working drum.

 At the same time, to ensure uniform winding of the cable by dumping it from the working drum and eliminating cable breakage, the dumping element consists of a sleeve with a side slot for passing a wire made with the possibility of controlling the rotation force, for example, using a tightening bolt at a distance l> R, where R is the radius of the cheek of the working drum, guides are fixed for dropping turns of cable from the drum, each of which is a flat metal rectangle divided into two parts with an opening along dividing lines for cable transmission, and the guides are made to rotate around its axis. The presence in the proposed device of the housing and shafts made in the above manner, provides the ability to uniformly move the proposed device along the wire.

 Moreover, the presence of freely rotating dumping elements and guides installed on them, made with the possibility of free rotation around its axis, securing the cable to the wire and providing the possibility of winding the cable onto the working drum with the formation of a loop on it, as well as placing the working drum on the same axis with the wire due to the presence of slots in the working drum and the creation of traction, they evenly drop cable turns from the working drum to the wire with a constant pitch. This eliminates cable breakage when it is wound onto wires and does not require additional balancing and tracking of the naviv, because the winding pitch is determined only by the circumference of the working drum. At the same time, the cable is fixed to the wire at the loop exit point using a clamp that releases the cable when the wire is broken, eliminates cable breakage when the wire is broken (the wire freely drops out of the cable turns).

 The invention is illustrated in FIG. 1 and 2.

 In FIG. 2, according to which the device provides winding onto a wire 1, for which, for example, a phase wire of a power line (power transmission line) or a lightning protection cable can be used, cable 2, for example, fiber optic (FOC).

 The device consists of a housing 3 made of two detachable metal parts of a U-shaped profile, inside of which rolling rollers are placed, which provide free movement of the housing along the axis of the wire 1, and from the outside of the halves of the housing 3, two half shafts 4 are rigidly fixed, and when connecting the halves of the housing 3 so that they cover the wire 1, the half-shafts 4 form a complete shaft, the axis of which coincides with the axis of the wire 1. Two elements for resetting the turns 5, cable 2 and the working drum are installed in series on the formed shaft 6 with a slot and a stopper 7. In turn, each discharge element 5 consists of a guide 8 with a hole that can be rotated around its axis, mounted on the sleeve 9, using bearing 10, and the distance from the axis of the wire 1 to the axis of the hole in the guide 8, through which the cable 2 passes, should be larger than the radius of the cheek of the working drum 6. On the opposite side of the housing 3, a plumb bracket 11 is fixed on which the auxiliary drum 12 and the assembly 13 with a lever 14 for winding and adjusting the winding force of the cable are mounted 2 to the working drum 6.

 A clip is included in the device to secure the cable to the wire.

 The implementation of the cable to wire method is carried out in the proposed device in two stages: 1 preparatory stage, 2 working stage.

 Stage 1.

 On the auxiliary drum 12 evenly, turn to turn, wrap the construction length E of cable 2, and winding can be carried out in any convenient or intended place for this, either manually or mechanically. At the same time, the device is installed on the wire 1 in the following sequence: on the wire 1 is installed the housing 3 of the device, the halves of which are fastened, for example, using locks such as a latch; on the full shaft formed on the installed housing 3, put on the dumping elements 5, which are fixed on it, for example, using the above-mentioned similar latches and the possibility of free rotation in the direction of arrow A, wire 1 is passed into the slot of the working drum 6 and the working drum 6 is pushed onto the shaft 9 , where they are fixed, for example, using a clamp specially installed in the shaft sample, allowing it to freely rotate on the shaft in the direction C; on the opposite side of the casing 3, the plumb bracket is rigidly fixed with the assembly 13 mounted on it and the lever 14 for winding the cable, as well as a traction element creating a traction force F directed along the wire 1; as a traction element, either a special mechanism or a cable can be used. The auxiliary drum 12 with a cable of length E is installed on the bracket-plumb 11 in the corresponding slots, after which a cable of length E1 / 2 is unwound from it, where E1 is the cable length required for winding on this span, and in this place on the cable 2 form a loop, which is fixed on the working drum 6. Then rotate the working drum 6 in the direction of the arrow C, for example, mechanically using the node 11 and the lever 12 or manually and lay two cables emanating from the loop evenly, turn to turn, in different directions until while the length E1 / 2 is fully u is wound not on the working drum 6. The free end of the cable 2 is passed into the guide hole 8 relief elements 5 and fix it on wire 1, for example with a clamp which may be configured similarly to the clamp disclosed in the German Patent N 3611770, cl. H 02 G 7/05, publ. 1987 fix the working drum 6 using the stopper 7, excluding its rotation about its axis.

 2 stage.

 Create a pulling force sufficient to uniformly move the device along the wire 1. At the same time, due to the elasticity of the cable 2, the throw elements 5 come into rotation in the direction of arrow A, sequentially dropping the turns of cable 2 from the working drum 6. The device is moved until the loop is released. At this point, the cable is fixed to the wire 1, for example, using the same clamp as above and the device continues to move along the wire 1, while the reset elements 5 begin to rotate in the other direction. After winding the entire cable 2 from the working drum 6, the device is rearranged to the next span and the preparatory operations are repeated.

 It should be noted that in the sequence and content of operations to implement the method using the proposed device, refinements can be made that do not change the essence of the method, depending on the requirements that arise in each specific situation. For example, the auxiliary drum 12 may not be mounted on a plumb bracket (if the weight of the cable is large and the wire is thin).

Claims (3)

1. A method of winding a cable onto a wire, in which the required cable length is wound around the working drum, the latter is installed with the possibility of translational movement along the wire and, in the process of moving, the cable turns from the drum are successively removed onto the wire, characterized in that the working drum is wound coaxially onto the wire before winding wire, prewound the required cable length onto the auxiliary drum, unwind part of the cable length E _{1 from it} , then use part of the cable length remaining on the auxiliary drum bleaching E ₂ , form a loop, which is fixed on the working drum, and carry out the winding of the parts E ₁ and E ₂ on the working drum in different directions from the loop, after which the working drum is fixed from rotation, and the progressive movement along the axis of the wire is informed to it during which carry out the discharge of turns from the working drum to the wire until the loop is released, fix the cable in the loop zone on the wire, and continue to translate the drum until the cable is completely unwound.  2. A device for winding a cable onto wires, comprising a housing that can be put on the wire and move along it, having parts that are detachably interconnected to fix the relative position, two cable reels, the first of which is rotatably mounted on the housing, an arm and a traction element, characterized in that it is provided with a clip for securing the cable to the wire, the housing is made in the form of two U-shaped rectangles on which are installed at a distance from the outside, corresponding to the length of the first drum, two shafts, each of which is formed by a pair of half-shafts fastened together, and has two samples along the perimeter, one of which is designed to be mounted on the shaft with the possibility of rotation of the first drum, and the other for fastening two coil reset elements, sequentially installed one after the other close to one of the cheeks of the first drum, made with a slot along the entire length for passing the wire, the bracket is rigidly fixed to the housing from the side opposite to the placement of the relief elements of the coils and It has a stopper to prevent rotation of the first drum when winding the cable, a cable winding assembly on the first drum and a device for attaching the second drum to the bracket.  3. The device according to claim 2, characterized in that the turn-off element consists of a sleeve with a side slot for passing a wire made with the possibility of regulating the rotation force, for example, by means of a tightening bolt, at a distance exceeding the radius of the cheek of the working drum, guides are fixed for dropping cable turns from the drum, each of which is a flat metal rectangle divided into two parts with a hole along the dividing line for cable passage, and the guides are made with the ability to rotate around its axis.

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