JP6807085B2 - Wire replacement method and roller unit for wire replacement work - Google Patents

Description

The present invention relates to an electric wire replacement method and a roller unit for electric wire replacement work.

A wire replacement method is known in which an existing electric wire is collected and a new electric wire is erected. When replacing a plurality of existing electric wires with a plurality of new electric wires, the plurality of existing electric wires are collected one by one in order.

As a related technique, Patent Document 1 discloses a cable drawing roller. The cable wire drawing roller described in Patent Document 1 has a four-sided roller portion for guiding the cable.

Further, Patent Document 2 discloses an electric wire drawing roller device. The electric wire wire drawing roller device described in Patent Document 2 includes a plurality of rollers, a bearing frame that supports the rotation shaft of each roller, and a guide plate. The plurality of rollers form a wire guide hole through which the wire is inserted. The guide plate is installed on the bearing frame and functions to hold the wire in the wire guide hole. The guide plate smoothly draws the electric wire into the electric wire guide hole of the roller unit, and prevents accessories such as the electric wire connection portion from being caught in the roller unit.

Microfilm of Jitsugyo No. 57-55642 (Jitsukai Sho No. 58-159816) Japanese Unexamined Patent Publication No. 6-351121

In the conventional electric wire replacement method, a plurality of existing electric wires are collected one by one in order. Therefore, the work efficiency is low.

Therefore, an object of the present invention is to provide an electric wire replacement method having high work efficiency and a roller unit for electric wire replacement work that contributes to improvement of work efficiency.

The present invention relates to an electric wire replacement method and a roller unit for electric wire replacement work shown below.

(1) The process of connecting the new first electric wire to the existing first electric wire,
The process of connecting the first non-wire wire to the existing second wire,
By pulling the existing first electric wire and the existing second electric wire in the first direction, the existing first electric wire and the existing second electric wire arranged on the electric wire support portion are recovered, and the new first electric wire is recovered. The first wiring step of arranging the electric wire on the electric wire support portion and
A separation step of separating the first non-electric wire and the existing second electric wire from each other,
The process of connecting the newly installed second wire to the first non-wire wire, and
By pulling the first non-electric wire wire in the second direction, the first non-wire wire arranged on the electric wire support portion is recovered, and the newly installed second electric wire is arranged on the electric wire support portion. A method of replacing electric wires, which comprises a second wiring process.
(2) When the existing first electric wire and the existing second electric wire are collected, the electric wire connecting member for connecting the existing first electric wire and the existing second electric wire is also collected. The electric wire tension according to the above (1). How to replace.
(3) Further provided with an insertion step of inserting the existing first electric wire and the existing second electric wire into the same roller unit.
The electric wire replacement method according to (1) or (2) above, wherein the insertion step is executed before the first wiring step.
(4) An existing electric wire cutting process for cutting an existing electric wire arranged on the side opposite to the side on which the roller unit is arranged when viewed from a utility pole.
The above further includes an existing electric wire reconnection step of reconnecting the first cut end portion and the second cut end portion formed by the existing electric wire cutting step on the side where the roller unit is arranged as viewed from the utility pole. The electric wire replacement method according to (3).
(5) The first wiring step is executed by using the existing first electric wire and the electric wire collecting device for winding the existing second electric wire.
The wire replacement method according to any one of (1) to (4) above, wherein the second wiring step is executed using a non-wire recovery device for winding the first non-wire wire.
(6) A third wiring process for arranging the newly installed third electric wire on the electric wire support portion is further provided.
The third wiring step is
It is executed by pulling the existing third electric wire to which the new third electric wire is connected together with the existing first electric wire and the existing second electric wire in the first direction, or
The electric wire replacement method according to any one of (1) to (5) above, which is executed by pulling a second non-electric wire rod to which the newly installed third electric wire is connected in the second direction.
(7) A roller unit for electric wire replacement work used in the electric wire replacement method described in (3) above.
Roller unit body and
It is provided with a mounting part having a wire support part receiving space,
The roller unit main body includes a plurality of rollers that can be arranged so as to surround the existing first electric wire and the existing second electric wire.
At least one of the plurality of rollers is a bottom roller that can be arranged under the existing first electric wire and the existing second electric wire.
A roller unit for electric wire replacement work in which the diameter of the bottom roller is equal to the length in the front-rear direction of the electric wire support portion receiving space or longer than the length in the front-rear direction of the electric wire support portion receiving space.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide an electric wire replacement method having high work efficiency and a roller unit for electric wire replacement work that contributes to improvement of work efficiency.

FIG. 1 is a schematic plan view schematically showing a state before executing the electric wire replacement method in the first embodiment and a state after executing the electric wire replacement method in the first embodiment. FIG. 2A is a flowchart showing an example of the electric wire replacement method according to the first embodiment. FIG. 2B is a flowchart showing an example of the electric wire replacement method according to the first embodiment. FIG. 3 is a schematic plan view schematically showing each step of the electric wire replacement method in the first embodiment. FIG. 4 is a schematic plan view schematically showing each step of the electric wire replacement method in the first embodiment. FIG. 5 is a diagram schematically showing a state in which an upper-stage existing electric wire and a lower-stage existing electric wire are arranged on a utility pole. FIG. 6 is a schematic plan view schematically showing one step of the electric wire replacement method in the second embodiment. FIG. 7 is a schematic three-view view schematically showing the first roller unit. FIG. 8 is a cross-sectional view taken along the line AA of FIG.

Hereinafter, the electric wire replacement method and the electric wire replacement work roller unit (R1) in the embodiment will be described in detail with reference to the drawings. In the present specification, members having the same type of function are designated by the same or similar reference numerals. Then, the repeated description of the members with the same or similar reference numerals may be omitted.

(First Embodiment)
The electric wire replacement method in the first embodiment will be described with reference to FIGS. 1 to 4. FIG. 1 is a schematic plan view schematically showing a state before executing the electric wire replacement method in the first embodiment and a state after executing the electric wire replacement method in the first embodiment. The upper side of FIG. 1 shows the state before the electric wire replacement method is executed, and the lower side of FIG. 1 shows the state after the electric wire replacement method is executed. 2A and 2B are flowcharts showing an example of the electric wire replacement method in the first embodiment. 3 and 4 are schematic plan views schematically showing each step of the electric wire replacement method in the first embodiment.

As shown in FIG. 1, in the first embodiment, the existing electric wires (Wp1, Wp2, Wp3) are replaced with new electric wires (Wn1, Wn2, Wn3). FIG. 1 shows an example in which three existing electric wires are replaced with three new electric wires. Alternatively, two existing wires may be replaced with two new wires, and N (“N” is any natural number of 4 or more) existing wires are replaced with N new wires. May be good.

FIG. 1 shows an example in which existing electric wires Wp erected on four utility poles (C1, C2, C3, C4) are replaced with new electric wires Wn, but the number of electric wires to be replaced is three or less. It may be an electric wire erected on a utility pole, or it may be an electric wire erected on five or more utility poles. In addition, in FIG. 1, the distance between utility poles, the size of the arm metal M (electric wire support portion 92) supported by the utility pole, etc. do not reflect the actual distance, size, etc. for the purpose of making the explanation easy to understand.

In the example described in FIG. 1, the first utility pole C1 is provided with the first electric wire support portion 92-1 (arm metal), and the second utility pole C2 is provided with the second electric wire support portion 92-2 (arm metal). The third utility pole C3 is provided with a third electric wire support portion 92-3 (arm metal), and the fourth utility pole C4 is provided with a fourth electric wire support portion 92-4 (arm metal). Each electric wire support portion 92 supports the existing first electric wire Wp1, the existing second electric wire Wp2, and the existing third electric wire Wp3.

In the example described in FIG. 1, the existing first electric wire Wp1 and the existing second electric wire Wp2 are connected by an electric wire connecting member CN. The electric wire connecting member CN is a flexible wire rod. The electric wire connecting member CN prevents the broken electric wire from hanging significantly toward the ground when any of the existing electric wires Wp is broken. When three existing electric wires Wp are arranged on the electric wire support portion 92, the electric wire connecting member CN connects the three existing electric wires (Wp1, Wp2, Wp3). As will be described later, in the first embodiment, the electric wire connecting member CN can be recovered together with the existing electric wire Wp (see the lower diagram of FIG. 1).

In the example described in FIG. 1, the electric wire connecting member CN is arranged between the second utility pole C2 and the third utility pole C3. Alternatively or additionally, the electric wire connecting member CN may be arranged between the first utility pole C1 and the second utility pole C2, and the electric wire connecting member CN may be arranged between the third utility pole C3 and the fourth utility pole C4. The member CN may be arranged. Further, the number of electric wire connecting members CN arranged between two adjacent utility poles may be two or more.

(Overview of the equipment used for the wire replacement method)
In the example described in FIG. 1, the wire recovery device 3, the wire feeding device 5, and the non-wire wire feeding device 7 are arranged at the place where the wire replacement method is executed.

In the example described in FIG. 1, the electric wire collecting device 3 is mounted on the first vehicle V1, and the electric wire collecting device 3 includes the electric wire collecting drum 3a.

In the example described in FIG. 1, the wire feeding device 5 includes a wire feeding drum 5a. A new electric wire Wn is wound around the electric wire feeding device 5 (electric wire feeding drum 5a) in advance. The electric wire feeding device 5 is installed on the ground, for example.

In the example described in FIG. 1, the non-wire wire feeding device 7 is mounted on the second vehicle V2, and the non-wire wire feeding device 7 includes a non-wire wire feeding drum 7a. The non-wire wire material feeding device 7 (non-electric wire wire material feeding drum 7a) is wound with the non-wire wire material Q in advance.

(How to replace the wire)
Subsequently, the electric wire replacement method in the first embodiment will be described. In the first step ST1, a device for executing the electric wire replacement method is arranged at a place where the electric wire replacement method is executed. In the example described in FIG. 3A, the device for executing the wire replacement method includes a wire recovery device 3, a wire feeding device 5, and a non-wire wire feeding device 7. The device for executing the wire replacement method includes a first roller unit R1 capable of guiding a plurality of wires, a second roller unit R2 capable of guiding one or a plurality of wires, and a guided wire. May include at least one of the resistance-imparting roller units R3 that impart braking force to. In the example described in FIG. 3A, the second roller unit R2 and the resistance imparting roller unit R3 are arranged on the first electric wire support portion 92-1. Further, the first roller unit R1 is arranged in each of the second electric wire support portion 92-2 to the fourth electric wire support portion 92-4.

As shown in FIG. 3B, in the second step ST2, the new first electric wire Wn1 is connected to the existing first electric wire Wp1. The newly installed first electric wire Wn1 is, for example, an electric wire unwound from the first electric wire feeding device 5-1 (first electric wire feeding drum 5a-1). The connection between the new first electric wire Wn1 and the existing first electric wire Wp1 may be performed via a connector S1 such as a sleeve. In the example described in FIG. 3B, the first end portion E1 of the newly installed first electric wire Wn1 and the end portion (cut end portion) of the existing first electric wire Wp1 are connected via the connector S1. ..

In addition, as shown in FIG. 3B, in the second step ST2, the existing electric wire traction wire Y may be connected to the existing first electric wire Wp1.

In the example described in FIG. 3B, the electric wire replacement method includes a first insertion step of inserting the existing first electric wire Wp1 into the first roller unit R1. The first insertion step may be performed before the second step ST2 or after the second step ST2. In the first insertion step, the existing first electric wire Wp1 is, for example, the first roller unit R1-2 arranged in the second electric wire support portion 92-2 and the first roller arranged in the third electric wire support portion 92-3. It is inserted into the unit R1-3 and the first roller unit R1-4 arranged in the fourth electric wire support portion 92-4.

As shown in FIG. 3B, in the third step ST3, the first non-wire wire Q1 is connected to the existing second wire Wp2. The first non-electric wire wire Q1 is, for example, a wire unwound from the first non-wire wire feeding device 7-1 (first non-wire wire feeding drum 7a-1). The first non-electric wire wire Q1 is, for example, a rope. The connection between the first non-electric wire wire Q1 and the existing second electric wire Wp2 may be performed via a connector S2 such as a swivel. In the example described in FIG. 3B, the first end portion of the first non-electric wire wire Q1 and the end portion (cut end portion) of the existing second electric wire Wp2 are connected via the connector S2. ..

In addition, as shown in FIG. 3B, in the third step ST3, the existing electric wire traction wire Y may be connected to the existing second electric wire Wp2.

In the example described in FIG. 3B, the electric wire replacement method includes a second insertion step of inserting the existing second electric wire Wp2 into the first roller unit R1. The second insertion step may be performed before the third step ST3 or after the third step ST3. In the second insertion step, the existing second electric wire Wp2 is, for example, the first roller unit R1-2 arranged in the second electric wire support portion 92-2 and the first roller arranged in the third electric wire support portion 92-3. It is inserted into the unit R1-3 and the first roller unit R1-4 arranged in the fourth electric wire support portion 92-4.

The third step ST3 may be executed before the second step ST2 or after the second step ST2. In the example described in FIG. 3B, after the execution of the second step ST2 and the third step ST3, the existing first electric wire Wp1 and the existing second electric wire Wp2 are inserted into the same first roller unit R1. It has become. More specifically, both the existing first electric wire Wp1 and the existing second electric wire Wp2 are inserted into one first roller unit R1-2 arranged in the second electric wire support portion 92-2 to support the third electric wire. It is inserted into one first roller unit R1-3 arranged in the portion 92-3, and is inserted into one first roller unit R1-4 arranged in the fourth electric wire support portion 92-4. There is.

When collecting three existing electric wires (Wp1, Wp2, Wp3) at the same time, the electric wire replacement method includes the fourth step ST4 described below.

In the fourth step ST4, the second non-wire wire Q2 is connected to the existing third wire Wp3. The second non-electric wire wire Q2 is, for example, a wire unwound from the second non-wire wire feeding device 7-2 (second non-wire wire feeding drum 7a-2). The second non-electric wire wire Q2 is, for example, a rope. The connection between the second non-electric wire wire Q2 and the existing third electric wire Wp3 may be performed via a connector S3 such as a swivel. In the example described in FIG. 3B, the first end EL1 of the second non-wire wire Q2 and the end EL2 (cut end) of the existing third wire Wp3 are connected via the connector S3. ing.

In addition, as shown in FIG. 3B, in the fourth step ST4, the existing electric wire traction wire Y may be connected to the existing third electric wire Wp3.

In the example described in FIG. 3B, the electric wire replacement method includes a third insertion step of inserting the existing third electric wire Wp3 into the first roller unit R1. The third insertion step may be performed before the fourth step ST4 or after the fourth step ST4. In the third insertion step, the existing third electric wire Wp3 is, for example, the first roller unit R1-2 arranged in the second electric wire support portion 92-2 and the first roller arranged in the third electric wire support portion 92-3. It is inserted into the unit R1-3 and the first roller unit R1-4 arranged in the fourth electric wire support portion 92-4.

In the fourth step ST4 described above, the second non-wire wire Q2 is connected to the existing third wire Wp3. However, the wire connected to the existing third electric wire Wp3 may be a new electric wire (new third electric wire) instead of the second non-electric wire wire Q2. In this case, the above-mentioned fourth step ST4 is replaced with the fifth step ST5 described below.

In the fifth step ST5, the newly installed third electric wire is connected to the end EL2 (first cut end) of the existing third electric wire Wp3. In addition, the existing electric wire towing wire Y may be connected to the end portion (second cut end portion) of the existing third electric wire Wp3. The electric wire replacement method includes a third insertion step of inserting the existing third electric wire Wp3 into the first roller unit R1. Since the third insertion step has already been described in the above description of the fourth step ST4, the repeated description of the third insertion step will be omitted.

The fourth step ST4 (or the fifth step ST5) may be executed before the second step ST2 or after the second step ST2. Further, the fourth step ST4 (or the fifth step ST5) may be executed before the third step ST3, or may be executed after the third step ST3. When collecting only two existing electric wires (Wp1 and Wp2) at the same time, the above-mentioned fourth step ST4 and fifth step ST5 are unnecessary. Further, when the electric wire connecting member CN is arranged on the three existing electric wires (Wp1, Wp2, Wp3) and only the two existing electric wires (Wp1, Wp2) are collected at the same time, the existing second electric wire Wp2 and the existing second electric wire Wp2 and The electric wire connecting member CN may be cut between the existing third electric wires Wp3.

In the sixth step ST6, the newly installed first electric wire Wn1 is arranged on the electric wire support portion 92. The sixth step ST6 includes a first wiring step. Hereinafter, the first wiring process will be described in detail.

In the sixth step ST6, as shown in FIGS. 3 (b) and 3 (c), the existing first electric wire Wp1 and the existing second electric wire Wp2 (and the existing third electric wire Wp3) are pulled in the first direction. To. By the traction, the existing first electric wire Wp1 and the existing second electric wire Wp2 (and the existing third electric wire Wp3) arranged on the electric wire support portion 92 are recovered. The traction and recovery are performed by the wire recovery device 3 (wire recovery drum 3a). The towing may be performed by the existing electric wire towing wire Y connected to the electric wire collecting device 3 pulling the existing first electric wire Wp1 and the existing second electric wire Wp2 (and the existing third electric wire Wp3). ..

The existing first electric wire Wp1 is connected to the new first electric wire Wn1. Therefore, when the existing first electric wire Wp1 is recovered, the new first electric wire Wn1 automatically moves on the electric wire support portion 92 (more specifically, the first roller unit R1 attached to the electric wire support portion 92). It will be arranged in (above) (see FIG. 3 (c)).

In the example described in FIG. 3B, the newly installed first electric wire Wn1 is arranged on the resistance applying roller unit R3. When the electric wire recovery device 3 is driven so as to resist the resistance force of the resistance applying roller unit R3 (in other words, when the electric wire recovery drum 3a is rotationally driven), the newly installed first electric wire Wn1 moves in the first direction. Further, when the drive of the electric wire recovery device 3 is stopped (in other words, when the rotation of the electric wire recovery drum 3a is stopped), the newly installed first electric wire Wn1 moves in the first direction due to the braking force of the resistance applying roller unit R3. To stop. Therefore, when the drive of the electric wire recovery device 3 is stopped, the new first electric wire Wn1 is suppressed from moving in the first direction due to the inertial force, and the new first electric wire Wn1 is suppressed from loosening downward.

When the electric wire connecting member CN is arranged between the existing first electric wire Wp1 and the existing second electric wire Wp2, when the existing first electric wire Wp1 and the existing second electric wire Wp2 are recovered, the electric wire connecting member CN also It will be collected automatically. In other words, when N existing electric wires are collected at the same time, the electric wire connecting member CN is also automatically collected. Therefore, no extra work is required to collect the electric wire connecting member CN.

In the example described in FIG. 3B, the existing second electric wire Wp2 is connected to the first non-electric wire wire Q1. Therefore, when the existing second electric wire Wp2 is recovered, the first non-electric wire wire Q1 automatically moves on the electric wire support portion 92 (more specifically, the first roller unit attached to the electric wire support portion 92). It will be arranged on R1) (see FIG. 3C).

Further, in the example described in FIG. 3B, in the above-mentioned fourth step ST4, the existing third electric wire Wp3 is connected to the second non-electric wire wire Q2. Therefore, when the existing third electric wire Wp3 to which the second non-electric wire wire Q2 is connected is towed in the first direction together with the existing first electric wire Wp1 and the existing second electric wire Wp2, the second non-electric wire wire Q2 automatically becomes. Therefore, it is arranged on the electric wire support portion 92 (more specifically, on the first roller unit R1 attached to the electric wire support portion 92) (see FIG. 3C).

Alternatively, in the above-mentioned fifth step ST5, it is assumed that the existing third electric wire Wp3 is connected to the third new electric wire. In this case, when the existing third electric wire Wp3 to which the third new electric wire is connected is towed in the first direction together with the existing first electric wire Wp1 and the existing second electric wire Wp2, the third new electric wire is automatically pulled. , It will be arranged on the electric wire support portion 92 (more specifically, on the first roller unit R1 attached to the electric wire support portion 92). The process of arranging the third new electric wire on the electric wire support portion 92 is called a third wiring process.

In the example described in FIG. 3B, the existing first electric wire Wp1 and the existing second electric wire Wp2 (and the existing third electric wire Wp3) are one first roller unit R1 on the second electric wire support portion 92-2. It is inserted in -2. Therefore, the two (or three) existing electric wires Wp can be smoothly collected. Similarly, in the example described in FIG. 3B, the existing first electric wire Wp1 and the existing second electric wire Wp2 (and the existing third electric wire Wp3) are one first on the third electric wire support portion 92-3. It is inserted through the roller unit R1-3 and is inserted through one first roller unit R1-4 on the fourth electric wire support portion 92-4. Therefore, the two (or three) existing electric wires Wp can be smoothly collected.

In the seventh step ST7, the connection between the new first electric wire Wn1 and the existing first electric wire Wp1 is released (in other words, the new first electric wire Wn1 and the existing first electric wire Wp1 are separated from each other). .. Further, in the seventh step ST7, the newly installed first electric wire Wn1 is removed from the first roller unit R1 (see the arrow AR1 in FIG. 3C). For example, the newly installed first electric wire Wn1 is the first roller unit R1-2 attached to the second electric wire support portion 92-2, the first roller unit R1-3 attached to the third electric wire support portion 92-3, and , It is removed from the first roller unit R1-4 attached to the fourth electric wire support portion 92-4. The newly installed first electric wire Wn1 removed from the first roller unit R1 may be temporarily fixed to the electric wire support portion 92.

The seventh step ST7 is performed after the execution of the sixth step ST6.

In the eighth step ST8, the connection between the first non-wire wire Q1 and the existing second wire Wp2 is released (in other words, the first non-wire wire Q1 and the existing second wire Wp2 are separated from each other. .). Further, in the eighth step ST8, the newly installed second electric wire Wn2 is connected to the first non-electric wire wire Q1 separated from the existing second electric wire Wp2 (see FIG. 4A). The newly installed second electric wire Wn2 is an electric wire unwound from the second electric wire feeding device 5-2 (second electric wire feeding drum 5a-2). The connection between the newly installed second electric wire Wn2 and the first non-electric wire wire Q1 may be made via a connector such as a swivel.

The eighth step ST8 is executed after the sixth step ST6.

When the second non-wire wire Q2 is connected to the existing third wire Wp3 in the above-mentioned fourth step ST4, in the ninth step ST9, between the second non-wire wire Q2 and the existing third wire Wp3. The connection is released (in other words, the second non-wire wire Q2 and the existing third wire Wp3 are separated from each other). Further, in the ninth step ST9, the newly installed third electric wire Wn3 is connected to the second non-electric wire wire Q2 separated from the existing third electric wire Wp3 (see FIG. 4A). The newly installed third electric wire Wn3 is an electric wire unwound from the third electric wire feeding device 5-3 (third electric wire feeding drum 5a-3). The connection between the newly installed third electric wire Wn3 and the second non-electric wire wire Q2 may be performed via a connector such as a swivel.

In addition, in the ninth step ST9, the second non-wire wire Q2 may be transferred from the first roller unit R1 to a second roller unit R2 different from the first roller unit R1. In the example described in FIG. 4A, the second non-wire wire Q2 is attached to the second electric wire support portion 92-2 from the first roller unit R1-2 attached to the second electric wire support portion 92-2. The second non-wire wire Q2, which was transferred to the second roller unit R2-2, was transferred from the first roller unit R1-3 to the third wire support 92-3 attached to the third wire support 92-3. It has been transferred to the attached second roller unit R2-3. The second roller unit R2 is attached to the electric wire support portion 92 prior to the second non-electric wire wire Q2 being transferred to the second roller unit R2.

The ninth step ST9 is executed after the sixth step ST6. The ninth step ST9 may be executed before the eighth step ST8, or may be executed after the eighth step ST8.

Alternatively, when the new third electric wire is connected to the existing third electric wire Wp3 in the above-mentioned fifth step ST5, in the tenth step ST10, between the new third electric wire and the existing third electric wire Wp3. The connection is released (in other words, the new third electric wire and the existing third electric wire Wp3 are separated from each other). Further, in the 10th step ST10, the newly installed third electric wire is removed from the first roller unit R1. For example, the newly installed third electric wire includes the first roller unit R1-2 attached to the second electric wire support portion 92-2, the first roller unit R1-3 attached to the third electric wire support portion 92-3, and It is removed from the first roller unit R1-4 attached to the fourth electric wire support portion 92-4. The newly installed third electric wire removed from the first roller unit R1 may be temporarily fixed to the electric wire support portion 92.

The tenth step ST10 is performed after the execution of the sixth step ST6.

In the eleventh step ST11, the newly installed second electric wire Wn2 is arranged on the electric wire support portion 92. The eleventh step ST11 includes a second wiring step. Hereinafter, the second wiring step will be described in detail.

In the eleventh step ST11, as shown in FIGS. 4A and 4B, the first non-wire wire Q1 is towed in the second direction. The second direction is a direction different from the first direction, and more specifically, a direction opposite to the first direction. By the traction, the first non-wire wire rod Q1 arranged on the wire support portion 92 is recovered. The towing and recovery are performed by rotating the non-wire wire material feeding device 7 (non-wire wire material feeding drum 7a) in the direction opposite to that at the time of feeding the first non-wire wire material Q1. In this case, the non-wire wire feeding device 7 (non-wire wire feeding drum 7a) functions as a non-wire wire collecting device (non-wire wire collecting drum).

The first non-electric wire wire Q1 is connected to the newly installed second electric wire Wn2. Therefore, when the first non-wire wire Q1 is recovered, the newly installed second wire Wn2 automatically moves on the wire support 92 (more specifically, the first roller unit attached to the wire support 92). It will be placed on R1).

In the example described in FIG. 4B, the newly installed second electric wire Wn2 is arranged on the resistance applying roller unit R3 attached to the electric wire support portion 92 (more specifically, the fourth electric wire support portion 92-4). Has been done. When the non-wire wire feeding device 7 is rotated in the direction opposite to that when the first non-wire wire Q1 is fed so as to resist the resistance force of the resistance applying roller unit R3, the newly installed second wire Wn2 faces the second direction. And move. Further, when the drive of the non-wire wire material feeding device 7 is stopped (in other words, when the rotation of the non-wire wire material feeding drum 7a is stopped), the newly installed second electric wire Wn2 is subjected to the second braking force of the resistance applying roller unit R3. Stop moving in the direction. Therefore, when the drive of the non-wire wire rod feeding device 7 is stopped, the new second electric wire Wn2 is suppressed from moving in the second direction due to the inertial force, and the new second electric wire Wn2 is suppressed from loosening downward. To.

When the newly installed third wire Wn3 is connected to the second non-wire wire Q2 in the ninth step ST9, the second non-wire wire Q2 is pulled in the second direction in the twelfth step ST12. By the traction, the second non-wire wire rod Q2 arranged on the wire support portion 92 is recovered. The traction and recovery are performed by rotating the second non-wire wire wire feeding device 7-2 (second non-wire wire wire feeding drum 7a-2) in the direction opposite to that at the time of feeding the second non-wire wire rod Q2.

The second non-electric wire wire Q2 is connected to the newly installed third electric wire Wn3. Therefore, when the second non-wire wire Q2 is recovered, the newly installed third wire Wn3 automatically moves on the wire support 92 (more specifically, the second roller unit attached to the wire support 92). It will be arranged on R2 (see FIG. 4 (b)). Therefore, by executing the twelfth step ST12, the newly installed third electric wire Wn3 is arranged on the electric wire support portion 92 (third wiring step).

In the thirteenth step ST13, as shown in FIG. 4C, the connection between the newly installed second electric wire Wn2 and the first non-electric wire wire Q1 is released (in other words, the newly installed second electric wire Wn2 and the first non-electric wire Wn2). 1 Non-wire wire Q1 is separated from each other.) Further, in the thirteenth step ST13, the newly installed second electric wire Wn2 is removed from the first roller unit R1 (see the arrow AR2 in FIG. 4B). For example, the newly installed second electric wire Wn2 is a first roller unit R1-2 attached to the second electric wire support portion 92-2, and a first roller unit R1-3 attached to the third electric wire support portion 92-3. Is removed from. The newly installed second electric wire Wn2 removed from the first roller unit R1 may be temporarily fixed to the electric wire support portion 92.

The thirteenth step ST13 is performed after the execution of the eleventh step ST11.

When the new third wire Wn3 is connected to the second non-wire wire Q2 in the ninth step ST9, as shown in FIG. 4C, between the newly installed third wire Wn3 and the second non-wire wire Q2. (In other words, the newly installed third electric wire Wn3 and the second non-electric wire wire Q2 are separated from each other). Further, the newly installed third electric wire Wn3 is removed from the second roller unit R2 (see the arrow AR3 in FIG. 4B). For example, the newly installed third electric wire Wn3 is a second roller unit R2-2 attached to the second electric wire support portion 92-2, and a second roller unit R2-3 attached to the third electric wire support portion 92-3. Is removed from. The newly installed third electric wire Wn3 removed from the second roller unit R2 may be temporarily fixed to the electric wire support portion 92.

As described above, in the first embodiment, the work of replacing the existing electric wire Wp with the new electric wire Wn is efficiently executed. In particular, in the first embodiment, the two existing electric wires (Wp1, Wp2) or the three existing electric wires (Wp1, Wp2, Wp3) are collected at the same time, so that the work efficiency is high. Needless to say, in the first embodiment, four or more existing electric wires may be collected at the same time.

Further, in the first embodiment, the electric wire connecting member CN for connecting the existing electric wires can be recovered together with the existing electric wire Wp. In the conventional electric wire replacement method, the existing electric wires are collected one by one, so that it is necessary to cut the electric wire connecting member before collecting the existing electric wires. On the other hand, in the first embodiment, it is not always necessary to cut the electric wire connecting member CN prior to the recovery of the existing electric wires (Wp1, Wp2). Further, in the first embodiment, when the existing electric wire is towed in the first direction, a non-electric wire rod is connected to at least one of the existing electric wires. The reason is that if N electric wires are collectively towed by the electric wire replacement work roller unit (R1), the electric wires may be mixed with each other. In that case, since the electric wire has a habit, it takes time to separate and remove the mixed electric wire after towing, and the efficiency of the electric wire replacement work deteriorates. On the other hand, if a non-wire wire is connected to at least one of the existing wires, the wire can be easily removed after towing.

(Second Embodiment)
The electric wire replacement method in the second embodiment will be described with reference to FIGS. 5 and 6. FIG. 5 is a diagram schematically showing a state in which the upper existing electric wire Wp-U and the lower existing electric wire Wp-L are arranged on the utility pole C. FIG. 6 is a schematic plan view schematically showing one step of the electric wire replacement method in the second embodiment.

The electric wire replacement method in the second embodiment is different from the electric wire replacement method in the first embodiment in that it includes an existing electric wire cutting step and an existing electric wire reconnecting step. In the second embodiment, the points different from those in the first embodiment will be mainly described, and the repetitive description of the matters explained in the first embodiment will be omitted. Therefore, it goes without saying that the matters explained in the first embodiment can be adopted in the second embodiment.

As shown in FIG. 5, it is relatively easy to move the existing electric wire Wp-U arranged in the upper stage so as to cross above the utility pole C (see arrow AR4). On the other hand, it is difficult to move the existing electric wire Wp-L arranged in the lower stage so as to cross above the utility pole C (see arrow AR5). Therefore, when collecting the plurality of existing electric wires Wp-L arranged in the lower stage, the plurality of existing electric wires Wp-L arranged in the lower stage are placed on one side of the utility pole C (for example, the first roller unit R1 side). In other words, it is difficult to move the existing electric wire (Wp3) across the utility pole C so as to change from the state shown in FIG. 3 (a) to the state shown in FIG. 3 (b).

Therefore, in the second embodiment, the existing electric wire is cut before the insertion step of inserting the existing first electric wire Wp1 and the existing second electric wire Wp2 (and the existing third electric wire Wp3) into the same first roller unit R1. The process is carried out.

As shown in FIG. 6A, in the existing electric wire cutting step, among the existing electric wires Wp, the existing electric wire (Wp3) arranged on the side opposite to the side where the first roller unit R1 is arranged when viewed from the utility pole C. Is disconnected. By executing the existing electric wire cutting step, the existing electric wire (Wp3) is formed with the first cut end portion E4 and the second cut end portion E5.

After executing the existing electric wire cutting step, the existing electric wire reconnecting step of reconnecting the first cut end portion E4 and the second cut end portion E5 is executed. As shown in FIG. 6B, in the existing electric wire reconnection step, the first cut end portion E4 and the second cut end portion E5 are on the side where the first roller unit R1 is arranged as viewed from the utility pole C. Will be reconnected. The reconnection between the first cut end portion E4 and the second cut end portion E5 is performed, for example, via a connector S4 such as a connection sleeve.

In the example described in FIG. 6A, the existing electric wire (Wp3) is cut at a portion corresponding to the second utility pole C2 so that the existing electric wire (Wp3) can cross the second utility pole C2. In addition, the existing wire (Wp3) can cross the third utility pole C3 (and / or the fourth utility pole C4) so that the existing wire (Wp3) can cross the third utility pole C3 (and / or the fourth utility pole C4). ) May be cut at the portion corresponding to). FIG. 6C shows a state after the existing electric wire cutting step is executed a plurality of times and the existing electric wire reconnecting step is executed a plurality of times. More specifically, in FIG. 6C, the existing electric wire cutting step is executed and the existing electric wire reconnecting step is executed at the positions corresponding to the positions where the connecting tools S4 to S6 are arranged. The state after is executed is shown.

It is difficult to move the existing electric wire (Wp3) arranged in the lower stage across the upper part of the utility pole C so as to change from the state shown in FIG. 3 (a) to the state shown in FIG. 3 (b). Similarly, the newly installed electric wire (Wn3) arranged at the lower stage may be moved across the upper part of the utility pole C so as to change from the state shown in FIG. 4 (b) to the state shown in FIG. 4 (c). difficult.

Therefore, in the second embodiment, the newly installed electric wire (for example, the newly installed third electric wire Wn3) is placed on the electric wire support portion 92 (more specifically, the first roller unit R1 or the second roller attached to the electric wire support portion 92). After the wiring step of arranging on the unit R2), a new wire cutting step of cutting the new wire may be provided.

In the new electric wire cutting step, the new electric wire (for example, the new third electric wire Wn3) arranged on the side where the first roller unit R1 is arranged is cut from the utility pole C. By executing the new electric wire cutting step, a first cut end portion and a second cut end portion are formed in the new electric wire.

After the execution of the new electric wire cutting step, the new electric wire reconnection step of reconnecting the first cut end of the new electric wire and the second cut end of the new electric wire is executed. In the new electric wire reconnection process, the first cut end of the new electric wire and the second cut end of the new electric wire are reconnected on the side opposite to the side where the first roller unit R1 is arranged when viewed from the utility pole C. To. The reconnection between the first cut end and the second cut end is performed, for example, via a connector such as a connection sleeve.

The second embodiment has the same effect as that of the first embodiment. In addition, the wire replacement method in the second embodiment includes an existing wire cutting step (and / or a new wire cutting step) and an existing wire reconnecting step (and / or a new wire reconnecting step). .. Therefore, even when it is difficult to move the existing electric wire (and / or the new electric wire) so as to cross the upper part of the utility pole, the electric wire replacement method can be smoothly executed.

(1st roller unit R1)
Subsequently, an example of the first roller unit R1 that can be used in the electric wire replacement method in the embodiment, in other words, the electric wire replacement work roller unit will be described.

FIG. 7 is a schematic three-view view schematically showing the first roller unit R1. A plan view is shown on the upper side of FIG. 7, a front view is shown on the lower left side of FIG. 7, and a side view is shown on the lower right side of FIG. 7. FIG. 8 is a cross-sectional view taken along the line AA of FIG.

The first roller unit R1 includes a roller unit main body 1 and an attachment portion 2 that can be attached to the electric wire support portion 92.

As shown in FIG. 7, the roller unit main body 1 includes a plurality of rollers 80 that can be arranged so as to surround the existing first electric wire Wp1 and the existing second electric wire Wp2. At least one of the plurality of rollers 80 is a bottom roller 80b that can be arranged below the existing first electric wire Wp1 and the existing second electric wire Wp2. The bottom roller 80b is rotatable around a rotation axis AX1 perpendicular to the extending direction of the existing first electric wire Wp1 and the existing second electric wire Wp2.

In the example shown in FIG. 7, at least one of the plurality of rollers 80 is a top roller 80u that can be arranged above the existing first electric wire Wp1 and the existing second electric wire Wp2. The rotation axis of the top roller 80u is parallel to the rotation axis of the bottom roller 80b. The top roller 80u is movable (eg, rotatable, as indicated by arrow AR6) with respect to the side wall 81 of the roller unit body 1 between the open and closed positions. When the top roller 80u is in the open position, the existing first electric wire Wp1 and the existing second electric wire Wp2 can be inserted into the receiving space SP of the roller unit main body 1. On the other hand, when the top roller 80u is in the closed position, the existing first electric wire Wp1 and the existing second electric wire Wp2 located in the receiving space SP are prevented from being separated from the receiving space SP.

In the example described in FIG. 7, the roller unit main body 1 includes a plurality of side rollers 80s. The side roller 80s is a roller arranged on the side of the existing first electric wire Wp1 and the existing second electric wire Wp2. In the example described in FIG. 7, the roller unit main body 1 includes four side rollers 80s. The axis of rotation of each side roller is, for example, parallel to the vertical axis. In the example shown in FIG. 7, four side rollers 80s are arranged at positions corresponding to the four vertices of the quadrangle in a plan view.

Further, in the example shown in FIG. 7, a plurality of rollers 80 are arranged so that the receiving space SP is surrounded by the bottom roller 80b, the top roller 80u, and the plurality of side rollers 80s 360 degrees in the front view. There is. Therefore, the plurality of rollers 80 can smoothly guide the existing first electric wire Wp1 and the existing second electric wire Wp2.

The attachment portion 2 is a portion that can be attached to the electric wire support portion 92 (for example, the arm metal M). The mounting portion 2 includes, for example, a frame member 21 and a fastening member 22. The frame member 21 covers at least a part of the electric wire support portion 92. In the example described in FIG. 7, the frame member 21 has a substantially U-shape (in other words, a substantially U-shape with lateral openings) in a side view. The fastening member 22 includes an operating portion 22a and a pressing portion 22b. By operating the operating portion 22a, the electric wire supporting portion 92 is sandwiched between the frame member 21 and the pressing portion 22b, and the mounting portion 2 is fixed to the electric wire supporting portion 92. In the example shown in FIG. 7, the pressing portion 22b is configured to move in the vertical direction by operating the operating portion 22a.

In the example shown in FIG. 7, the frame member 21 is formed with a side opening 21c. A closing member 23 capable of opening or closing the side opening 21c is attached to the frame member 21. More specifically, the closing member 23 is attached to the frame member 21 so that it can swing around the swing shaft AX2. The swing shaft AX2 is parallel to the rotation shaft AX1 of the bottom roller 80b.

When the closing member 23 is in the open position, the mounting portion 2 passes through the side opening 21c to the wire support portion receiving space SP1 (see FIG. 8) of the mounting portion 2 (more specifically, the frame member 21). ) Can accept the electric wire support portion 92. Further, when the closing member 23 is in the closed position, the electric wire support portion 92 cannot be separated from the electric wire support portion receiving space SP1.

In the example described in FIG. 8, the diameter D1 of the bottom roller 80b is the length D2 in the front-rear direction of the wire support portion receiving space SP1 of the mounting portion 2 (in other words, the length in the front-rear direction of the wire support portion 92). Equal or greater than length D2. In the present specification, the "front-back direction" means the extending direction of the existing first electric wire Wp1, in other words, the direction perpendicular to the rotation axis AX1 of the bottom roller 80b and parallel to the horizontal plane. .. In the example shown in FIG. 8, the electric wire support portion receiving space SP1 is arranged directly below (vertically below) the bottom roller 80b.

When the diameter D1 of the bottom roller 80b is longer than the length D2, when the wire connecting member CN or the like passes over the bottom roller 80b, the wire connecting member CN or the like hanging from the bottom roller 80b is the wire supporting portion 92. It is suppressed from being caught in the wire, and it is suppressed from being caught between the electric wire support portion 92 and the first roller unit R1.

The length of the electric wire support portion 92 in the front-rear direction is generally 4.5 cm or 7.5 cm. Therefore, the diameter D1 of the bottom roller 80b is preferably 7.5 cm or more.

Conventionally, since the diameter of the bottom roller arranged under the existing electric wire is small, the accessory parts of the existing electric wire hanging from the bottom roller may be caught on the arm metal or the like. On the other hand, in the examples shown in FIGS. 7 and 8, since the diameter D1 of the bottom roller 80b is large, the accessory parts of the existing electric wire are unlikely to be caught by the electric wire support portion 92 (for example, the arm metal M) or the like.

The first roller unit R1 may include a skirt portion 8 that covers the mounting portion 2 from the viewpoint of preventing the accessory parts of the existing electric wire hanging from the bottom roller 80b from being caught by the electric wire supporting portion 92 or the like.

In the example described in FIG. 8, the first roller unit R1 has a front skirt portion 8f that covers the front of the mounting portion 2 and a rear skirt portion 8b that covers the rear of the mounting portion 2. In the example described in FIG. 8, the front skirt portion 8f includes a front plate member that covers the front of the mounting portion 2, and the rear skirt portion 8b includes a rear plate member that covers the rear of the mounting portion 2. As can be seen from FIGS. 7 and 8, the width W1 of the front skirt portion 8f (front plate member) is larger than the height H1 of the front skirt portion 8f (front plate member), and the rear skirt portion 8b (rear). The width of the side plate member) is larger than the height of the rear skirt portion 8b (rear side plate member).

The front skirt portion 8f (front plate member) is attached to the roller unit main body 1 or the mounting portion 2, and the rear skirt portion 8b (rear side plate member) is attached to the roller unit main body 1 or the mounting portion 2.

In the example described in FIG. 8, the lower end position of the front skirt portion 8f (front plate member) is lower than the lower end position of the frame member 21, and the lower end position of the rear skirt portion 8b (rear plate member) is the frame member 21. It is lower than the lower end position of. Further, the lower end position of the front skirt portion 8f (front plate member) is higher than the lower end position of the operation portion 22a, and the lower end position of the rear skirt portion 8b (rear side plate member) is higher than the lower end position of the operation portion 22a. .. Therefore, the deterioration of the operability of the operation unit 22a is suppressed while preventing the accessory parts of the existing electric wire from being caught by the electric wire support portion 92 and the like.

It is preferable that at least one of the front skirt portion 8f and the rear skirt portion 8b can be repositioned between an operating position that covers the mounting portion 2 and a retracting position that exposes the mounting portion 2. When the front skirt portion 8f and / or the rear skirt portion 8b is in the retracted position, it is possible to easily execute the work of attaching the attachment portion 2 to the electric wire support portion 92. In the example shown in FIG. 8, the front skirt portion 8f and the rear skirt portion 8b are swingable with respect to the mounting portion 2 (see arrows AR7 and AR8), and are operated by swinging. The position can be changed between the position and the retracted position.

In the examples described in FIGS. 7 and 8, an example in which two existing electric wires (existing first electric wire Wp1 and existing second electric wire Wp2) can be inserted into the receiving space SP of the roller unit main body 1 has been described. However, in the embodiment, three existing electric wires or four or more existing electric wires may be inserted into the receiving space SP of the roller unit main body 1.

The present invention is not limited to each of the above embodiments, and it is clear that each embodiment can be appropriately modified or modified within the scope of the technical idea of the present invention. Further, any component used in each embodiment can be combined with other embodiments, and any component can be omitted in each embodiment.

By using the electric wire replacement method of the present invention and the electric wire replacement work roller unit, the electric wire replacement work can be performed efficiently. Therefore, it is useful for the manufacturer who performs the electric wire replacement work and the manufacturer who manufactures the roller unit for the electric wire replacement work.

1 ... Roller unit body, 2 ... Mounting part, 3 ... Electric wire collection device, 3a ... Electric wire collection drum, 5 ... Electric wire feeding device, 5-1 ... 1st electric wire feeding device, 5-2 ... 2nd electric wire feeding device 5,-3 ... Third wire feeding device, 5a ... Wire feeding drum, 5a-1 ... First wire feeding drum, 5a-2 ... Second wire feeding drum, 5a-3 ... Third wire feeding drum, 7 ... Non Electric wire wire feeding device, 7-1 ... 1st non-electric wire wire feeding device, 7-2 ... 2nd non-electric wire wire feeding device, 7a ... Non-electric wire wire feeding drum, 7a-1 ... 1st non-wire wire feeding drum, 7a -2 ... 2nd non-wire wire feeding drum, 8 ... skirt part, 8b ... rear skirt part, 8f ... front skirt part, 21 ... frame member, 21c ... side opening, 22 ... fastening member, 22a ... operation part, 22b ... Pressing part, 23 ... Closing member, 80 ... Roller, 80b ... Bottom roller, 80s ... Side roller, 80u ... Top roller, 81 ... Side wall, 92 ... Wire support part, 92-1 ... First wire support part, 92 -2 ... 2nd electric wire support, 92-3 ... 3rd electric wire support, 92-4 ... 4th electric wire support, C ... electric pole, C1 ... 1st electric pole, C2 ... 2nd electric pole, C3 ... 3rd electric pole , C4 ... 4th electric pole, CN ... Electric wire connecting member, E1 ... 1st end, E4 ... 1st cut end, E5 ... 2nd cut end, EL1 ... 1st end, EL2 ... end, M ... Arm metal, Q ... non-wire wire, Q1 ... first non-wire wire, Q2 ... second non-wire wire, R1, R1-2, R1-3, R1-4 ... first roller unit, R2, R2-2, R2-3 ... 2nd roller unit, R3 ... Resistance imparting roller unit, S1 to S6 ... Connector, SP ... Receiving space, SP1 ... Wire support receiving space, V1 ... 1st vehicle, V2 ... 2nd vehicle, Wn ... New electric wire, Wn1 ... New first electric wire, Wn2 ... New second electric wire, Wn3 ... New third electric wire, Wp, Wp-L, Wp-U ... Existing electric wire, Wp1 ... Existing first electric wire, Wp2 ... Existing second electric wire , Wp3 ... Existing third electric wire, Y ... Existing electric wire towing wire

Claims (7)

The process of connecting the new first electric wire to the existing first electric wire,
The process of connecting the first non-wire wire to the existing second wire,
By pulling the existing first electric wire and the existing second electric wire in the first direction, the existing first electric wire and the existing second electric wire arranged on the electric wire support portion are recovered, and the new first electric wire is recovered. The first wiring step of arranging the electric wire on the electric wire support portion and
A separation step of separating the first non-electric wire and the existing second electric wire from each other,
The process of connecting the newly installed second wire to the first non-wire wire, and
By pulling the first non-electric wire wire in the second direction, the first non-wire wire arranged on the electric wire support portion is recovered, and the newly installed second electric wire is arranged on the electric wire support portion. A method of replacing electric wires, which comprises a second wiring process. The electric wire replacement method according to claim 1, wherein when the existing first electric wire and the existing second electric wire are collected, the electric wire connecting member for connecting the existing first electric wire and the existing second electric wire is also collected. Further provided with an insertion step of inserting the existing first electric wire and the existing second electric wire into the same roller unit.
The electric wire replacement method according to claim 1 or 2, wherein the insertion step is executed before the first wiring step. An existing electric wire cutting process for cutting an existing electric wire arranged on the side opposite to the side on which the roller unit is arranged when viewed from a utility pole.
A claim further comprising an existing electric wire reconnection step of reconnecting the first cut end and the second cut end formed by the existing electric wire cutting step on the side where the roller unit is arranged as viewed from the utility pole. Item 3. The electric wire replacement method according to item 3. The first wiring step is executed by using the electric wire recovery device for winding the existing first electric wire and the existing second electric wire.
The wire re-covering method according to any one of claims 1 to 4, wherein the second wiring step is executed by using a non-wire recovery device for winding the first non-wire wire. A third wiring process for arranging the newly installed third electric wire on the electric wire support portion is further provided.
The third wiring step is
It is executed by pulling the existing third electric wire to which the new third electric wire is connected together with the existing first electric wire and the existing second electric wire in the first direction, or
The electric wire replacement method according to any one of claims 1 to 5, which is executed by pulling a second non-electric wire rod to which the newly installed third electric wire is connected in the second direction. A roller unit for electric wire replacement work used in the electric wire replacement method according to claim 3.
Roller unit body and
It is provided with a mounting part having a wire support part receiving space,
The roller unit main body includes a plurality of rollers that can be arranged so as to surround the existing first electric wire and the existing second electric wire.
At least one of the plurality of rollers is a bottom roller that can be arranged under the existing first electric wire and the existing second electric wire.
A roller unit for electric wire replacement work in which the diameter of the bottom roller is equal to the length of the electric wire support receiving space in the front-rear direction or longer than the length of the electric wire support receiving space in the front-rear direction.