JP2003209912A - Laying method for hanging wire with hanger - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent a second installation part 1c from stopping at an obstacle by preventing the second installation part 1c from being moved above a hanging wire body 2 at the time of passing it through a sheave 21 when a hanging wire is laid with a hanger A having a cable hanger 1 and constituted so that the second installation part 1c relatively moves between an installation position to the hanging wire body 2 and an upper apart position corresponding to the rotation of a first installation part 1b around a horizontal part 1f. <P>SOLUTION: The hanging wire body 2 provided with the cable hanger 1 is made to pass through the sheave 21 and moved so that the second installation part 1c is ahead of the first installation part 1b in the lengthwise direction of the hanging wire body 2. <P>COPYRIGHT: (C)2003,JPO

Description

Description: BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention
A bridge wire main body stretched between the structures,
With a cable hanger suspended from the overhead wire body
Of the method of laying the wire for the hanger with the hanger
Belongs to the field. 2. Description of the Related Art Conventionally, for example, Japanese Patent Application Laid-Open No. 2001-112
No. 154, adjacent support structures
Stretched between structures (power poles, metal poles, buildings, etc.)
A cable hanger that supports the cable along the trolley wire
As a gar, it is located almost vertically below the
A substantially annular cable support portion having an open portion;
It is provided at both ends of the opening of the holding part,
Separated from each other in the longitudinal direction of the wire
And a first and a second attachment portion attached by
The first mounting portion is provided with respect to the
Attached to be able to rotate around a horizontal axis approximately perpendicular to the wire
And the second mounting portion is the same as that of the first mounting portion.
With the rotation around the horizontal axis,
Between the mounted position and the upper remote position
One configured to be movable is known. This cave
When installing additional cables, the first
By rotating the attachment portion about a horizontal axis, the second attachment portion is removed.
If it is moved to a position above the overhead wire, the first and second
Route the cable between the mounting parts, that is, through the opening of the cable support
Cable can be inserted into the cable support and inserted
After that, the second mounting part moves downward due to the weight of the cable supporting part.
To be attached to the overhead wire
Then, remove the cable hanger from the
No additional work is required, and additional cable
The effect that work efficiency can be significantly improved
Is obtained. [0003] Using a cable hanger as described above,
When laying cables, please refer to the above publication.
Before installing the cable, attach the wire for the
Installed between support structures with cable hanger attached
I do. In other words, the support for the wheel, such as a rope, between the support structures
Cross the wire to support the wheel
Hang a plurality of gold wheels, and use the above
This is done by moving it in its length direction through a line.
At this time, connect the wire for the hangers to the first cable hanger.
Move the mounting part so that it is on the front side of the second mounting part.
Then, by the guide roll of the wheel, the second of the cable hanger
The mounting part 1 rotates about a horizontal axis, thereby
When the support part is almost along the wire
The cable hanger is attached.
Even so, it is possible to easily lay the wire for the bridge. [0004] However, the above-mentioned problems
Cloth for such a wire for hangers (wire for hangers with hangers)
In the installation method, the first mounting portion of the cable hanger is a horizontal shaft.
When pivoted around, the second mounting part is
(The overhead wire main body).
Some obstruction where the mounting part is located above the overhead wire
There is a possibility of being caught by an object. In particular, supporting structures such as telephone poles
There may be many such obstacles near the
And the possibility of being caught by an obstacle increases. Also,
Even if there are no obstacles like this, the wire for the
The second mounting part is either left or right with respect to the
When tilted to the side, the second mounting part is
Possibility of contact with the support plate that supports the car's guide roll
is there. Thus, the second mounting part is a wheel or other obstacle
Cable hanger could be damaged if
Therefore, there is room for improvement. [0005] The present invention has been made in view of such a point.
Yes, and the purpose is to
A cable hanger is suspended from the main body
When laying a wire for a hanger with hangers, how to lay it
By devising the law, the cable
Place the second mounting part of the luanger above the wire main body
So that the second mounting part does not move
Trying to avoid being caught by obstacles
You. [0006] To achieve the above object,
In this invention, the cable hanger
Pass the overhead wire main body through the wheel, and
The second attachment part of the cable hanger is the first in the length direction of the body.
By moving it so that it is in front of the
Therefore, a wire for a hanger with a hanger was laid. Specifically, according to the first aspect of the present invention, adjacent ones
Wire body stretched between supporting structures
And the cable is suspended from the
A cable hanger that is supported along the wire body
It is intended for the method of laying the wire for the
I do. [0008] The cable hanger is
It is located almost vertically below the overhead wire body and the upper part is open.
A substantially annular cable support and an opening in the cable support
Provided at both ends, respectively,
In the longitudinal direction of the wire body
And first and second mounting portions mounted in a state.
And the first mounting portion is disposed on the
Rotatable about a horizontal axis substantially perpendicular to the wire main body
Attached, wherein the second attachment portion is the first attachment portion
With the above rotation about the horizontal axis,
Between the position attached to the body and the remote position above
It is configured to be able to move between
Attach the bull hanger
Beforehand in a wheel or a supporting structure supported by a holding structure
Pass it through the wheel supported by the passed wheel support line, and
The cable hanger has a second
Move so that the attachment part is on the front side of the first attachment part
By doing so, we will lay a wire for the hangers with hangers.
To do. According to the above-described laying method, when passing through the wheel,
The second mounting part of the cable hanger on the wire body
Can be prevented from moving to the side. That is,
Attach the cable hanger.
Move so that the mounting part 2 is on the front side of the first mounting part
First, the second mounting portion or the cable support portion
End of the second mounting portion contacts the guide roll of the wheel.
You. And keep moving the wire body
Then, the first mounting portion rotates around the horizontal axis. This rotation
In the direction, the second mounting part moves above the overhead wire main body.
Not in the direction you want to move, but in the opposite direction
Direction, which cannot be rotated, but is not
The end of the cable support part on the second mounting part side is
And the second mounting portion is substantially in contact with the first mounting portion
Is elastically deformed so that the first mounting portion is
It can rotate around. At this time, the second mounting part is
At the position attached to the wire body
The wire body does not move above the wire body
Simply move to the first mounting portion side along the line. Soshi
With the cable support elastically deformed as described above,
Ride above the guide roll and pass through the wheel. And
Therefore, the wire body for the bridge is attached to the first
Compared to the case of moving so that it is on the front side of the mounting part
To the extent that the cable support is elastically deformed.
Although it is necessary to pull the cable main body with great force,
If the bull support etc. are made of a material that is easily elastically deformed,
Can be pulled. Therefore, the second mounting portion is a wheel
And not be caught by obstacles.
Bull hanger damage can be suppressed. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of the present invention;
It will be described based on the following. 1 to 4 are objects to which the present invention is applied.
This shows a wire A for a hanger with a hanger.
The wire A is connected to an adjacent support structure (not shown).
Z) and the wire body 2 for the overhead
Cable hanger 1 hung on wire main body 2
And The wire body 2 for the above-mentioned bridge is made of seven steels.
Rust-proof plating is applied to the strands of the wires 2a, 2a, ...
It was done. The supporting structure is, for example, an electric
Pillars, metal poles, buildings, etc. [0011] The cable hanger 1 is a wire for
A cable 13 is supported along the main body 2,
As described later, the wire main body 2 for the bridge is placed between the support structures.
Immediately before being stretched, the length direction of the wire body 2
At predetermined intervals (for example, 50 cm intervals)
It has become so. This cable hanger 1 is
It is located substantially vertically below the overhead wire body 2 and the upper part is open.
A substantially annular cable support portion 1a which is opened, and this cable
Both ends of the opening of the support portion 1a (length of the wire body 2
Right and left of the wire body 2
Side (located on both sides in the left-right direction in FIG. 2)
Provided for each of the overhead wire main body 2.
Take the wire strands 2 in a state of being separated from each other in the length direction of the
First and second attachment portions 1b and 1c to be attached.
The cable support 1a and the first and second mountings
The portions 1b and 1c are each composed of one circular wire having a circular cross section (for example, a hard steel wire:
As long as the material can be elastically deformed as described above,
Good). The cable support portion 1a
Is large enough to support a plurality of cables 13
Is formed. In addition, the cable supporting part 1 of the above-mentioned wire rod
The portion corresponding to a is made of polyvinyl chloride (PVC).
Cover member 1d. The first mounting portion 1b is connected to the cable support.
One side (right side in FIG. 4) of the opening on both sides of the holding portion 1a is connected.
And a first vertical portion 1e extending substantially in the vertical direction.
Connected to the upper end of the vertical portion 1e,
On the upper side, a horizontal direction substantially perpendicular to the overhead wire main body 2
And a first vertical portion of the horizontal portion 1f.
A portion connected to the end opposite to the portion 1e and extending substantially vertically.
2 g of vertical parts. The first and second vertical parts
1e and 1g are respectively on the left and right sides of the wire body 2
Water between the first and second vertical portions 1e and 1g.
The average distance is designed to increase downward.
You. The first mounting portion 1b is connected to the first mounting portion 1b.
The wire main body 2 is substantially perpendicular to the wire main body 2
It is mounted to be rotatable about a straight horizontal axis. Concrete
Specifically, the first mounting portion 1 b is
This wire is attached to the wire body 2
The tool 5 is made of a plate material, and is around the wire main body 2 for the bridge.
A substantially annular mounting portion 5a rotatably mounted on the
You. The second mounting portion 1c on the upper surface of the mounting portion 5a
A bent portion 5b bent in an arc shape is provided at the side end portion.
A rotation support portion 5c is formed by the upper surface portion of the attachment portion 5a.
The horizontal portion 1 of the first mounting portion 1b in the rotation support portion 5c
f is rotatably fitted. In other words, this horizontal part 1
f corresponds to the horizontal axis. Tip of the bent portion 5b
Is to prevent the horizontal portion 1f from coming off the rotation support portion 5c.
Is in contact with the upper surface of the mounting portion 5a. Also on
The bent portion 5b is an end surface on the second mounting portion 1c side of the mounting portion 5a.
From the second mounting portion 1c side
The bent portion 5b strikes a movement restricting fitting 10 described later.
Smoothly pivots around the wire main body 2 without hanging
I can do it. In addition, the upper surface part of the mounting part 5a
The upper part of the left and right sides is the length of the wire body 2
Viewed from the side, the horizontal portion 1f of the first mounting portion 1b
And formed substantially along the upper portions of the vertical portions 1e and 1g.
Therefore, the first mounting portion 1b is connected to the
A horizontal direction that is substantially perpendicular to the hanging wire main body 2 with respect to the main body 2
It is attached in a state where relative movement is restricted in the direction. On the other hand, the second mounting portion 1c is
This hook is attached to the
From the attached state, it is impossible to move downward and movable upward
Has been done. That is, the second mounting portion 1c is
As the mounting portion 1b rotates around the horizontal portion 1f,
The position attached to the wire main body 2
It is possible to move each other between upper and remote positions.
You. Specifically, the second mounting portion 1c is formed in a hook shape.
Of the cable support portion 1a at both ends of the opening.
It is connected to the other side (left side in FIG. 4) and extends substantially vertically.
Connected to the first straight portion 1h and the upper end of the first straight portion 1h
And an arc portion 1i straddling the upper side of the overhead wire main body 2,
The end of the arc portion 1i opposite to the first straight portion 1h is contacted.
And a second straight portion 1j extending substantially vertically.
I have. The first and second straight portions 1h and 1j are suspended
1 and 2
And the horizontal distance between the second straight portions 1h and 1j is downward.
It is made to grow. [0015] In the above-mentioned hanging wire body 2, a mounting bracket
Length direction of the wire main body 2 for the mounting portion 5a at 5
On both sides, the mounting portion 5a is
Restricts relative movement in the length direction of the overhead wire body 2
Movement restricting brackets 10, 10 are mounted on the mounting portion 5a.
Leave a slight gap between each end of the cable main body 2 in the longitudinal direction.
Attached. That is, the first mounting portion 1b
Is attached to the wire main body 2
With relative movement restricted along the length of the
ing. Each of the movement restricting brackets 10 is a wire body
2 is provided with a plate-shaped fitting portion 10a fitted around the outside
You. This fitting part 10a has an opening at the lower part (the opening part 10b and
Pentagon (one side of the pentagon)
Is not present due to the opening 10b).
The upper part of the outer peripheral surface and the left and right sides
Have three corners 10c, 10c,. Each of these
The corner portion 10c is larger in the outer peripheral surface than in the other portions in the fitting portion 2.
Since it protrudes in the radial direction, the radial thickness of the fitting portion 2
Even if the (plate thickness) is relatively small, each corner 10c
To prevent the mounting bracket 5 from moving over the fitting portion 2.
It can be stopped. Then, the fitting portion 10a
Is made of a resilient material such as a spring steel material.
By expanding the diameter of the portion 10a (expanding the opening 10b)
Structured so as to be fitted around the outside of the wire main body 2
Have been. The right and left sides of the fitting portion 10a are
The attachment portion 10a is fitted around the outside of the wire
Is located on the outer peripheral portion of the hanging wire main body 2
Locking claws 10d, 10 that bite between the two strands 2a, 2a
d are provided respectively. Each locking claw 10d is
Cut from the periphery except for one side with a substantially U-shaped slit
The detached portion is bent at the one side to form the fitting portion 1
0a from the inner peripheral surface of the fitting portion 10a.
The tip protrudes inward and has a fitting portion 10a.
When the wire is fitted around the outer periphery of the wire body 2
2a, 2a.
Deeply bites between the strands 2a, 2a by elastic restoring force
It has become. Note that both locking claws 10d and 10d are
Are two on both the left and right sides of the overhead wire body 2.
So that it is located between the strands 2a, 2a
The wire main bodies 2 are formed so as to be shifted from each other in the longitudinal direction. When viewed from the side of the fitting portion 10a,
(See the distal end side from the proximal end of each locking claw 10d)
The tip of each locking claw 10d is the length of the wire main body 2
While the wire body 2 for the
Each strand 2a on the outer periphery of
Inclined to By this, each locking claw 10d
The distal end portion corresponds to each strand 2a on the outer peripheral portion of the hanging wire main body 2.
So that the fitting portion 10a is
It cannot move relative to the line body 2 in its length direction.
It is configured as follows. In addition, by each of the locking claws 10d,
The fitting portion 10a cannot rotate around the wire main body 2.
It has become. Below the mounting portion 5a of the mounting bracket 5,
Guy with a substantially rectangular cross section extending along the wire main body 2
So that the moving member 4 moves along the wire main body 2
A guide portion 5d for guiding is integrally formed. This mo
The id portion 5d is viewed from the length direction of the guide member 4,
Around the guide member 4 with the opening 5e at the bottom
It is formed so that it may cover. With this, the guide portion 5
d regulates the movement of the guide member 4 in the vertical and horizontal directions.
And move relatively along the wire main body 2
Along the length of the guide member 4
Support with the relative rotation around the axis
You. The guide member 4 pulls the cable 13
Cable 14 of the cable hanger 1
And is inserted into the supporting portion 1a by pulling it.
It is made of a belt-like long body. This guide member 4
Under one end of the cable, connect one end of the lead wire 14
The inward position of the support portion 1a (preferably approximately the center in the vertical direction)
To the upper part).
Traction hook 17 is attached
(See FIG. 8). Then, the guide member 4 connects the lead wire 14
When towing, the towing hook 17 is positioned below the guide portion 5d.
Inside the opening 5e of the section along the length direction of the overhead wire body 2
Pass through. Here, the wire A for the hangers with the hanger is used.
Will be described. First, new installation of cable 13
Ropes and other supporting wires for railway cars between supporting structures such as telephone poles
20 (see FIG. 6), and the support wire for the wheel
5 and a supporting wheel 21 shown in FIG.
Hang a plurality of them apart from each other. This wheel 21 is
Similar to what has been used since then, the guide
The roll 22 and the guide roll 22 are rotatably supported.
And two support plates 23, 23.
3 and 23 are guide rolls above the guide roll 22.
At the axial center of the tool 22 with a butterfly nut 24
It is fastened and fixed. Also, the upper end of one support plate 23
In this part, the wheel 21 is suspended from the wheel support line 20.
A hanging hook 25 is provided for lifting. In addition, this
Instead of the hanging hook 25, the two supporting plates 23, 23 are used for a wheel
Hanging the wheel 21 by sandwiching the support wire 20
In some cases. On the other hand, the wire main body 2 for the hanging
And wrap it around the drum (not shown)
The guide member 4 is wound around another drum. Soshi
The tip portion of the lever wire body 2 and the guide member 4
And pull them out of each drum at the same speed.
While stretching the wire main body 2 between the support structures
Immediately before, the mounting bracket 5 and the movement restricting bracket are attached to the wire main body 2 for the bridge.
10 and the cable hanger 1 are attached. Sandals
First, the mounting portion 5 of the mounting bracket 5 is attached to the hanging wire main body 2.
a, for which the bent portion 5b is used for the hanging of the upper surface of the mounting portion 5a.
It is located at the front end (right side in FIG. 6) of the wire body 2 in the moving direction.
As well as for the mounting of this mounting part 5a
Fitting of the movement restricting fittings 10 on both sides in the length direction of the wire body 2
The fitting portions 10a, 10a are fitted respectively. The above mounting bracket
5, when the mounting portion 5a is mounted, the length of the
When viewed from the direction, the lower portion of the mounting portion 5a is opened on both left and right sides.
The guide portion 5d is also opened at both the left and right sides.
Side and the guide wire member 2 and the guide member 4
It is sized to allow. With this,
The wire body 2 is attached to the mounting portion 5a of the mounting bracket 5, and the guide member
4 can be fitted into the guide portions 5d, respectively. So
After that, close the opening at the bottom of the mounting part 5a and guide
An opening 5e below the portion 5d is formed to a predetermined size. still,
At this stage, the upper surface of the mounting portion 5a of the mounting bracket 5
The tip of the bent part 5b of the part contacts the upper part of the mounting part 5a.
It is not pointed and is directed almost upward. Next, the first and second cable hangers 1
2 and the right and left sides of the wire body 2
In the state that it is located on both sides,
To rise. In other words, the wire body 2 for the bridge
1b, 1c or through the opening of the cable support 1a
It is to enter the cable support portion 1a. And the above
Both mounting parts 1b, 1c are located above the wire main body 2
Then, the cable hanger 1 is connected to the second mounting portion 1c.
Is the direction of movement of the wire body 2 for the bridge rather than the first mounting portion 1b.
Rotate approximately 90 ° so that it is located on the front side. afterwards,
The horizontal portion 1f of the first mounting portion 1b is supported by the mounting bracket 5 for rotation.
To the second mounting portion 1c.
Hook on the wire main body 2. And the mounting bracket 5
The tip of the bent part 5b on the upper surface of the mounting part 5a
The horizontal portion 1f is brought into contact with the upper surface so that the horizontal
By preventing it from coming off, the cable hanger 1
When the installation to the wire body 2 is completed,
It becomes the overhead wire A. Subsequently, the wire body 2 for the hangers and the guy
Cable hanger while pulling the tip of
1. The wire main body 2 and the guide member 4 are the above-mentioned wheel 2
1 (enclosed by a guide roll 22 and both support plates 23, 23)
To support the overhead wire main body 2 so as to pass through
Stretch between the structures. At this time,
Explain how the gar 1 passes through the wheel 21
First, the wire main body 2 moves in its length direction.
Eventually, as shown in FIG.
Lower end or cable of first straight portion 1h in attachment portion 1c
The end of the first support portion 1a on the second mounting portion 1c side is a guide roll.
Contact 22. Then, the tip of the wire main body 2 is
If you continue to pull the end, the first mounting part 1b will be attached
The attached mounting bracket 5 is connected to a pair of movement restricting brackets 10 and 10.
The relative movement in the length direction of the wire main body 2 is restricted.
The second mounting portion 1 as shown in FIG.
c or the end of the cable support portion 1a on the side of the second mounting portion 1c.
Is pressed by the guide roll 22 to form a circle of the second mounting portion 1c.
The arc portion 1i is substantially in contact with the horizontal portion 1f of the first mounting portion 1b.
In this state, the first mounting portion 1b is
About 90 ° around the horizontal part 1f (clockwise in FIG. 7)
Move. That is, the first mounting portion 1b and the second mounting portion 1
c is in a state where they are separated from each other.
1b is rotated clockwise in FIG. 7 around the horizontal portion 1f.
Even if the second mounting portion 1c is used,
It cannot be moved downward because it is caught by
However, as described above, the second mounting portion 1c is
In a state in which it is substantially in contact with the first mounting portion 1b (horizontal portion 1f),
2 is located immediately near the center of rotation.
Thus, it is possible to rotate. With this rotation,
The cable support portion 1a is located substantially vertically below the
The wire main body 2 for the bridge while being elastically deformed from the position
And ride on the upper side of the guide roll 22
Raise the cable hanger 1 in this state
21. Thus, the cable hanger 1 is placed inside the wheel 21.
After passing through, the first weight of the cable support portion 1a
Of the metal wheel 21 around the horizontal portion 1f.
The direction opposite to the ride on the idling roll 22 (counterclockwise in FIG. 7)
(In the direction of rotation)
And the cable support portion 1a tends to
In a state of being suspended substantially vertically below the suspension wire main body 2.
And the second mounting portion 1c is the first mounting portion 1b
You will be away from you. In this manner, the wire main body 2 is supported.
If it is stretched between the structures, the wire A
The installation is completed and the cable hanger 1 is
It is in a state of being hung at intervals of. In addition, the above-mentioned
The maintenance wire 20 and the wheel 21 support the wire main body 2
Remove after stretching between structures. Next, to lay the cable 13,
Without supporting the lead wire 14 with the cable hanger 1
Pass through the part 1a. That is, as shown in FIG.
A towing hook 17 is attached below the rear end of the guide member 4.
And pull the tip of the lead wire 14 to the towing hook 17.
Hang it. Then, the leading end of the guide member 4 is suspended.
If you pull in the same direction as when the line body 2 was stretched,
The leading end of the lead wire 14 is suspended in the cable support portion 1a.
It is passed in a lowered state. For this reason, the lead wire
It is said that the tip of 14 hits the cable hanger 1
Never. The lead wire 14 is pulled by the guide member 4.
When pulling, the cable 1 is attached to the rear end of the guide member 4.
At the time of additional laying of 3, the lead wire 14 is
So that it can be passed through the
Connect the guide member 4 and install the new guide member 4
It is made to be supported by the guide part 5d of the metal fitting 5. Thereafter, a twist is applied to the rear end of the lead wire 14.
The cable 13 is connected via a return hardware (not shown),
The tip of the lead wire 14 is laid on the wire body 2
Pull cable 13 in the same direction as
Cable 13 is laid by pulling it through the bull support 1a.
I do. Next, a new cable 13 is additionally laid.
Explaining the method, in this case, too,
As in the case of laying, the lower side of the rear end of the new guide member 4
The leading end of the lead wire 14 to the towing hook 17 provided at
The guide member 4 is pulled and the lead wire 1
4 into the cable support portion 1a.
The cable 13 is connected to the cable supporting portion 1a by the cable 14
It should be passed to. By doing so, a new cable 1
3 can be easily laid. Therefore, in the above embodiment, the cable
Attach the hanger 1 and attach the wire main body 2 to the wheel 2
1 and extend in the longitudinal direction of the
The second mounting portion 1c of the bull hanger 1 is the first mounting portion 1b
By moving it so that it is
Since the wire A for the hanger with a gar was laid,
First, the first attachment part 1b is attached to the
A place to be moved so as to be on the front side of the second mounting portion 1c.
Unlike the case, the second mounting portion 1c is
Without moving to the upper side of the wire main body 2
21 can be caught by the support plate 23 and other obstacles
Absent. On the other hand, the tensile force of the wire
As much as the cable support part 1a is elastically deformed
The cable support portion 1a and the first and second
The material of the wire constituting the mounting parts 1b, 1c of
By doing so, it is possible to minimize the increase in tensile force as much as possible.
This is not a big problem. Therefore, the hanger
While maintaining the ease of laying the wire A for attaching
Cable that is attached to the mounting part 1c of the
Damage to the hangers 1 can be suppressed. In the above embodiment, the wire body for the
Just before spanning 2 between support structures,
The cable hanger 1 was attached to 2
Even if it is not immediately before like
May be wrapped around a memory or the like. The method of laying the cable 13 itself is as described above.
It is not limited to the laying method described above.
The work may be performed in the air. As described above, the hanger of the present invention
According to the method of laying the wire for attaching
Pass the wire main body into the car,
The length of the cable hanger
Move so that the mounting part 2 is on the front side of the first mounting part
To deform the cable hanger elastically.
The first mounting portion is not elastically deformed around the horizontal axis.
If it is turned in a direction that cannot be turned
Make sure that the attachment does not move above the
As we decided to lay the wire for the hangers with anchors,
Do not catch the mounting part of 2 on a wheel or other obstacle.
Thus, it is possible to suppress damage to the cable hanger.
Wear.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view showing a hanging wire with a hanger to which the present invention is applied. FIG. 2 is a sectional view taken along line II-II of FIG. FIG. 3 is a top view of a wire for a bridge and a cable hanger. FIG. 4 is an enlarged sectional view taken along line IV-IV of FIG. FIG. 5 is a perspective view showing a wheel. FIG. 6 is a side view showing a state where an end of the second attachment portion or the cable support portion on the second attachment portion side is in contact with a guide roll of a wheel and wheel; FIG. 7 is a side view showing a state where the cable hanger is passing through the inside of the wheel. FIG. 8 is a side view showing a state where a lead wire is being pulled by a guide member. DESCRIPTION OF SYMBOLS A Wire for hanging with hanger 1 Cable hanger 1a Cable support 1b First mounting part 1c Second mounting part 1f Horizontal part (horizontal axis) 2 Body for hanging wire 13 Cable 14 Lead wire 20 Support wire 21 for gold wheels

   ────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Katsuhisa Kimura             Mitsubishi Electric, 8 Nishinocho, Higashimukaijima, Amagasaki City, Hyogo Prefecture             Wire Industry Co., Ltd. (72) Inventor Koji Ono             4-3 Ikejiri, Itami-shi, Hyogo Mitsubishi Electric Wire             Inside Itami Works, Industrial Co., Ltd. F term (reference) 5G367 GA03 GB01 GC02

Claims (1)

Claims: 1. A hanging wire main body stretched between adjacent supporting structures, and a cable suspended from the hanging wire main body to connect a cable to the hanging wire main body. A method of laying a hanger wire with a hanger having a cable hanger supported along the hanger, wherein the cable hanger is located substantially vertically below the hanger wire main body and has a substantially annular cable opening at the top. A first support and a first support and a second support provided at both end portions of the cable support at opposite ends of the cable support and attached to the wire main body so as to be separated from each other in the length direction of the wire main body; Wherein the first mounting portion is attached to the hoisting wire main body so as to be rotatable around a horizontal axis substantially perpendicular to the hoisting wire main body, 2 is the first mounting part. With the rotation about the horizontal axis, the cable hanger is configured to be mutually movable between a position attached to the hanging wire main body and an upwardly distant position. The wire main body for the wire is passed through the inside of a wheel train supported by the support structure or the wheel supported by the wire support wire previously hung between the support structures, and A wire for a hanger with a hanger is laid by moving the cable hanger in a length direction such that a second mounting portion of the cable hanger is located forward of the first mounting portion. Laying method.