JPH0412609A - Underground cable removing device - Google Patents

Abstract

PURPOSE:To easily remove by grasping a cable to be removed at a waved grasping surface of a clamp at the front of a device, moving it to the rear of the device by a hydraulic cylinder jack, disengaging it, again returning the clamp to the front, and repeating the steps. CONSTITUTION:A device body 5 for removing an underground cable 4 is installed in a manhole 1. The height of a trestle 12 is matched to that of the cable 4 to be removed, and the body 5 is brought into contact with the inlet of a conduit 2 of the cable 4 via wheels 10. The cable 4 is grasped by a clamp 19 having a front waved grasping surface of the body 5. Then, hydraulic pressure is operated at a hydraulic cylinder jack 17B, the clamp 19 is disengaged after the clamp 19 is moved rearward of the body 5, and the clamp 19 is again moved forward of the body 5. This operations are repeated to guide the cable 4 from the manhole 1 to the ground, and wound on a drum (not shown).

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an underground cable removal device that can continuously pull out telecommunication cables and the like housed in underground conduits.

[Prior Art] Conventionally, the various methods listed below are known as removal machines and construction methods for pulling out telecommunication cables and the like housed in underground conduits.

■ Method using a wire tensioner This is a method of pulling the cable using a pulling bolt embedded in the manhole using a wire tensioner, which is normally used to adjust the tension of cable hanging wires and utility pole branch lines. At this time, the cable is generally held by attaching a net grip made of wire strands or by wrapping the cable around the cable.

■ Method using a winch This method uses a power winch installed on the ground to hold and pull the cable inside the manhole using the method described in item 0 above.In order to make it easier to pull the cable up to the ground, pulleys are installed at the necessary points in the manhole. Set up.

■ Method using an underground cable removal machine Inside the manhole, insert the tip of the removal machine into the cable outlet (hereinafter referred to as the duct entrance) of the underground conduit that houses the cable to be removed, and insert the rear part of the removal machine into the manhole. After the cable is connected to the manhole's pulling bolt using a chain, a net grip designed specifically for the removal machine is attached to the cable, and the cable is set in the removal machine. The cable is pulled out using two hydraulic cylinder jacks, and the cable is gripped by expanding and contracting the dedicated net grip that follows the movement of the hydraulic jacks.

■ Method using a cable installation/removal vehicle This is a method in which the cable is towed by a special vehicle equipped with a removal drum that has the function equivalent to the work winch described in item 0 above, and the cable is held by attaching the net grip described in item 0 above.

The above-described techniques are generally implemented.

[Problems to be Solved by the Invention] However, the above-mentioned conventional technologies all have a traction capacity of about 3, which is insufficient to withstand the pull-out resistance of the cable that has increased due to aging within the underground conduit. As a result, there were times when we had to give up on the cable removal work.

In addition, the above-mentioned conventional net grips and wire wrappings do not provide sufficient gripping force to match the traction force, and there are also problems in terms of strength.

Therefore, the present invention has been made in view of the above-mentioned problems in the prior art, and its purpose is to solve the problem of telecommunication equipment that is housed in underground pipes and is difficult to extract using normal methods. It makes it possible to pull cables up to their breaking strength, and it is possible to reliably remove cables that have been unavoidably left in conduits because they could not be pulled out, allowing for effective use of existing underground conduits. An object of the present invention is to provide an underground cable removal device that allows for the removal of underground cables.

[Means for Solving the Problem] The present invention has been made to achieve the above object, and the first invention is to grasp and pull a communication cable housed in an underground conduit from inside a manhole. , a device to be removed, comprising a clamp for gripping the communication cable, a clamping hydraulic cylinder jack for operating the clamp, and a towing hydraulic cylinder jack for moving the gripped communication cable to the rear of the device together with the clamp. Then, the clamp that grips the communication cable at the front of the device is moved to the rear of the device to release the stacking state, and the cable is removed while performing a continuous operation to return the clamp to the front of the device. .

In a second invention, in the first invention, the cable gripping surface of the clamp for gripping the communication cable has a wavy shape, and the cable is compressed and gripped from the side in a wavy shape.

[Function] In the present invention, the clamp grips the communication cable at the front of the device, is moved to the rear of the device by a traction hydraulic cylinder jack, releases the gripping state, and is returned to the front of the device to grip the cable again. By repeating this series of operations, the cable is continuously pulled out from inside the underground conduit.The clamp has a wave-shaped cable gripping surface and compresses and grips the cable from the side.

[Example] Hereinafter, the present invention will be described in detail based on an example shown in the drawings.

Fig. 1 is a side view showing an embodiment of the underground cable removal device according to the present invention during cable removal work, Fig. 2 is a rear view of the device, and Fig. 3 is a main body of the cable removal device. I
4 is a front view of the device main body, FIG. 5 is a rear view of the device main body, and FIG. 6 is a 3rd view of the device main body.
The line sectional view and FIG. 7 are perspective views of the clamp.

In FIGS. 1 and 2, l is a manhole built underground, 2 is an underground conduit buried underground, and the duct opening 3 of this underground conduit 2 opens into one inner wall surface of the manhole 1. ing. 4 is a communication cable housed in the underground conduit 2; 5 is an underground cable removal device that is inserted into the manhole 1 and pulls out the communication cable 4; 6 is an H* material for reaction force that transmits traction force to the manball 1. be.

The underground cable removal bag W5 is composed of wheels 10-, a pedestal 12 provided with an outrigger 11, and a cable removal device main body 13 installed on the pedestal 12. As shown in FIGS. 1 to 6, the cable removal device main body 13 includes an outer frame 15 having wheels 14 and installed on the pedestal 12 so as to be movable back and forth, and The outer frame body 15 has a pair of left and right traction hydraulic cylinder jacks (hereinafter referred to as traction jacks) 17A and 17B located at the cylinder front end a (the third
The outer end of the piston is connected to the movable body 15. In addition, a cable insertion hole 18A and a guide hole 18B are provided in the center of the front and rear surfaces of the outer frame 15, respectively.

Inside the movable body 16, there is a clamp mechanism 19 for gripping the communication cable 4, and a pair of clamping hydraulic cylinder jacks (hereinafter referred to as clamping jacks) that are provided vertically facing each other and operate the clamp mechanism 19. 20A,
20B is arranged. As shown in FIG. 3, the clamp mechanism 19 includes a pair of clamps 21A and 21B that face each other vertically and grip the communication cable 4, and each clamp 21A and 21B.
It is composed of a pair of upper and lower rotating arms 22A and 22B that hold the rotation arm 1B. Each rotating arm 22A, 22B is formed in an oval shape in side view, and has one end attached to each of the clamps 21A.
, 21B are vertically rotatably connected by connecting pins 23A, 23B, and the other end is connected to the outer end of the piston of each clamping jack 2OA, 20B through connecting pins 24A, 24.
The movable body 16 is rotatably connected to the movable body 16 via fixed shafts 25A and 25B, and the bent portions are rotatably supported by fixed shafts 25A and 25B provided on the movable body 16. The cable gripping surfaces 26 of each of the clamps 21A and 21B that face each other and grip the communication cable 4 are formed in a waveform shape approximating a sinusoidal curve, as shown in FIG. 7, and have a length of about 201 cm.

Next, the underground cable removal device 5 having such a configuration will be explained.
The cable removal operation will be explained below.

In FIGS. 1 and 2, in order to pull out the remaining cable 4 housed in the underground conduit 2, an underground cable removal bag W5 is carried into the manhole 1, the pedestal 12 is fixed with the outrigger 11, The front surface of the outer frame body 15 is brought into contact with the reaction force steel member 6, and the movable body 16 is positioned in front of the device.
Clamp 21 with clamp jacks 2OA and 20B
Open A and 21B, and insert the end of the remaining cable 4 protruding from the duct opening 3 into the clamps 21A and 218ral through the cable insertion hole 18A of the outer frame 15. Then, use the clamp jacks 2OA and 20B to clamp the clamp 21121B.
After the remaining cable 4 is compressed and clamped from the lateral direction by closing, the pulling jacks 17A and 17B are driven to extend the piston and push the movable body 16 backward. At this time, the outer frame 15 is pressed against the reaction steel material 6 by the reaction force. When the movable body 16 moves backward, the clamp mechanism 19 also retreats together with the movable body 16, so that the cable 4 in the underground conduit 2 is pulled out. After the backward movement of the movable body 16 is completed, the clamps 21A and 21B are opened by the clamp jacks 2OA and 20B, the grip on the cable 4 is temporarily released, and the traction jacks 17A and 17B are driven again to move the piston backward and the movable body 16 back to its original forward position. Then, by continuously repeating the above operation, the cable 4 is pulled out from the underground conduit 2, guided to the ground through the cable guide hole 18B of the outer frame 15, and wound up by a working winch installed on the ground.

In this case, the pulling capacity of the underground cable removal device 5 is very large (approximately 20) because it uses jacks.
It is possible to tow up to the cable breaking strength.

The above series of operations is performed by an operation panel installed on the ground, a hydraulic bong 1, etc. (not shown) via a hydraulic hose,
This process is repeated until the removal is completed.

Furthermore, it goes without saying that the present invention can be directly applied to cables having copper wires, such as power cables, in addition to the telecommunication cable 4.

[Effects of the Invention] As explained above, the underground cable removal device according to the present invention is configured such that the clamp is operated by the clamping hydraulic cylinder jack to grip the communication cable, and the communication cable is towed by the towing hydraulic cylinder jack. Therefore, it is possible to pull the cable to a breaking strength that has not been possible until now, and this operation can be performed continuously.

Furthermore, if the remaining cables can be removed, the existing underground pipes can be used effectively, which is extremely economical, and the construction of new underground pipes can be suppressed, so the road environment will not be harmed.

Further, since the cable gripping surface of the clamp is shaped into a wave shape, it is possible to obtain sufficient gripping force to grip the cable.

[Brief explanation of the drawing]

Fig. 1 is a side view of an embodiment of the underground cable removal device according to the present invention during cable removal work, Fig. 2 is a rear view of the same device, and Fig. 3 is Fig. 4 of the main body of the cable removal device. ■
4 is a front view of the main body of the device, FIG. 5 is a rear view of the main body of the device, FIG. 6 is a sectional view of the main body of the device along line 3 - ■, and FIG. 7 is a view of the clamp. FIG. 1--Manhole, 2--Underground conduit, 4--Communication cable, 5--Underground cable removal device, 12...
Frame, 13... Cable removal device main body, 15... Outer frame body, 16... Movable body, 17A, 17B... Hydraulic cylinder jack for traction, 19-- Clamp mechanism, 2O
A, 20B...Hydraulic cylinder jack for clamp, 2LA, 21B...Clamp, 26...Cable gripping surface. Patent applicant Nippon Telegraph and Telephone Corporation

Claims (2)

[Claims] (1) A device that grips, pulls, and removes a communication cable housed in an underground conduit from inside a manhole, including a clamp that grips the communication cable, a hydraulic cylinder jack for the clamp that operates this clamp, and a gripping device. and a traction hydraulic cylinder jack for moving the communication cable together with the clamp to the rear of the device, and the clamp gripping the communication cable at the front of the device is moved to the rear of the device,
An underground cable removal device characterized in that the cable is removed while performing a continuous operation of releasing the clamp and returning the clamp to the front of the device. (2) The underground cable removal device according to claim (1), wherein the cable gripping surface of the clamp that grips the communication cable is in a waveform shape, and the cable is compressed and gripped in the waveform from the side.