JP3766148B2 - Method and apparatus for taking out optical cable from existing pipe - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method and an apparatus for taking out an optical cable in an existing pipe, which takes out the optical cable inserted in the existing pipe from a hole portion perforated in the existing pipe in an indefinite water state.
[0002]
[Prior art]
In recent years, optical communication systems are becoming popular as communication networks for providing services to local residents in public fields such as medical care, health care, and welfare due to the construction of multimedia.
[0003]
When installing this communication network, optical cables that are bundled and stored in a large number of optical fibers used in optical communication systems are required to be routed to each terminal, which is an environmental point of view. It is designed to be buried underground from the ground.
[0004]
However, underground excavation work on public roads for the laying of optical cables causes traffic congestion unnecessarily, and it is necessary to work carefully in order to avoid interference with other electric lines and pipes. There was a problem that the cost of excavation work increased.
[0005]
Therefore, the inventors are best able to solve the above problem by using the existing water pipe network that is already buried and has a high penetration rate (95%) and spreads to every corner of each home or office. I found out that it was a means.
[0006]
[Problems to be solved by the invention]
When the existing water pipe is used in this way, a long excavation work for burying the optical cable becomes unnecessary, but at least a work for excavating a hole in the ground of the outlet part and the part where the optical cable is inserted into the existing water pipe, respectively. Is required.
[0007]
In order to make a hole for inserting or removing an optical cable in the existing water pipe, the work must first be performed after blocking the flow of water in the water pipe.
[0008]
For this reason, a water cut-off area is set in a predetermined area, and the supply of water to the factory, home, office, etc. is interrupted, causing inconvenience to consumers. Therefore, there is a need for a construction method and apparatus for taking out an optical cable inserted into an existing water pipe from the middle of the water pipe to the outside in a continuous water state.
[0009]
The present invention has been made to solve the above-described problems, and an optical cable extraction method and apparatus in an existing pipe that allows an optical cable inserted into the existing pipe to be easily taken out from the inside of the existing pipe in an uninterrupted water state. The purpose is to provide.
[0010]
[Means for Solving the Problems]
The optical cable take-out method in the existing pipe of the present invention is an optical cable take-out method for taking out an optical cable inserted from a predetermined location of the existing pipe from a hole portion perforated in an uninterrupted state,
A step of liquid-tightly attaching a saddle with a cable take-out pipe device comprising a cable seal valve and an on-off valve that shuts off the flow of fluid in the pipe around the optical cable to an existing pipe, and a drilling tool at the end of the cable take-out pipe device A process of drilling an existing pipe through an open / close valve and a cable seal valve that are mounted in a liquid-tight manner, a step of pulling up the drilling tool together with a section after drilling , and a valve after closing the open / close valve. A step of attaching the cable extraction means having a cable gripping mechanism that moves up and down in the pipe instead of the drilling tool, and after opening the on-off valve , inserting the cable extraction means into the pipe , a standby step of waiting for an optical cable in capturable state, the cable take-out portion of the optical cable of existing pipe is in capturable state in said cable extraction means A step of pulling up the stage, a step of removing the steps of clamping sealing the optical cable in the process of pulling the cable take-out means at said cable seal valve, a cable taken out means an optical cable on which the clamps seal made more,
The cable gripping mechanism is a band-shaped elastic body clamp ring, and the standby step is configured to elastically deform the clamp ring by pushing it into a tubular body and wait for the optical cable in a state where it can be captured. The step of pulling up is characterized in that the clamp ring elastically deformed to be able to be captured by the pulling operation of the clamp ring is restored, and a part of the optical cable is elastically sandwiched between the clamp ring .
With this feature, the optical cable inserted into the existing water pipe can be easily taken out to the ground in a continuous water state and without water leakage. By repeating this, the optical cable can be extended inside the existing water pipe. Since the optical cable inserted by the deformation of the clamp ring based on the lifting operation of the clamp ring can be inserted elastically, and the inserted optical cable can be easily inserted through the hole of the existing pipe that has been drilled. Can be taken out.
[0011]
In the method for removing an optical cable from an existing pipe according to the present invention, the standby step is performed by bringing the end of the clamp ring into contact with the inner bottom of the existing pipe, and then following the inner diameter of the existing pipe by pushing the clamp ring. It is characterized by elastic deformation.
This feature allows the clamp ring to be elastically deformed and opened in a circular shape following the inner diameter of the existing pipe simply by pushing and moving the clamp ring, so that the optical cable that moves in an unspecified position within the existing water pipe can be reliably secured. I can catch it.
[0013]
The optical cable take-out device in the existing pipe of the present invention is an optical cable take-out apparatus that takes out an optical cable inserted from a predetermined location of the existing pipe from a hole that is perforated in an uninterrupted state,
A cable outlet pipe device having a cable seal valve and an open / close valve attached to a saddle attached to a predetermined portion of an existing pipe and blocking the flow of fluid around the optical cable pulled up from the pipe body , and an end portion of the cable outlet pipe device A cable take-out device provided with a perforating device attached in a liquid-tight manner to perforate the existing pipe in an uninterrupted flow state, and a cable gripping mechanism for moving up and down in the pipe body so as to be attached in a liquid-tight manner above the opening / closing valve instead of the perforating device and means, in the configuration,
The cable extraction means includes a cylindrical body having a predetermined length with the other end closed, a support shaft slidably inserted into the cylindrical body and liquid-tightly inserted through the other end of the cylindrical body, and the support shaft is characterized with elevating mechanism to be moved up and down the support shaft connecting the said cable gripping mechanism consisting of clamp ring of the band-like elastic body having one end fixed to the support shaft, in that you have configured.
With this feature, the optical cable inserted into the existing water pipe can be easily taken out to the ground in a continuous water state and without water leakage. By repeating this, the optical cable can be extended inside the existing water pipe. It can be inserted over a distance, and when the clamp ring is lowered, the tip is easily opened only by pressing the bottom of the existing pipe, and the optical cable is inserted into the opened clamp ring. The optical cable can be clamped only by pulling up the clamp ring and can be easily lifted without leaking fluid to the outside.
[0015]
In the optical cable take-out device in the existing pipe of the present invention, the cable seal valve is arranged so that a pair of valve bodies can be moved back and forth on both sides of the pipe body so as to be orthogonal to the pipe body through which the optical cable is inserted. An elastic body in which a cutout portion having the same cross-sectional shape as that of the optical cable is formed is attached to a portion facing each other.
With this feature, when the pair of valve body facing surfaces come into contact with each other, the flow of fluid in the tubular body can be reliably blocked while the optical cable is inserted.
[0016]
In the optical cable take-out device in the existing pipe of the present invention, the cable seal valve is disposed so that a pair of valve bodies can be moved back and forth on both sides of the pipe body so as to be orthogonal to the pipe body through which the optical cable is inserted. A notch having the same cross-sectional shape as the optical cable is formed on the opposite surface of the optical cable, and the periphery of the notch is alternately overlapped in the thickness direction of the valve body so as to converge to the notch, It is characterized in that a protruding portion that converges at the notch is formed.
This feature enables the optical cable to be centered in the semicircular cutout of the valve body even if there is a variation in the position of the optical cable pulled up through the pipe, and the flow of fluid in the pipe can be maintained with the optical cable inserted and sealed. Can be blocked.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on the drawings with embodiments.
[0018]
First, an embodiment of an optical cable take-out device in an existing pipe of the present invention will be described. FIG. 1 is an overall view showing a partial cross section showing a state where an optical cable take-out device is attached to an existing pipe.
[0019]
In the present embodiment, an example in which a branch valve is used as an on-off valve will be described.
[0020]
In FIG. 1, reference numeral 1 denotes an existing water pipe, and a cable outlet pipe device 4 is attached via a saddle 3 in the vicinity of the gate valve 2 of the water pipe 1.
[0021]
The cable outlet pipe device 4 includes, for example, a cable seal valve 6 that shuts off the flow of fluid in the pipe while an optical cable is inserted into the water pipe 1 side, and an on-off valve 5 that is liquid-tightly attached to the upper part thereof. ing. The above-described vertical positional relationship between the cable seal valve 6 and the on-off valve 5 may be reversed.
[0022]
As shown in FIG. 2, a perforation device D is liquid-tightly attached to the upper end of the branch valve 5 as an on-off valve, and the branch valve 5 and the cable opened by moving the cutter C of the perforation device D downward. A through hole H can be drilled in the side surface of the existing water pipe 1 through the seal valve 6.
[0023]
When the cutter C drilled through the through-hole H moves to the rising end together with the section CR of the water pipe 1, the branch valve 5 is closed, and then the punching device D is removed from the tip of the branching valve 5. 4 and 5 is attached, and a clamp ring 13 as a cable gripping mechanism provided in the cable extraction means 7 can be moved up and down. Detection means for detecting that the tip of the optical cable 14 has been inserted into the clamp ring 13 that is inserted into the water pipe 1 and opened is attached to the tip of the optical cable 14 and the outer wall of the water pipe 1.
[0024]
Here, the transmitter may be a high-frequency transmitter, an ultrasonic transmitter, a magnetic body, or the like. The cable take-out means 7 is slidably fitted into a cylindrical body 9 having one end screwed fluid-tightly at the tip of the branch valve 5 and the other end liquid-tightly closed by a cap 8. A holder 11 connected to a support shaft 10 that is liquid-tightly inserted through the cap 8 in a non-rotatable state, an elevating mechanism 12 that is connected to the support shaft 10 and moves up and down the support shaft 10, and the holder 11 linearly with each other. one end in superposition state is composed of a pair of band-like elastic body 13a whose other end is connected fixed, the clamp ring 13 as a gripping mechanism consisting 13b.
[0025]
The cable take-out means 7 configured as described above can be moved up and down from the uppermost position shown in FIG. 5 to the lowermost position shown in FIG. 6 by manually operating the elevating mechanism 12.
[0026]
When the cable take-out means 7 is in the lowest position, the clamp ring 13 which is a pair of belt-like elastic bodies is in an open state by being elastically deformed circularly in the existing water pipe 1 as shown in FIG. ing.
[0027]
Next, as a detection means, a transmitter 15 is attached to the tip of the optical cable 14, and a receiver 16 is attached to the outer wall of the water pipe 1 near the cable outlet pipe device 4.
[0028]
Therefore, when the tip of the optical cable 14 inserted and moved from a predetermined location of the existing water pipe 1 passes through the clamp ring 13 composed of the belt-like elastic bodies 13a and 13b opened in the water pipe 1, the transmission will be made soon. The signal from the receiver 15 is received by the receiver 16.
[0029]
When the clamp ring 13 is pulled up by manual operation of the elevating mechanism 12 when reception is confirmed by the receiver 16, the tip of the optical cable 14 is elastically held by the operation of restoring the clamp ring 13 to a straight line. As shown in (a) of FIG.
[0030]
When the optical cable 14 moves upward and passes through the cable seal valve 6, the cable seal valve 6 is closed, and the flow of the fluid in the tube P can be blocked with the optical cable 14 inserted and sealed.
[0031]
Here, in the clamp ring 13, as shown in FIG. 7A, a pair of belt-like elastic bodies 13a and 13b are formed in a belt shape with a spring steel plate, and angled ribs R1 and R2 are curvedly formed in the center in the longitudinal direction. Then, one end is pivotally supported on the holder 11 via the pin 17 and the other end is joined in a state where they are linearly overlapped so that a space is formed on the joining surface shown in the cross section of FIG. . The clamp ring 13 may be integrated.
[0032]
Next, as shown in FIG. 7A, the cable seal valve 6 has a pair of plate-like valve bodies 18a and 18b on both sides of the pipe body P so as to be orthogonal to the pipe body P inserted and lowered through the optical cable 14. The elastic bodies (for example, hard rubber) 20a, 20b are formed so as to be opposed to each other so that the valve bodies 18a, 18b are opposed to each other, and semicircular arc notches 19a, 19b each having a diameter of the optical cable 14 are formed in the center. It is configured by mounting.
[0033]
FIG. 8 shows another embodiment of the cable seal valve. The cable seal valve 21 has a pair of plate-like valve bodies on both sides of the pipe body P so as to be orthogonal to the pipe body P through which the optical cable 14 is inserted and lowered. 22a and 22b are arranged so as to be capable of moving forward and backward, and semicircular arc notches 23a and 23b of the diameter of the optical cable are formed in the center on the opposing surfaces of the valve bodies 22a and 22b, respectively, and the semicircular notch 23a , 23b are formed as V-shaped concave portions 24a and 24b, and the concave portions 24a and 24b are alternately formed in the thickness direction of the opposing valve body, and are opposed by the closing movement of the valve bodies 22a and 22b. Stepped portions 27a, 27b and 2 into which the opposite protruding portions 25a, 25b and 26a, 26b formed by the recesses 24a, 24b can be inserted when the notches 23a, 23b come into contact with each other. a, 28b are formed alternately in the thickness direction.
[0034]
In the present embodiment, the recesses 24a and 24b are formed in a V shape. However, the recesses 24a and 24b are not limited to the V shape, and may be U shapes. Any shape can be used.
[0035]
The operation of the optical cable take-out device in the existing pipe of the present invention configured as described above will be described.
[0036]
When taking out the optical cable 14 inserted into the existing water pipe 1 from a predetermined location, the cable seal valve 6 and the branch valve are connected to the water pipe 1 near the gate valve 2 via the saddle 3 as shown in FIGS. 5 is attached in a liquid-tight manner, and a drilling device D is attached in a liquid-tight manner in order to make a through hole H in the existing water pipe 1 at the tip of the branch valve 5.
[0037]
Therefore, as shown in FIG. 3, when the cutter C of the drilling device D descends in the pipe body P and the through hole H is drilled in the side surface of the water pipe 1, the cutter C is pulled up together with the section CR of the water pipe 1. It is done.
[0038]
Next, as shown in FIGS. 4 and 5, the cable take-out means 7 is liquid-tightly attached to the tip of the branch valve 5 in place of the perforating device D.
[0039]
The clamp ring 13 of the cable take-out means 7 moves down in the pipe body P via the lifting mechanism 12 and passes through the through hole H, so that the tip of the clamp ring 13 comes into contact with the bottom of the inner wall of the water pipe 1. When the clamp ring 13 is further pressed, as shown in FIG. 6, the pair of belt-like elastic bodies 13 a and 13 b are elastically deformed and opened along the water pipe 1.
[0040]
When the tip of the optical cable 14 that has moved through the water pipe 1 passes through the clamp ring 13 in the open state, the signal transmitted from the transmitter 15 at the tip of the optical cable 14 is received by the receiver 16, thereby the tip of the optical cable 14. Is confirmed as a clampable state.
[0041]
As described above, since the detection means detects that the tip of the optical cable has been inserted into the clamp ring in the open state, the optical cable moving in the existing pipe can be reliably captured.
[0042]
Therefore, when the clamp ring 13 is pulled up as shown in FIG. 7 (a), the pair of elastic elastic bodies 13a and 13b is restored to a straight shape by this pulling operation, and the optical cable 14 is elastically held, and the optical cable 14 is pulled out together with the clamp ring 13 to a predetermined position.
[0043]
In this way, the clamp ring can be released simply by the operation of lowering the clamp ring and the tip is pressed against the bottom of the existing pipe. The opened clamp ring can be elastically straightened only by the operation of lifting. The optical cable can be held by the operation of restoring the shape, and the optical cable can be easily pulled up by a simple operation.
[0044]
Next, the pulled optical cable 14 is sealed by the valve bodies 18 a and 18 b of the cable seal valve 6. Thereby, the flow of the fluid in the pipe P can be reliably interrupted with the optical cable 14 inserted and sealed.
[0045]
Here, in another embodiment of the cable seal valve shown in FIG. 8, when the valve bodies 22a and 22b arranged on both sides of the pipe body P move toward the center of the pipe body P, the optical cable 14 has a V-shape. Guided by the recesses 24a and 24b and fitted in the central semicircular arc cutouts 23a and 23b, the flow of fluid in the tube P is blocked while the optical cable 14 is inserted and sealed.
[0046]
Thereby, even if the position of the optical cable 14 pulled up through the pipe P varies, the optical cable 14 can be reliably centered in the semicircular cutouts 23a and 23b of the valve bodies 22a and 22b.
[0047]
When the optical cable take-out means 7 is removed from the branch valve 5 with the fluid flow in the existing water pipe blocked in this way, another optical cable 14 is connected to the optical cable 14 protruding from the connection port of the branch valve 5. It can be connected, further extended, and inserted again into the existing water pipe by known means.
[0048]
Next, an optical cable extraction process which is an embodiment of an optical cable extraction method in an existing pipe of the present invention will be described with reference to FIGS. 1 to 6 and FIG. 9.
[0049]
First, as shown in FIG. 1, in the first step, the saddle 3 to which the cable seal valve 6 and the branch valve 5 are attached is attached to the existing pipe 1 in a liquid-tight manner.
[0050]
In the next step, as shown in FIGS. 2 and 3, the perforation device D is liquid-tightly attached to the end of the branch valve 5, and the cutter C of the perforation device D is passed through the opened branch valve 5 and the cable seal valve 6. The through-hole H is drilled in the existing pipe 1 by the above, and the cutter C is pulled up together with the section CR after drilling.
[0051]
Further, in the next step, as shown in FIGS. 4 and 5, the cutter C is pulled up to the upper part of the branch valve 5, and then the branch valve 5 is closed. Then, the punching device D is removed, and the tube body 9 of the cable outlet means 7 is attached in a liquid-tight manner in place of the punching device D.
[0052]
After the cable seal valve 5 is opened in the next step, the clamp ring 13 of the take-out means 7 is pushed down in the pipe P and inserted into the water pipe 1 so that the tip of the clamp ring 13 is brought into contact with the bottom inner wall of the water pipe 1. Then, the clamp ring 13 is pushed down to be elastically deformed into a circular shape along the inner wall of the water pipe 1 and released.
[0053]
Next, as shown in FIG. 6, when the optical cable 14 moving in the water pipe 1 passes through the clamp ring 13 in the open state, the signal from the transmitter 15 attached to the tip of the optical cable 14 is received by the receiver. 16, the position of the tip of the optical cable 14 is confirmed, and the clamp ring 13 is pulled up here.
[0054]
When the clamp ring 13 is pulled up, the end of the optical cable 14 is elastically held by the operation of restoring the belt-like elastic body 13 to a straight line. In this state, the optical cable is passed through the tube as shown in FIG. A step of pulling up 14 is performed.
[0055]
In the next step, as shown in FIG. 7A, when the optical cable 14 is pulled up to a predetermined position, the optical cable 14 is clamp-sealed by the cable seal valve 6 and the optical cable 14 is inserted in a liquid-tight manner. The flow of fluid in the pipe body P is interrupted.
[0056]
Therefore, as shown in FIG. 9, when the pipe body P is blocked by the cable seal valve 6 in the next step, the cable extraction means 7 is removed from the branch valve 5.
[0057]
In this way, a series of steps of the method for taking out the optical cable in the existing pipe is completed, and the optical cable 14 in the existing water pipe can be taken out to the ground.
[0058]
【The invention's effect】
The present invention has the following effects.
[0059]
(A) According to the invention of claim 1, an optical cable inserted into an existing water pipe can be easily taken out to the ground in a continuous water state without leaking water, and by repeating this, The optical cable can be inserted into the water pipe for a long distance, and the optical cable inserted by the deformation of the clamp ring based on the lifting operation of the clamp ring is elastically clamped, so the clamped optical cable is perforated. It can be easily taken out through a hole in the existing pipe.
[0060]
(B) According to the invention of claim 2, the clamp ring is elastically deformed and opened in a circular shape following the inner diameter of the existing pipe simply by pushing and moving the clamp ring. An optical cable moving in position can be reliably captured.
[0062]
(C) According to the invention of claim 3, the optical cable inserted into the existing water pipe can be easily taken out to the ground in a continuous water state and without water leakage, and by repeating this, The optical cable can be inserted into the water pipe for a long distance, and the clamp ring is opened and released simply by the action of the clamp ring descending and the tip is pressed against the bottom of the existing pipe. The optical cable can be held only by pulling up the clamp ring when the optical cable is inserted into the optical cable, and can be easily pulled up without leaking fluid to the outside.
[0064]
(D) According to invention of Claim 4, when a pair of valve body opposing surface contacts mutually, the flow of the fluid in a tubular body can be interrupted | blocked reliably in the state which penetrated the optical cable.
[0065]
(E) According to the invention of claim 5, the optical cable can be centered in the semicircular cutout portion of the valve body even if the position of the optical cable pulled up through the tube varies, and the optical cable is inserted and sealed Thus, the flow of fluid in the tube can be blocked.
[0066]
[Brief description of the drawings]
FIG. 1 is a partial cross-sectional view showing a state where an optical cable take-out device is attached to an existing pipe according to an embodiment of the present invention.
FIG. 2 is a process diagram showing a state in which a punching device is attached to a cable seal valve and an on-off valve attached to an existing pipe via a saddle.
FIG. 3 is a process diagram showing a state in which a punching device is attached to a cable seal valve and an on-off valve attached to an existing pipe via a saddle.
FIG. 4 is a process diagram showing a state in which a cable take-out means is attached to a cable seal valve and an on-off valve attached to an existing pipe via a saddle instead of a punching device.
FIG. 5 is a process diagram showing a cable seal valve attached to an existing pipe via a saddle, and a state in which a cable take-out means is attached to an on-off valve instead of a punching device.
FIG. 6 is an explanatory view showing a state in which a clamp ring is opened in an existing pipe.
7A is a perspective view illustrating a state where an optical cable pulled up by a clamp ring is sealed by a cable seal valve, and FIG. 7B is a cross-sectional view taken along line AA in FIG.
FIG. 8 is a perspective view of a cable seal valve showing another embodiment.
FIG. 9 is a process diagram showing a state in which an optical cable pulled up by a clamp ring is sealed by a cable seal valve.
[Explanation of symbols]
1 water pipe (existing pipe)
2 Gate valve 3 Saddle 4 Cable outlet pipe device 5 Branch valve (open / close valve)
6 Cable seal valve 7 Cable extraction means 8 Cap 9 Tubular body 10 Support shaft 11 Holder 12 Lifting mechanism 13 Clamp ring (Cable gripping mechanism )
13a, 13b Strip elastic body 14 Optical cable 15 Transmitter 16 Receiver 17 Pins 18a, 18b Plate-shaped valve bodies 19a, 19b Semi-circular cutout portions 20a, 20b Elastic bodies 21 Cable seal valves 22a, 22b Valve bodies 23a, 23b Semi-arc Notches 24a, 24b Recesses 25a, 25b Protruding portions 26a, 26b Protruding portions 27a, 27b Stepped portions 28a, 28b Stepped portions C Cutter D Punching device H Through hole

Claims (5)

An optical cable taking-out method for taking out an optical cable inserted from a predetermined portion of an existing pipe from a hole drilled in an uninterrupted state,
A step of liquid-tightly attaching a saddle with a cable take-out pipe device comprising a cable seal valve and an on-off valve that shuts off the flow of fluid in the pipe around the optical cable to an existing pipe, and a drilling tool at the end of the cable take-out pipe device A process of drilling an existing pipe through an open / close valve and a cable seal valve that are mounted in a liquid-tight manner, a process of pulling up the drilling tool together with a piece after drilling , and after closing the open / close valve , the drilling tool A step of attaching the cable extraction means having a cable gripping mechanism that moves up and down in the pipe instead of the drilling tool, and after opening the on-off valve , inserting the cable extraction means into the pipe , a standby step of waiting for an optical cable in capturable state, the cable take-out portion of the optical cable of existing pipe is in capturable state in said cable extraction means A step of pulling up the stage, a step of removing the steps of clamping sealing the optical cable in the process of pulling the cable take-out means at said cable seal valve, a cable taken out means an optical cable on which the clamps seal made more,
The cable gripping mechanism is a band-shaped elastic body clamp ring, and the standby step is configured to elastically deform the clamp ring by pushing it into a tubular body and wait for the optical cable in a state where it can be captured. The step of pulling up is performed by restoring a clamp ring that has been elastically deformed to a state that can be captured by the pulling operation of the clamp ring, and elastically holding a part of the optical cable between the clamp ring. Optical cable extraction method. The standby step is characterized in that after the end of the clamp ring is brought into contact with the inner bottom of the existing pipe, the clamp ring is further elastically deformed into a circular shape following the inner diameter of the existing pipe by the pushing movement of the clamp ring. The method for taking out the optical cable in the existing pipe according to 1. An optical cable take-out device that takes out an optical cable inserted from a predetermined location of an existing pipe from a hole that is perforated in an uninterrupted state,
A cable outlet pipe device having a cable seal valve and an open / close valve attached to a saddle attached to a predetermined portion of an existing pipe and blocking the flow of fluid around the optical cable pulled up from the pipe body , and an end portion of the cable outlet pipe device A cable take-out device equipped with a perforating device that is liquid-tightly attached to the existing pipe and perforates the existing pipe in an uninterrupted state, and a cable gripping mechanism that moves up and down in the pipe body in order to attach it to the upper part of the on-off valve instead of the perforating device and means, in the configuration,
The cable extraction means includes a cylindrical body having a predetermined length with the other end closed, a support shaft slidably inserted into the cylindrical body and liquid-tightly inserted through the other end of the cylindrical body, and the support shaft a lifting mechanism to be vertically movable with the support shaft connected to, the existing pipe, characterized with the cable gripping mechanism consisting of clamp ring of the band-like elastic body having one end fixed to the support shaft, in that you have configured Optical cable take-out device. The cable seal valve is provided with a pair of valve bodies on both sides of the pipe body so as to be able to move forward and backward so as to be orthogonal to the pipe body through which the optical cable is inserted. 4. An optical cable take-out device in an existing pipe according to claim 3, wherein an elastic body having a cut-out portion having a shape is attached. The cable seal valve is provided with a pair of valve bodies on both sides of the pipe body so as to be movable back and forth so as to be orthogonal to the pipe body through which the optical cable is inserted. In addition to forming a notch portion, there are protrusions around the notch portion that alternately overlap in the thickness direction of the valve body so as to converge at the notch portion and converge at the notch portion. The optical cable take-out device in an existing pipe according to claim 4, wherein the optical cable take-out apparatus is formed.

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