KR20050120104A - Apparatus and method to install cables in conduit using vinyl tube and air pressure in conduit - Google Patents

Abstract

The present invention relates to an apparatus for laying a cable in a PVC pipeline installed underground, the cable laying apparatus of the present invention, the air supply device for supplying compressed air for laying a flexible tube and cable or traction line (170) 110, a vinyl tube 120 which is inserted along the underground pipe line by the air pressure of the compressed air and passes a cable or a traction line along the inside thereof, and a vinyl tube supply device that supplies the vinyl tube and measures the supplied distance. 130, and the plastic tube and the cable or traction line is inserted and configured to supply the compressed air to install a vinyl tube with the cable or traction line embedded therein along the underground pipe path by the pneumatic pressure of the compressed air. Adjust the head unit 140 and at least the air pressure and air volume, specify and mark the laying distance of the flexible tube and cable or the traction line, It includes a control device 150 for controlling to stop automatically when the installation distance is reached, and a feeding device 160 for supplying a cable or a traction line. The present invention has the effect of drastically reducing the cost and effort of cable laying by simultaneously laying the traction line or cable in the air pressure in the plastic tube to replace the inner tube function immediately without the procedure of laying the traction line, inner tube laying, cable laying.

Description

Cable laying device and method using flexible tube and air pressure {Apparatus and method to install cables in conduit using vinyl tube and air pressure in conduit}

The present invention relates to an apparatus for laying cables in PVC pipelines installed underground, and more particularly, to an apparatus and method for installing a flexible tube in a PVC pipeline using compressed air and laying a traction line or cable therein. will be.

Telephone and data lines to subscribers are connected by cable installed underground from the telephone company to the subscriber's premises. The cable is usually installed along the inner tube, which is laid inside the 100 mm PVC tube. The cable installed underground is constructed in the following way.

1 is a schematic diagram showing a process of laying a drag ship for laying an inner tube. As shown in FIG. 1, the worker enters the artificial vessel 10 and pushes the barrel 20 into the pipeline 30 by manpower and binds the traction line to the barrel 20 from the opposite artificial vessel 10 and pulls it out again. A line is laid inside the pipeline 30. In this way, if the length of the pipeline is longer than about 100m, the barrel 20 is difficult to reach to the opposite artifical 10, and the other articulated vessels are pushed into the fishing vessel 20 by pushing the other barrels from the opposite artifical 10. The tow ship was tied and pulled out again and the tow ship was installed inside the pipeline 30.

2 is a schematic diagram showing a process of laying an inner tube in a pipeline. As shown in FIG. 2, the inner tube 40 of the tidal tide needed to tie the end of the traction line and installed the inner tube 40 in the conduit 30 using manpower and a machine from the other side. Such an inner tube 40 includes a general inner tube and a combined inner tube. There are two types of general inner pipes, 28 and 36mm in diameter, and they are laid out in groups of up to three in 100mm PVC pipe. In addition, there are six types of combined inner tube 22, 25, 29, 32, 35, 38mm, can be installed up to 6 sets in 100mm PVC pipe, but usually 5 sets.

3 is a schematic diagram showing a process of laying a cable in an inner tube using a traction device. At this time, the traction line 60 for installing the cable 50 in the inner tube 40 may be put in the interior when the inner tube 40 is installed in advance, but after installation of the inner tube 40 as shown in FIG. 1 and FIG. Install in the same way. That is, the traction line 60 is connected to the traction device 70 on the traction side, and the cable 50 is connected to the traction line 60 on the inlet side, while pulling the cable 60 with the traction device 70. Install 50. At this time, instead of the traction apparatus 70, the cable 50 may be laid by the workers.

However, if cables have already been laid in the pipeline, other cables should be laid on them. In this case as well, the barrels and towing ships should be laid in advance as described above. However, in the previous preliminary work, the existing cable and the duct or the traction line are twisted with each other, which makes it difficult to work and, in severe cases, laying work is impossible. In particular, in the case of standing pipelines installed in Jeonju, many of the preliminary pipelines are bad, so that the existing cables should be used. Therefore, new laying technology is needed.

In addition, the conventional cable installation work as described above is completed by laying a traction line for laying the inner pipe, laying the inner pipe using the traction line, and then connecting the cable to the traction line in the inner pipe to tow. There is a disadvantage in that excessive investment costs, time and effort are required, such as a procedure and a lot of effort.

Therefore, the present invention has been made to solve the problems of the prior art as described above, by installing a traction line or cable at the same time by air pressure in a plastic inner tube to replace the inner tube function to improve the investment cost and work efficiency of the flexible tube and air pressure An object of the present invention is to provide a cable laying apparatus and a method thereof.

The cable laying apparatus of the present invention for achieving the above object, the air supply device for supplying compressed air for laying the flexible tube and cable or traction line, and is inserted along the underground pipe by the air pressure of the compressed air therein Flexible tube for passing the cable or traction line along the inner tube supply device for supplying the flexible tube and measuring the distance supplied, and insert the flexible tube and the cable or traction line to supply the compressed air And a head device configured to install the flexible tube in which the cable or the traction line is built therein along the underground pipe with the air pressure of the compressed air, and adjust at least the air pressure and the amount of air, and the flexible tube and the cable. Or designate and mark the laying distance of the towing ship, It characterized in that if comprises a feeding device for feeding the control device, and wherein the traction cable or line for controlling to automatically stop is reached.

In addition, the cable laying method of the present invention using the laying device, after passing the flexible tube in the head device, inverting the flexible tube and tied to the head device and installed in the inlet of the underground pipe, and the head Connecting the air supply to the device and supplying compressed air to the outer surface of the flexible tube to install the flexible tube in an inverted state up to the inside of the underground pipe at a half point of the total laying distance; and Cutting the end and connecting the cable or the traction line to the cut portion and supplying compressed air of the air supply device to install the flexible tube having the cable or the traction line therein throughout the underground pipe. It is characterized by including.

In the following, with reference to the accompanying drawings, a preferred embodiment of the cable laying apparatus and the method using a flexible tube and air pressure according to the present invention will be described in detail.

4 is a configuration diagram showing the configuration of the cable laying apparatus using a flexible tube and air pressure according to an embodiment of the present invention. 5 is a cross-sectional view showing the configuration of the head of the cable laying apparatus shown in FIG. 4, and FIG. 6 is a block diagram of a control device of the cable laying apparatus shown in FIG.

As shown in Figures 4 to 6, the cable laying apparatus of the present invention is an air supply device 110 for supplying compressed air for laying the cable or the traction line, and in the conduit 30 by the air pressure of the compressed air A vinyl tube 120, which is a kind of flexible tube inserted into and passing a cable or a traction line along the inside thereof, a vinyl tube supply device 130 for supplying the vinyl tube 120 and measuring a supplied distance, and a vinyl tube And a head device configured to insert a traction line or a cable and supply compressed air to install a vinyl tube 120 having a cable or a traction line therein along the conduit 30 by the air pressure of the compressed air. 140, a control device 150 for adjusting and controlling air pressure, air amount, laying distance, and the like, and a feeding device 160 for supplying a cable or a traction line at a constant speed and force. In addition, the present invention may use a fiber tube having a sealing property which is a kind of flexible tube.

The air supply unit 110 has a function of supplying sufficient air pressure and air amount necessary for laying the vinyl tube 120 and the cable or the traction line 170, and has a cart shape to move easily, the control unit 150 It is equipped with a pressure control valve, a flow control valve, and a safety valve which can control the air pressure and the amount of air from the air. In addition, the air supply device 110 has a function of supplying power to the control device 150 by connecting a small-scale power generation device.

The vinyl tube 120 should not only be blown by the air pressure of the compressed air supplied from the air supply device 110, but also have a mechanical strength that can be advanced without breaking even when damaged by foreign matter in the PVC pipe 30. do. The vinyl tube 120 may be selected and used in a diameter of 20 ~ 80mm according to the free space in the PVC pipe (30). In addition, the vinyl tube 120 is coated with an inner surface of a conventional material which can reduce frictional force with the cable or the traction line 170 installed while being transported along the inside thereof to prevent the installation of the cable or the traction line 170. Make it smooth.

The vinyl tube supply device 130 supplies the vinyl tube 120 wound on the outer surface thereof to the head device 140, measures and displays the distance supplied by the vinyl tube 120, and displays this information in the control device 150. It has the function to send out.

The head device 140 is to allow the installation of the vinyl tube 120 in which the cable or the traction line 170 is built, along the pipeline 30 by the air pressure of the compressed air, it is possible to disassemble and combine the Two first and second head devices 141 and 142 each having a passage through which the vinyl tube 120 and the cable or the traction line 170 are inserted are formed along the center thereof. The first head device 141 is configured to have a compressed air supply line 143 through which the compressed air of the air supply device 110 is supplied in a length direction within the thickness thereof, and to communicate with a central passage. In addition, one end of the first head device 141 is coupled to the backflow prevention member 144 for smoothly supplying the vinyl tube 120 to prevent backflow of compressed air. At this time, the compressed air supply line 143 may be configured to communicate with one end along the longitudinal direction within the thickness of the first head device (141).

In addition, a pressure check line 145 is formed on the second head device 142 in the thickness direction so as to communicate with one end thereof, and is connected to the surface thereof, and the cable or pull line 170 is formed on the pressure check line 145. When the built-in vinyl tube 120 is no longer advanced and the pressure of the vinyl tube 120 is higher than a predetermined pressure, a safety valve 146 for discharging air to the outside is installed.

Accordingly, when the head device 140 is inserted into the second head device 142 by inserting the vinyl tube 120 along the center passages of the first and second head devices 141 and 142, the head device 140 inverts the vinyl tube 120. And then fixed to the circumferential surface of the second head device 142, and then supplying compressed air to the compressed air supply line 143 to install the vinyl tube 120 having the cable or the traction line 170 embedded therein in the pipeline 30. Do it.

As shown in FIG. 6, the controller 150 adjusts the air pressure and air volume, designates and displays the installation distance of the vinyl tube 120 and the cable or the traction line 170, and automatically reaches the designated distance. Has the function of stopping. In addition, the control device 150 is configured to stop in an emergency by installing an emergency switch.

Feeder 160 is a kind of caterpillar (caterpillar) to supply the cable or traction line 170 at a constant speed and pressure so that the cable or traction line 170 can be smoothly advanced along the interior of the vinyl tube 120 Act as an assistant

Hereinafter, the process of laying the cable in the PVC pipeline using the cable laying apparatus of the present invention configured as described above will be described.

FIG. 7 is a flowchart illustrating a process of laying a vinyl tube, a cable, or a pull line using the cable laying apparatus shown in FIG. 4.

As shown in FIGS. 4 to 7, first, the vinyl tube 120 supplied from the vinyl tube supply device 130 is passed along the central passage of the first and second head devices 141 and 142, and the vinyl tube is passed through. Inverted (inverted) 120 is tied to the circumferential surface of the second head device 142, and then the head device 140 is installed at the inlet of the PVC conduit 30. Then, the air hose 111 of the air supply device 110 is connected to the compressed air supply line 143 of the first head device 141, and the compressed air of the air supply device 110 at a constant pressure is a vinyl tube. Supply to the outer side of (120). Then, the vinyl tube 120 is advanced while inverting the PVC pipe (30).

Then, the vinyl tube 120 stops automatically when it reaches 1/2 of the total installation distance. That is, the control device 150 controls the air supply device 110 to no longer supply compressed air to the vinyl tube 120. Then, the vinyl tube 120 is cut and the cable or pull line 170 is connected to the end of the cut vinyl tube 120. At this time, the end of the cut vinyl tube 120 is to be sealed. Then, when compressed air is supplied through the air supply device 110, the vinyl tube 120 is moved by the air pressure, whereby the cable or the traction line 170 is installed inside the vinyl tube 120, and then the artificial It is laid until. In this way, a vinyl tube 120 having a cable or a traction line 170 is installed in the PVC pipe 30.

When the traction line is installed in the vinyl tube 120 in the above process, the weight of the cable is too heavy to directly install the air pressure. Therefore, in this case, the cable may be connected to one end of the installed towing line and pulled by the manpower and / or the machine to install the cable in the vinyl tube 120.

After the cable laying is completed and the both ends of the sealed vinyl tube 120 are opened, after a predetermined time, the air in the vinyl tube 120 is released and the vinyl tube 120 goes to the bottom of the PVC pipe 30. I sit down. Therefore, it is possible to continue laying other cables on the cable laid in the same way as above, it is possible to install a plurality of cables in the PVC pipeline (30).

Therefore, in the conventional cable laying work, the traction line, the inner pipe, and the cable should be laid in order in the PVC pipeline, and 3 to 5 sets of inner pipes are installed in the 100mm diameter pipe that is usually used as the PVC pipeline, and the cable is laid therein. Although the cable of the tank could be laid, the laying work of the present invention can install the vinyl tube for the inner tube and the cable or the traction line at the same time with pneumatic pressure, and can install 10 to 20 sets of cables in a 100 mm diameter pipe.

In addition, in the conventional cable laying work, when the cable is already laid in the pipeline, the laying work may not be possible due to the twisting phenomenon of the existing cable and the barrel in laying the cable thereon. It is light and installs only over existing cables, so there is no problem in laying.

In addition, the installation work of the present invention can be installed because the plastic inner tube is flexible even if the free space is small or the shape is elliptical or distorted as in the case of a standing pipeline.

As described in detail above, the cable laying apparatus of the present invention provides a cable laying cost and effort by simultaneously laying a traction line or a cable in a pneumatic pressure tube in a flexible tube that directly replaces an inner tube function without a procedure such as traction line laying, inner tube laying, and cable laying. There is a significant savings.

In addition, the present invention can install a plurality of sets of cables in the PVC pipeline can improve the use efficiency of the underground pipeline has the effect that can significantly reduce the construction cost of the underground pipeline.

In addition, the present invention can be applied to the pipelines already laid cable and the pipelines having a small free space can be installed to significantly reduce the investment cost and significantly increase the efficiency of business promotion.

The technical details of the cable laying apparatus using the flexible tube and the air pressure of the present invention has been described above with the accompanying drawings, but this is by way of example and not by way of limitation.

It is also apparent to those skilled in the art that various modifications and imitations can be made within the scope of the appended claims without departing from the scope of the technical idea of the present invention.

1 is a schematic diagram showing a process of laying a drag ship for laying an inner tube;

2 is a schematic diagram showing a process of laying an inner tube in a pipeline;

3 is a schematic diagram showing a process of laying a cable in an inner tube using a traction device;

Figure 4 is a block diagram showing the configuration of the cable laying apparatus using a flexible tube and air pressure according to an embodiment of the present invention,

5 is a cross-sectional view showing the configuration of the head of the cable laying apparatus shown in FIG.

6 is a block diagram of a control device of the cable laying apparatus shown in FIG.

FIG. 7 is a flowchart illustrating a process of laying a vinyl tube, a cable, or a pull line using the cable laying apparatus shown in FIG. 4.

  ♠ Explanation of symbols on the main parts of the drawing ♠

110: air supply 111: air hose

120: vinyl tube 130: vinyl tube supply device

140: head device 143: compressed air supply line

144: backflow prevention member 145: pressure check line

146: safety valve 150: control device

160: feeding device 170: cable or tow ship

Claims (7)

Cable laying device for laying cables in underground pipelines, An air supply for supplying compressed air for laying flexible tubes and cables or traction lines; A flexible tube which is inserted along the underground pipe by the air pressure of the compressed air and passes the cable or the traction line along the inside thereof; An inner tube supply device for supplying the flexible tube and measuring a distance supplied thereto; The flexible tube and the cable or the traction line is inserted and configured to supply the compressed air so that the flexible tube having the cable or the traction line embedded therein is located along the underground pipe line by the air pressure of the compressed air. Head device, A control device that controls at least air pressure and air volume, specifies and displays the installation distance of the flexible tube and the cable or tow line, and automatically stops when the specified installation distance is reached; and Cable laying apparatus comprising a feeding device for supplying the cable or traction line. The cable laying apparatus according to claim 1, wherein the flexible tube is a vinyl tube. The cable laying apparatus according to claim 2, wherein the inner surface of the vinyl tube is coated to reduce the frictional force with the cable or the traction line installed while being transported along the inside thereof. The cable laying apparatus according to claim 1, wherein the flexible tube is a sealant fiber tube. According to claim 1 or claim 2, wherein the head device is disassembled and coupled to each other, the first and second head device formed with a channel through which the tube and the cable or traction line is inserted along the center, respectively, The first head device has a supply line through which the compressed air of the air supply device is supplied is formed in a lengthwise direction within the thickness thereof to communicate with the passage, and the tube is smoothly supplied to one end of the first head device. Cable laying device, characterized in that coupled to the backflow prevention member to prevent backflow of compressed air. According to claim 5, The second head device is formed in the thickness direction along the longitudinal direction in communication with one end thereof is formed a pressure check line connected to the surface, the pressure check line is a pressure of the tube is a predetermined pressure or more Cable laying device, characterized in that the safety valve is installed to discharge the air to the outside when the rise. A cable laying method for laying cables in an underground pipeline using the cable laying apparatus according to claim 1, Passing the flexible tube through the head device, inverting the flexible tube, binding the head device to the head device, and installing the inlet to the underground pipe; Connecting the air supply device to the head device and supplying compressed air to the outer surface of the flexible tube to install the flexible tube in an inverted state to the inside of the underground pipe at a half point of the total installation distance; and Cut the end of the flexible tube and connect the cable or traction line to the cut portion and supply the compressed air of the air supply device to the flexible tube having the cable or traction line inside the entire underground pipe line Cable laying method comprising the step of laying.