KR101141756B1 - Clamping apparatus for wiring cable in underground pipe line - Google Patents

Abstract

The present invention relates to an underground pipe clamping device for cable laying underground cable to easily and easily pull the cable in the underground pipe when the cable is laid.
The present invention is a wire,
A compression clip positioned at the front end of the cable to fix the joint portion of the wire into a hook and a cable support in an eight-character shape;
A fixing ring for fixing a part of the crossing portions of the wire of the cable support part wound in a zigzag manner to the cable;
Located between the compression clip and one end of the cable and having a thickness thinner than the thickness of the compression clip, characterized in that it comprises an aluminum pipe for collecting and fixing the wire of the cable support portion adjacent to the compression clip.

Description

Clamping apparatus for wiring cable in underground pipe line}

The present invention relates to a clamping device for cable laying underground pipes, and more particularly to a clamping device for cable laying underground pipes to easily and easily pull the cable in the underground pipe route when laying the cable such as optical cable in the underground pipe. .

As a conventional cable clamping device, a cable clamping device for electric pole temporary cables shown in FIG. 1 is provided to clamp a cable between poles standing on the ground in a short time to support the pole, and at the same time to distribute the tension applied to the cable evenly. Known.

As shown in Figure 1, the clamping device of the cable is fixed to the hook portion 13 and the support by fixing the wire 11 made of a metal with high tensile force (such as stainless steel) with a compression clip 12 to form an eight-character 14 to form the clamping device with the wire fixing ring (15).

Using the clamping device as described above, as shown in FIG. 2, after the cable 10 is zigzag wrapped around one side of the support 14, the wire 11 of the support 14 is zigzag in this zigzag state. In order to prevent the wire 11 is to cross a portion of each other to fix the wire ring 15.

Then, as shown in FIG. 2, the cable 10 positioned between the poles 17 is tensioned using a cable tensioner (not shown), and then the hook portion 13 is fixed to the top of the pole 17. Hang on the hook (16).

The clamping device as described above allows the hook part 13 and the support part 14 to be formed by the compression clip 12, and wraps the cable 10 with the support part 14, and then the support part 14 with the wire fixing ring 15. By simply tightening the clamp, the cable 10 can be clamped, so that the cable can be quickly supported without using a separate tool, and the cable tension applied to the wire can be evenly distributed, thereby preventing the load of the cable. there was.

However, since the clamping device of the prior art as described above is a clamping device of the cable used to install the tension between the poles, there was the following problem to use to install the cable in the underground pipeline.

As shown in FIG. 3, in order to install the cable 10 in the underground pipe line 20 having a length of 200 to 300 m, the rope 18 is held on the hook portion 13 of the clamping device, and then in the F direction. By pulling out, the cable 10 should be pulled from one end of the underground pipe line 20 to the other end. At this time, the inclination of the bottom surface of the cable 10 and the wire 11 of the support part 14 wound around the cable 10 is 35 ° ≤θ <45 ° so that the wire 11 of the clamping device does not come off from the cable 10. Under the condition that the wire 11 of the support 14 is connected to the cable 10 under the condition that the wire 11 is wrapped around the cable 10 in a zigzag, using the clamping device to the cable 10 When wrapped and fixed in a zigzag, the compression clip 12 is positioned on one end of the cable 10 is installed.

In addition, the compression clip 12 is a finish portion of the joint of the wire 11, and because it must withstand a large force when pulling the cable 10 is usually formed by pressing a thick aluminum rod to the end of the joint His thickness should be thick.

Thus, in order to install the cable 10 in the underground pipeline 19, when using the above-mentioned clamping device of the prior art, the underground pipeline 19 should be larger in diameter than the cable 10 to be installed, otherwise As shown in FIG. 3, when the cable 10 is installed in the underground pipe passage 19 using the clamping device, the compression clip 12 is caught in the underground pipe passage 19 so that the cable 10 passes through the underground pipe passage. (19) It would not be pulled out, and in some cases, the underground pipeline would be damaged so that cables could not be laid in the underground pipeline using conventional clamping devices as described above. In particular, in recent years, instead of a large coaxial cable, a small diameter of the inner tube tends to be replaced. In this case, when a larger number of inner tubes are installed in one large support pipe, the clamping device as described above may further increase the optical cable. It could not be laid.

On the other hand, there is a conventional clamping device for cable laying underground pipe used in the installation of the cable in the underground pipeline there is shown in FIG.

The clamping device for cable installation of the underground pipe line wraps the outer circumferential surface of the cable 20 with the cable network 21 and bundles the cable network 21 with a vinyl tape (not shown) to fix the cable network 21 to the cable 20. In addition, the shackle 22 is coupled to one side of the cable network 21, and one side of the shackle 22 is coupled to the bounce 23 for preventing the twisting of the cable 20 and the cable to one side of the bounce 23 After connecting the wire rope 24 for the installation of the (20), it is configured to connect the wire rope 24 to the cable laying device for laying the cable (20).

The clamping device is coupled to the cable 20 in the form of wrapping the outer circumferential surface of the cable 20, which generates a considerable amount of frictional force with the underground pipe during the installation of the cable 20 in the cable network 21, so that the outer diameter of the coupling portion The greater the friction force during the installation of the cable 20, the greater the installation becomes difficult or damaged pipelines.

In addition, since the connection between the cable 20 and the cable network 21 is not made firmly, the cable network 21 is separated from the cable 20 in some sections of the underground pipeline during the demolition of the cable and the cable 20 is laid. This was not done properly.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention to provide a clamping device for cable laying underground pipe for easy, stable and easy to install the cable in the underground pipe.

Clamping device for cable laying underground pipe line for achieving the above object is, the compression clip for fixing the wire and the one end of the cable is fixed to the shape of 8 to be divided into the hook portion and the cable support portion of the wire; And a fixing ring for fixing a portion of an intersecting portion of the wire of the cable support part zigzagly wound on the cable, and positioned between the compression clip and one end of the cable and having a thickness thinner than the thickness of the compression clip. It is characterized in that it comprises an aluminum pipe for collecting and fixing the wire of the cable support adjacent to the compression clip.

Clamping device for cable laying underground pipe line of the present invention as described above is fixed to the shape of 8 by pressing the wire joint using a compression clip having a thickness that can withstand the tensile force applied when the cable is laid, the support wire Since the inclination of the wire when wrapping the cable is configured to collect and crimp the wire of the support part with an aluminum pipe having a thickness thinner than that of the compression clip so as to maintain a predetermined angle so that the cable does not fall out when the cable is laid against the cable. When the cable is laid, a thick compression clip is placed outside the cable and the thin aluminum pipe is placed on the upper side of the cable. Therefore, the cable is installed using the clamping device of the present invention in the narrow underground pipeline. Even if the cable is At the same time, and do not come out to disturb fixed out by a thick compressed clip from the underground pipe or cable is located, there is no possibility of damaging an underground pipeline.

1 is a schematic perspective view of a conventional clamping device for cable laying.
FIG. 2 is a view illustrating a state in which the clamping device of FIG. 1 is wrapped in a cable and a state in which the cable is stretched between the poles in the wrapped state.
FIG. 3 is a cross-sectional view of a cable installed in an underground pipeline using the cable installation clamping device of FIG. 1.
Figure 4 is a cross-sectional view showing the coupling of the cable is installed with another conventional clamping device.
Figure 5 is a schematic perspective view of the clamping device for cable laying underground pipe line according to the present invention.
FIG. 6 is a cross-sectional view when the cable is laid in the underground pipeline using the clamping device of FIG. 5.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 5 and 6, the clamping device 30 for laying the underground pipe line cable according to the present invention includes a wire 31 having a strong tensile force, a hook portion 32, and a cable hooking a joint portion of the wire 31. Compression clip 34 for fixing in the shape of an eight shape to be divided into a support 33, and when the wire 31 of the cable support 33 is wrapped in a zigzag of the cable 37 is crossed of the wire 31 A fixing ring 35 for fixing a part of the portion, and a wire 31 of the cable support part 33 adjacent to the compression clip 34 while having a thickness thinner than the thickness of the compression clip 34 to be crimped and fixed. The aluminum pipe 36 is provided.

Reference numeral 38 denotes a tape, 39 denotes an underground pipe and 40 denotes a rope.

The wire 31 is usually made of a metal having a high tensile force, but is not limited thereto. Any material having a high tensile force may be used.

In addition, the wire 31 of the cable support 33 may be used by coating a resin material having a large frictional resistance (for example, urethane, PE, etc.), which is the wire 31 of the cable support 33 is a cable ( 37) to prevent the cable 38 from slipping in the cable support 33 by increasing the coefficient of friction on the connection surface of the support and the cable even if the cable tension is applied to the cable support 33 in the state of wrapping .

The compression clip 34 reinforces the joint portion of the wire 31 when the tension is generated in the wire 31 by the force applied to the cable at the time of installation, the tension of the wire 31 is strong It is configured to press and fix the aluminum rod of a thickness that can withstand.

The aluminum pipe 36 which collects and compresses the wire 31 of the cable support 33 adjacent to the compression clip 34 is connected to the cable 37 on which the wire 31 of the cable support 33 is installed. The inclination of the wire 31 of the support part 33 wound around the cable relative to the bottom of the cable 37 is 35 ° so that the cable 37 does not slip out due to the tension applied during installation in the zigzag wrapped state. The compression clip 34 is positioned outside one end of the cable 37 to be installed while maintaining the condition of? Therefore, the aluminum pipe 36 may maintain the inclination of the wire under the above conditions without a large tension applied, and thus the thickness of the aluminum pipe 36 may be very thin as compared with the compression clip 34, and thus the aluminum pipe may be used when laying the cable. Even if the 36 is located above the cable 37, the basement pipe 40 is not impeded to cause an obstacle or to damage the underground pipe 40.

As the clamping device 30 for cable laying underground pipe line of the present invention configured as described above is provided with an aluminum pipe 36 as shown in Figure 6 when the compression clip 34 is installed in the underground pipe passage of the cable ( One end of the cable 37 is located outward, and a thin aluminum pipe 36 is positioned on one end of the cable 37 to prevent the cable 37 from slipping out due to the tension applied during installation. Since the inclination of the wire can be maintained at a predetermined angle and the clamping device 30 does not contact the underground pipe 40, the cable 37 can be easily installed in the narrow underground pipe 39.

10: cable 11: wire
12: compression clip 13: hook part
14 support 15 wire hook
16: hook 17: Jeonju
18: Rope 19: Underground pipe
20: cable 21: cable network
22: Shackle 23: Bounce
24: wire rope 30: clamping device
31: wire 32: hook
33: cable support 34: compression clip
35: fixing ring 36: aluminum pipe
37 cable 38 tape
39: underground passage 40: rope

Claims (1)

With wire,
A compression clip positioned at the front end of the cable to fix the joint portion of the wire into a hook and a cable support in an eight-character shape;
A fixing ring for fixing a part of the crossing portions of the wire of the cable support part wound in a zigzag manner to the cable;
An underground pipe passage, comprising an aluminum pipe positioned between the compression clip and one end of the cable and having a thickness thinner than the thickness of the compression clip, to collect and crimp the wires of the cable support adjacent to the compression clip. Clamping device for cable laying.

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