KR19990011686U - Integral cable sheath - Google Patents

Abstract

The present invention is a one-piece cable protection tube to secure the cable, the cable protection tube 10 has a plurality of insertion holes 12 are formed along the longitudinal direction in which the cable is arranged, the cable protection tube to match the insertion hole 12 It characterized in that it comprises an alignment means for connecting the (10). And the alignment means for alignment is formed on the other side of the cable groove (10) and the fitting groove 14 formed on one side of the cable protection tube 10, the fitting projection (fitting into the fitting groove 14 of the other cable protection tube 10 ( 16), the fitting groove 14 and the fitting protrusion 16 are configured differently in size and shape so that the cable protection tube 10 can be accurately connected at a desired position. In addition, if necessary, the centering groove 12a and the fitting protrusion 14a of the protective tube 10 can be formed by the cable insertion hole 12, and in this case, the arrangement density of the cable can be increased. The present invention is provided with a plurality of insertion holes into which the cable is inserted, and having an alignment means for connecting the cable sheath so that the insertion holes coincide, thereby allowing convenient and quick wiring of the cable into the cable sheath. In addition, the cable can be arranged with high density, and the arrangement of the cables arranged in the cable sheath can be accurately and quickly distinguished.

Description

Integral cable sheath

The present invention relates to an integrated cable protective tube, and more particularly to a cable protective tube that can be used to wire a large number of cables conveniently and quickly.

In general, a cable is used for a communication or power use, and the wire is insulated and coated with a synthetic resin or paper. Such cables are usually buried underground to prevent short circuits, to maintain communication security, to protect the wires from impacts from the outside, and to prevent safety accidents caused by human contact.

Thus, when the cable is buried underground, water penetration is prevented and the cable is protected from external pressure such as pressure. Especially important cables are placed in one small pipe, and several small pipes are replaced by large pipes. The method of embedding is used. At this time, the small tube is made of polyethylene, and the large tube is made of polyvinyl chloride resin tube or FC tube.

Therefore, the cable laying work is a wiring work performed along the cable protection tube, first, a cylindrical protective tube of about 6M in length is buried underground, and then a small cylindrical tube is inserted. In this case, about 3 to 4 small tubes are inserted into one protective tube. In the process of inserting the small tubes into the protective tube, a very large frictional resistance is applied between the protective tube and the small tube. A strong force should be pulled from one side of the sheath and pulled out to the other side of the sheath.

Therefore, a rope capable of pulling a small tube must first be inserted from the other side of the protective tube, and in order to insert the rope, a wire must first be inserted to pull out the rope.

Therefore, in the cable laying process, first, the ground is laid with a constant depth in the direction to lay the cable, then the large diameter protective tube is placed and buried, and then the wire is pulled out and the small tube is fixed to the rope. The small tubes are pulled by retractors and automobiles, and three or four small tubes are placed inside the protective tube, followed by a multi-step operation of reinserting the finally-covered cable.

Since this process is very cumbersome, complicated and time-consuming, the actual cost of laying it is actually several times to tens of times of the protective tube and the small tube. In addition, since the small pipes are mutually changed in the inside of the protective tube, the inlet and the outlet of the small tube cannot be easily grasped from both sides of the protective tube.

In addition, since a small pipe is stacked in a protective tube and is pressed between the small pipes, there is a possibility that the cable may be damaged, and the cable may be stretched so that the length of the cable may be shortened due to contraction after embedding.

Moreover, the space of the protective tube was not possible because small tubes could not be densely arranged inside the protective tube because a relatively large space must be maintained between the small tubes within the protective tube to reduce the large frictional resistance during the insertion of the small tube. Inefficient use. Therefore, it is pointed out that in order to embed a cable of a certain capacity, a large number of small tubes should be arranged using large protective tubes.

Therefore, the development of cable sheaths that can facilitate the laying of protective sheaths and small pipes, reduce construction costs, protect cables from leaks and impacts, and increase the efficiency of deployment by placing small tubes inserted into the sheaths at high density. It is urgently required.

Therefore, an object of the present invention is to provide an integrated cable protection tube that can facilitate the buried construction.

Another object of the present invention is to provide an integrated cable sheath that can safely protect the cable from leaks and external shocks.

It is another object of the present invention to provide an integrated cable sheath that can arrange cables at high density.

Further, another object of the present invention is to provide an integrated cable protective tube that can easily grasp the arrangement position of the small tube even when a plurality of small tube is disposed inside the protective tube.

Figure 1a is a perspective view showing an integrated cable sheath according to the present invention,

FIG. 1B is a longitudinal cross-sectional view illustrating a coupling state of FIG. 1A; FIG.

2a and 2b and 2c and 2d are views showing another variant of the embodiment according to FIG.

3 and 4 are views showing other embodiments of the alignment means for connecting the cable sheaths in accordance with the present invention to match;

Figure 5a is a view showing another embodiment of the cable sheath according to the present invention,

Figure 5b is a view showing an example of a curved pipe by continuously joining a cable protective tube formed a constant angle.

♣ Explanation of symbols for main part of drawing ♣

10: cable sheath 12: insertion hole

14: alignment groove 16: alignment projection

18: enlarged portion 18a: fitting groove

19: fitting rail 20: adapter

22: fitting protrusion 24: through hole

In order to achieve the above object, the present invention provides an integrated cable protection tube for protecting a cable safely. The cable protection tube has a plurality of insertion holes in which a cable is disposed along a length direction, and a cable protection tube to match the insertion holes. It characterized in that it comprises an alignment means for connecting them.

Hereinafter, a preferred embodiment of the cable protection tube according to the present invention will be described in detail with reference to the accompanying drawings.

1A and 1B are a perspective view and a longitudinal cross-sectional view showing a cable protection tube according to the present invention, and FIGS. 2A and 2B and 2C and 2D are views showing another modified example of the embodiment according to FIG. Figure 4 is a view showing other embodiments of the alignment means for connecting the cable sheaths in accordance with the present invention to match.

First, as shown in FIG. 1A, a plurality of insertion holes 12 are formed in the cable protection tube 10, and a plurality of cables C are wired in the insertion holes 12.

Looking at this in detail, the integrated cable protection tube 10 embedded in the basement is formed with an insertion hole 12 through which a plurality of cables (C) are wired. This insertion hole 12 is formed along the cable protection pipe 10 in the longitudinal direction, and its inner peripheral surface is smoothly processed so that insertion of the cable C may be easy. This insertion hole 12 is configured to be able to adjust the number as needed.

Since the cable protection tube 10 of the present invention is integrally formed in a form in which a conventional large tube and a small tube inserted therein are integrally formed, a complex of pulling and pulling a rope or a wire to pull a small tube separately in buried construction The procedure can be omitted, and the cable can be placed at a high density without the space required to pull the cable.

On the other hand, the insertion hole 12 in which the cable is arranged as described above can freely adjust the number, shape and arrangement of the protective tube 10 of the present invention as needed. This can be suitably formed for the cable to be entirely embedded, for example in Fig. 1 there are five circular insertion holes 12 formed in a circular protective tube, 3 in Fig. 2b, 4 in Fig. 2c, Fig. 2d. Six insertion holes 12 are provided respectively. In this way, the shape of the protection tube 10 and the insertion hole 12 can be formed to provide the desired number of insertion holes 12, and the shape of the protective tube 10 and the insertion hole 12 is not necessarily circular, but can be formed of any polygon such as a triangle, a square, a pentagon, and the like. Can be.

On the other hand, the integrated cable protection tube of the present invention is formed in a length of about 5 to 10 meters in consideration of the convenience of transportation and construction. In practice, cables require varying lengths of laying, such as those from several meters to several tens of kilometers, so in general, a method of extending cable sheaths by connecting cable sheaths in series should be used.

Thus, when connecting them between the cable sheaths 10 mutually, an alignment means for matching the insertion holes 12 coaxially is provided. That is, when connecting the cable protective tube 10 as shown in Figure 1b is generally connected to the two cable protective tube 10 after the sleeve (1) to the outer peripheral surface of the joint portion is fixed with an adhesive. Thereby, the cable sheaths 10 must be connected so that the insertion holes 12 of the cable sheaths 10 coincide with each other before the sleeve 1 is fixed with the adhesive.

Accordingly, as shown in FIG. 1A, one side of the cable protection tube 10 is provided with fitting grooves 14, and the other side of the cable protection tube 10 is fitted into the fitting groove 14 of the other cable protection tube 10. Losing alignment projections 16 are formed. The fitting grooves 14 and the fitting protrusions 16 are the main fitting grooves 14a and the main fitting protrusions 16a, which greatly center the cable protection tube 10, and the insertion hole 12 of the cable protection tube 10. They can be divided into sub-aligning grooves 14b and sub-aligning protrusions 16b which are smaller in size than the main fitting grooves 14a and the main fitting protrusions 16a.

That is, by turning the cable sheath 10 centered by the main fit groove 14a and the main fit protrusion 16a to align the sub fit protrusion 16b with the sub fit groove 14b, the two cable protect tubes 10 are provided. Are connected so that the insertion holes 12 coincide. Meanwhile, the number of sub-alignment grooves 14b and sub-alignment protrusions 16b may be adjusted in some cases, and the shape of the sub-alignment grooves 14b and sub-alignment protrusions 16b may be circular or square as shown in FIG. 2A. It can also be configured to be exactly in the desired position by forming a triangle, etc.

Also, as shown in FIGS. 2B, 2C, and 2D, the cable protection tube 10 may be exactly aligned with only the main alignment groove 14a and the main alignment protrusion 16a, and the sub alignment groove 14b and the sub alignment protrusion may be used. The cable protection tube 10 may be exactly aligned with only 16b.

That is, when three insertion holes 12 are formed in the cable protection tube 10 as shown in FIGS. 2B and 2C, a triangular main alignment groove 14a is formed in one side of the cable protection tube 10, and the cable The other side of the protective tube 10 is formed by forming a triangular main alignment protrusion 16a fitted into the triangular main alignment groove 14a of the other cable protection tube 10 by combining the cable protection tube ( 10) can be connected.

In addition, in the case where four insertion holes 12 are formed in the cable protection tube 10, as described above, a rectangular main fitting groove 14a is formed in one side of the cable protection tube 10, and the rectangular main is formed in the other side thereof. By forming the fitting projections 16a and joining them, the cable sheaths 10 may be exactly aligned. This is also the case when the number of insertion holes 12 is five and six.

In addition, when the insertion hole 12 is also formed in the center of the cable protection tube 10 as shown in Figure 2d by configuring the shape and shape of the sub-aligning groove (14b) and the sub-alignment projection (16b) differently, the cable protective tube (10) can be correct.

Next, with reference to Figures 3 and 4 another embodiment of the alignment means for matching the cable sheath of the present invention will be described. In another embodiment, the alignment means is provided with fitting grooves 14 on both sides of the cable protection tube 10 as shown in FIG. In addition, an adapter 20 is disposed at the joints of the two cable sheaths 10 so as to match the insertion holes 12 of the cable sheaths 10. The adapter 20 has a through hole 24 which communicates with the insertion hole 12 of the cable protection tube 10, and on both sides, the fitting protrusions 22 that engage with the fitting groove 14 of the cable protection tube 10 are provided. Formed. Therefore, the adapter 20 is used to connect the insertion holes 12 of the cable sheaths 10 so as to coincide with each other, and the sleeve 1 is fixed to the outer surface thereof.

Finally, referring to other embodiments of the alignment means, as shown in FIG. 4, on one side of the cable sheath 10, an enlarged portion 18 having a larger diameter than the cable sheath 10 is provided with the protection sheath 10. Are integrally formed together. The enlarged portion 18 has a large diameter so that one side of the other cable protection tube 10 is inserted, and the fitting grooves 18a in the longitudinal direction are formed at a predetermined depth on the inner circumference.

And the other side of the cable protection tube 10 is fitted with the fitting rails 19 are coupled to the fitting groove (18a) of the enlarged portion 18 of the other cable protection tube (10). Therefore, one side of the cable protection tube 10 is inserted into the enlarged portion 18 of the other cable 10, and the fitting groove 18a and the fitting rail 19 are coupled to each other, so that the cable protection tubes 10 are inserted into the insertion holes ( 12) are connected to each other to match. On the other hand, in this case, since the cable protection pipes 10 are connected while overlapping each other, it can be firmly fastened without a separate sleeve (1).

The fitting grooves 18a are formed at four equally spaced intervals, and are illustrated as having a rectangular shape, but the number and shape of the grooves 18a are not necessarily limited thereto, and two or three locations are necessary. Appropriate grooves can be formed and the shape can also be formed into a triangle or a pentagon, or a variety of shapes such as a combination of a triangle and a pentagon.

Here, the coupling relationship in which the rail 19 is formed in one side of the protection tube 10 and the groove 18a is formed in the enlarged portion 18 of the other side of the protection tube is shown. It is also possible to form a groove in the protective tube.

On the other hand, by such a configuration, the cable protection tube 10 is connected so that the insertion hole 12 is matched by the alignment means, and if necessary, the sleeve 1 is fixed to the outer periphery of the joint portion and then buried underground. . Then, the cables C are wired to the insertion hole 12. That is, the cable network which can pull this cable C is fixed to the end of the cable C. And at the opposite side of the insertion hole 12, the cable wire is inserted so that the end thereof protrudes into the entrance of the insertion hole 12. Then, the cable wires are hooked to the cable network to fix the cable C by using a cable winch on the opposite side of the cable sheath 10, and when one side of the cable C protrudes to the opposite side of the insertion hole 12, the wiring The task is complete.

At this time, since only one cable C is inserted into one insertion hole 12 and friction between the cables C is prevented, the cable C is naturally inserted along the insertion hole 12 of the cable protection tube 10. Will be. Since the cable moves along the insertion hole 12 in this manner, it is desirable to provide a suitable lubricant to the inner circumference of the insertion hole in order to reduce the frictional resistance between the cable and the insertion hole. As a lubricant, grease, tallow, etc. may be used, or a method of applying a lubricating coating such as teflon to the inner circumference may be selected.

On the other hand, as described above, when connecting and extending the protective tube of the present invention, it is necessary to connect the protective tube in a curve according to the construction environment, such as curvature of the road or the layout of the building. In this case, as shown in FIG. 5A, it is particularly preferable to use a curved protective tube in which both ends have a straight line shape in order to maintain the alignment of the intermediate portion to some extent but maintain alignment with the connection of the protective tube. Figure 5b is a constant angle formed in the interruption portion can be used for piping of the curved portion by continuously combining it.

Exemplary embodiments of the present invention described with reference to the drawings have been described, but the scope of application of the present invention is not limited thereto, and the present invention may be appropriately changed within the scope of the same idea.

As described above, the integrated cable protection tube according to the present invention is formed with a plurality of insertion holes into which the cable is inserted, and by providing an alignment means for connecting the cable protection tube so that the insertion hole is matched, conveniently and quickly Not only can the cable be routed inside the cable sheath, but the arrangement of the cable routed to the cable sheath can be accurately and quickly distinguished.

In addition, since the cable sheath according to the present invention can arrange the cable at a high density, there is an advantage in that more cables can be used compared to the same cross-sectional area, and a protective tube having a smaller cross-sectional area can be used to construct a predetermined number of cables.

Claims (6)

In the cable sheath to secure the cable, The cable guard tube 10 has a plurality of insertion holes 12 along which the cable is disposed is formed along the length direction, and includes an alignment means for connecting the cable guard tubes 10 to match the insertion holes 12. Integral cable sheath. The method of claim 1, wherein the alignment means is formed on the other side of the cable groove (10) and the fitting groove 14 formed on one side of the cable protection tube 10, the alignment groove (14) of the other cable protection tube 10 An integrated cable protective tube, characterized in that the fitting projection (16) fitted to the). 3. The integrated cable sheath of claim 2, wherein the size and shape of the fitting grooves 14 and the fitting protrusions 16 are formed differently so that the cable sheathing tube 10 can be accurately connected at a desired position. . The method of claim 1, wherein the alignment means is disposed in the fitting groove 14 formed on both sides of the cable protection tube 10, the joint portion of the cable protection tube 10 is fitted into the fitting groove (14). And an adapter (20) having a fitting protrusion (22) and a through hole (24) in communication with the insertion hole (12) of the cable protecting tube (10). According to claim 1, wherein the alignment means is formed on one side of the cable protective tube 10 and having an enlarged portion 18 having a larger diameter than the cable protective tube 10, and the inner peripheral edge of the enlarged portion 18 Fitting grooves 18a formed in the longitudinal direction of the cable rails and fitting rails 19 formed on the other side of the cable protection tube 10 and fitted into the fitting grooves 18a of the enlarged portion 18 of the other cable protection tube 10. Integral cable sheath, characterized in that consisting of). 2. The integrated cable sheath of claim 1, wherein both ends of the cable sheath (10) remain substantially straight and the middle portion has a constant curvature.