KR200319133Y1 - End closure device for communication or power cable receiving line - Google Patents

Abstract

The present invention is for closing the end of the receiving pipe passage 12 in which the cable 14 is accommodated, the cable 14 is the first cable support 20 of the hard synthetic resin, the elastic rubber inside the end side of the receiving pipe passage 12 The first and second cable insertion pipes 16 and 18 and the second cable support 22 of the hard synthetic resin are supported. Three “U” shaped cable supports 30 are formed on the first and second cable supports 20 and 22, and insertion grooves 32 are formed on the inner surface of each cable support 30 to support the cables. The stopper 34 is inserted, and bolt holes 42 are formed between the cable supports 30, and nuts 44 are provided in the bolt holes 42 on the outer surface of the first cable support 20. Insertion and fixation, and the drainage pipe 46 is extended to the lower bolt hole 42 in the second cable support 22, and the insertion hole 24 in the center of the first and second cable insertion pipe 16, 18 It is formed at equal intervals and a bolt hole 28 is formed therebetween, and the cutout hole 26 extending to the outer periphery in the tangential direction is formed in the insertion hole 24 of the first cable insertion pipe 16. And a cutout portion 26` in a tangential direction different from the cutout portion 26 of the first cable insertion pipe 16, is formed in the insertion pipe 24 of the second cable insertion pipe 18, and the cable support 20 ( 22 to each cable support 30 of Supporting table 14 and be compressed by tightening ever posap each cable (14) to each posap ball 24 in the cable port cannulation 16 (18).

Description

End closure device for communication or power cable receiving line

The present invention relates to an end closure device of a communication or power cable receiving pipe line, in particular, to prevent rain or sewage from entering the manhole side end of the receiving pipe line for receiving multiple cables, for example, three cables. To an end closure device for communication or power cable receiving conduits to be closed.

In general, telecommunication or power cables buried in the ground are accommodated in the pipelines previously buried underground, and manholes are installed between the pipelines and the pipelines. The pipeline before the cable is housed is called the pipeline and the pipeline where the cable is housed is called the pipeline. Such a conduit is closed at the end of the conduit on the manhole side in order to prevent rainwater or sewage from entering the pipeline, whether it is an air pipeline or a receiving pipeline. In the case of an empty pipeline, the cable is not provided and disposed of, but the closing of the end is relatively easy.

Conventionally, an end closure device for closing an end of a receiving conduit containing three cables, for example, three cables, has a cylindrical shape so as to be in close contact with the inner surface of the conduit and the main surface of each cable, and can insert the cable from the peripheral side thereof. Rubber closing plugs with equally spaced cable insertion holes are used. When the bolts and nuts are fastened by tightening the bolts with the bolt-nut fastening means in the center of the closing plugs, the closing plugs of the rubber material are compressed and the inner surface of the pipe and the surface of each cable It has been known that the end of the receiving pipe can be closed while being in close contact with it. However, such a monolithic closing plug can be expected to be in close contact with each circumferential or inner surface of the space to be closed by expanding in the axial direction while being compressed in the axial direction, so that a perfect closing effect cannot be obtained, especially the cable itself. The load is continuously applied to the closing plug, which causes a glass phenomenon of the closing plug on the inner surface of the upper side of the pipe line, which may cause the closing effect to be lost. This closure plug of the prior art also has the drawback that it is limited to only the dedicated cables in which it is used. That is, since the diameter of the insertion hole into which the cable is inserted into the closing plug is already determined at the time of manufacture of the closing plug, the cable of different diameter cannot be used, so the closing plug suitable for the diameter must be prepared for each diameter. In addition, in the closed plug of the prior art, the means for draining the rainwater or sewage due to defects in the pipe line or the closed plug, or for other reasons, while the end of the cable receiving line is closed using the same. Since it is not provided, when trying to drain the water filled in the receiving pipe passage, the cumbersome operation of disassembling the closing plug of the receiving pipe passage and closing the end of the receiving pipe passage with the closing plug again after drainage should be performed.

In the present invention, in view of such a conventional point, the space between the circumferential surface of the three cables wired in the accommodating pipe path and the inner circumferential surface of the accommodating pipe path is effectively closed to prevent rainwater or sewage from entering the accommodating pipe path. After closing the end of the receiving pipe, the rainwater or sewage flowing into the receiving pipe can be easily discharged, and even when cables with different diameters are wired, the end of the receiving pipe can be closed using simple cable diameter compensation means. Its purpose is to.

To this end, the present invention is to accommodate the three cables in the receiving pipe line embedded in the manhole wall and the first cable support of the hard synthetic resin, the first and second cable insertion pipe of the elastic rubber and the rigid inside the end side of the receiving pipe In which the end of the receiving pipe passage is closed by the second cable support of the synthetic resin, three " U " cable supports are formed in the first and second cable supports radially open and have a semicircle bottom. The inner surface of each cable support is formed with an insertion groove as a whole is inserted into the semi-circular portion formed with the insertion groove on the bottom and the cable support stopper with the insertion projections on both sides is inserted, the bolt hole is formed at equal intervals between each cable support, The nut is inserted into the bolt hole on the outer surface of the first cable support, and the drainage pipe is extended to the lower bolt hole on the second cable support, and the first and second cables In the intubation, insertion holes of the same diameter as the diameter of the cable are formed at equal intervals, and bolt holes aligned with the bolt holes of the first and second cable supports are formed therebetween, and in the insertion hole of the first cable insertion pipe. A cutout extending from the tangential direction to the outer periphery is formed, and a cutout of the second cable insertion pipe is formed in a tangential direction different from the cutout of the first cable insertion pipe, and between the first and second cable supports. The first and second cable insertion pipes are arranged to support each cable at each cable support of the cable support, insert each cable into each insertion hole of the cable insertion pipe, insert the cable into the receiving pipe path, and then insert the bolt into each bolt hole. Allow the first and second cable insertion pipes to be compressed.

Referring to the present invention in more detail based on the accompanying drawings as follows.

1 is an exploded perspective view of the present invention

2 is a cross-sectional view of the use state of the present invention

3 is a cross-sectional view taken along the line III-III of FIG.

4 is a cross-sectional view taken along the line IV-IV of FIG.

5 shows another embodiment of the present invention, an exploded perspective view of an embodiment applied when a cable having a diameter smaller than the cable to which the embodiment shown in FIGS. 1 to 4 is applied is used.

6 is a cross-sectional view taken along the line VI-VI of FIG. 5.

Explanation of Signs of Major Parts of Drawings

12 ... 14 receiving pipes

16,18 ... cable insertion pipe 20,22 ...

24 ... 26,26 `insert ...

28,42 Bolt bolt 30 Cable support

32 ... 34 Insert groove 34 Cable support plug

36 ... semicircular part 38 ...

40 Insert groove 44 Nut

46 Drain pipe 48 Bolt

Figure 1 shows a first embodiment of the present invention, and shows an exploded perspective view of each element constituting the end closure device of the communication or power cable receiving pipe of the present invention, Figure 2 is an end portion in the manhole wall (10) Three cables 14 are wired in the embedded receiving conduit 12, and these cables are shown in a closed state by the end closure device of the present invention inside the end side of the receiving conduit 12. FIG.

The end closure device of the cable receiving pipe path shown in FIG. 1 is divided into a first cable inserting pipe 16 and a second cable inserting pipe 18 made of elastic rubber, and a first cable made of hard synthetic resin joined to both sides thereof. It consists of a support 20 and a second cable support (22). They are joined by bolts that are fastened through bolt holes each formed to be aligned as described in detail later.

The first and second cable insertion pipes (16) and (18) and the first and second cable supports (22) are in the form of discs, each of which has an outer diameter so that they can be inserted into the receiving pipe path (12). The size is close to the inner diameter of).

In the first cable insertion tube 16, three insertion holes having the same diameter as the diameter of the cable are formed at equal intervals, and the outer periphery of the cable insertion pipe 16 is tangentially formed at each of these insertion holes 24. The notch 26 is formed until now. These cutouts 26 are biased to one side when viewed from the center of the insertion hole 24. The bolt holes 28 are formed at equal intervals between the insertion holes 24.

The second cable insertion pipe 18 has the same shape as the first cable insertion pipe 16, but the cutout portion 26 'extending from the insertion hole 24 to the outer periphery in the tangential direction has the first cable insertion pipe 16. Unlike the cutout portion 26, it is biased to the right when viewed from the center of the insertion hole 24. That is, the second cable insertion pipe 18 has a symmetrical structure with the first cable insertion pipe 16, and when they are combined and combined, the cutouts 26 and 26 'are not aligned to match.

On the other hand, the first cable support 20 and the second cable support 22 made of hard synthetic resin are used to be coupled to both sides of the first and second cable insertion pipe 16, 18, the receiving pipe line 12 The first cable support 20 disposed in the inner side of the cable support 30 is formed in the radial direction and has a semi-circular bottom three U-shaped cable support 30 is inserted into the inner surface of each cable support 30 as a whole The groove 32 is formed. The cable support 30 is coupled to the cable support plug 34 for closing the space left to the outside of the cable support 20 in the state that the cable 14 is mounted on it. The cable support plug 34 has a semicircular portion 36 formed so that an inner surface thereof surrounds the entire peripheral surface of the cable 14 together with a semicircular bottom surface of the cable support 30. The outer surface of the cable support plug 34 is formed on the outer surface of the cable support 20. Has an arc surface coinciding with. Insertion protrusions 38 are formed at both sides of the cable support plug 34 to be coupled to the insertion groove 32 formed at the inner edge when the cable support 30 is inserted into the cable support 30. In addition, the insertion groove 40 is formed to form a circular insertion groove continuous to the cable support plug 34. Each cable support plug 34 is coupled to the three cable support 30.

The first cable support 20 has a bolt hole 42 formed at equal intervals between the cable support 30, and the nut 44 (to the bolt hole 42 at the outer side of the cable support 20). 2) is fixed.

The second cable support 22 is (a) thinner than the first cable support 20, and (b) the nut 44 is fixed to the bolt hole 42 of the first cable support 20. And (c) the same structure as that of the first cable support 20, except that the drain pipe 46 extends to the lower one of the bolt holes 42 of the second cable support 22. Each component in the second cable support 22 is denoted by the same reference numerals for similar or identical parts to the first cable support 20.

The bolts 48 are fastened to the bolt holes 28 and 42 which are aligned when the first and second cable insertion pipes 16 and 18 and the first and second cable supports 20 and 22 are respectively engaged. do. However, the sleeve 50 is inserted into the bolt holes 28 and 42 located at the lower side through the drain pipe 46 of the second cable support 22, and the bolt 48 is fastened under the interposition of the packing 52. . These bolts 48 will be coupled to the nut 44 inserted into the outer surface of the first cable support 20.

Such a receiving pipe end closing device of the first embodiment of the present invention is used as follows.

First, since the three cables 14 accommodated in the receiving conduit 12 extend continuously through the manhole composed of the manhole wall 10, the first and second cables are connected to the cable 14 of the receiving conduit 12. In order to join the supports 20, 22 and the first and second cable insertion pipes 16 and 18, the cable support 30 and the cable insertion hole 24 supported by the cable 14 must be opened. Will do.

In the first cable support 20, each cable support plug 34 is first separated, and the cable support 30 is opened radially. Then, the cable support plug 34 is inserted again. The insertion protrusions 38 on both sides thereof are inserted into the cable support 30 to be inserted into the insertion groove 32 formed in the cable support 30. Subsequently, each cable 14 is inserted into and connected to the first cable insertion pipe 16.

That is, the first cable inserting tube 16 made of elastic rubber borrows the cutouts 26 cut out from the respective inserting holes 24 thereinto the outer circumferential side, so that each cable 14 is inserted into each inserting hole 24. After insertion, the first cable insertion tube 16 is inserted into the receiving tube passage 12 with the cable 14 already in contact with the first cable support 20 inserted into the receiving tube passage 12. .

Next, the second cable insertion pipe 18 is inserted into each of the receiving pipe paths 12 by inserting each cable 14 into each of the insertion pipes 24 in the same manner as the first cable insertion pipe 16. At this time, the cutout portion 26 'of the first cable insertion pipe 16 and the cutout portion 26' of the second cable insertion pipe 18 are placed at different positions.

Subsequently, in a state in which the second cable support 22 has its drain pipe 46 facing the manhole side, the cables 14 are coupled to each other in the same manner as the first cable support 20, so that Insert into the bent end.

In this way, the first cable support 20, the first cable insertion pipe 16, the second cable insertion pipe 18 and the second cable inserted into the inside of the receiving pipe passage 12 in the state that each cable 14 is coupled, and the second The cable support 22 is compressed by fastening the bolts 48 through the aligned bolt holes 42 and 28.

At this time, the sleeve 50 through the drain pipe 46 of the second cable support 22 is inserted into each of the bolt holes 42 and 28 aligned at the bottom, and the bolt 48 is interposed between the packing 52. Inserting and fastening to a nut 44 fixed to the back of the bolt hole 42 formed in the first cable support 20 and inserting a short bolt 48 into the other bolt holes 42 and 28, respectively. To be fastened to the nut 44.

When the bolts 48 are tightened, the elastic rubber material having the first and second cable supports 20 and 22 on both sides made of hard synthetic resin is inserted into the first and second cable insertion pipes 16 and 18. Is squeezed. By crimping the cable inserting pipes 16 and 18, the outer periphery thereof expands and comes into close contact with the inner surface of the receiving pipe passage 12, and the inner periphery of each inserting hole 24 expands toward the cable 14 side. By being in close contact with the outer circumference of each cable 14, the space between the inner surface of the receiving pipe passage 12 and the inner circumferential portion of each cable 14 is closed as a whole.

At this time, the portion of the elastic rubber cable insertion tube 16, 18 is also in close contact with the outer surface of the sleeve 50 inserted into the lower bolt hole 28 and the bolt 48 inserted into the remaining bolt hole 28 It is also in close contact with.

The cutouts 26 and 26 'of the first and second cable insertion pipes 16 and 18 are also in close contact with the compression pressure, and the cutouts 26 and 26' are arranged to be offset from each other so that rainwater or sewage may be caused. Inflow is prevented.

Therefore, the space composed of the inner surface of the receiving pipe passage 12 and the outer peripheral portion of the cable 14 is sealed and the respective configurations are expanded by expansion of each of the first and second cable insertion pipes 16 and 18 in the respective directions. Compression sealing is also performed between the elements to prevent rainwater or sewage from entering.

If for some reason, for example, a part of the receiving pipe passage 12 is broken or a poor installation of the end closure device causes a large amount of rainwater or sewage in the receiving pipe passage 12, the bolt 48 on the lower side is loosened to drain the drain pipe. The drainage may be made through the sleeve 50 inserted into the 46, and then the bolt 48 may be fastened and fixed again.

5 and 6 show another embodiment of the present invention, which utilizes the components of the first embodiment shown in FIGS. 1-4 with a smaller diameter cable than the cable 14 in which this embodiment is used. Not shown).

To this end, as a compensation means for compensating for the diameter reduction portion of the cable in the insertion hole 24 of the first and second cable insertion pipes (16) and (18), it has a thickness corresponding to the diameter reduction amount and the cutout portion (53) Cable diameter compensation pipes 54 of which elastic rubber material is formed are inserted, respectively, and a pair of semi-circular ring portions 56 and 56` is provided at each cable support 30 of the first and second cable supports 20 and 22, respectively. Cable diameter compensation ring 58 composed of a) is inserted.

The pair of semi-circular ring portions 56, 56` constituting the cable diameter compensation ring 58 has a thickness that corresponds to each cable support 30 and is inserted into the insertion grooves 32, 40 at the periphery. Insertion protrusions 60 'are formed.

In the second embodiment shown in FIG. 5, the same parts as in the first embodiment are denoted by the same reference numerals, and the cable diameter compensating ring 58 is shown to be coupled to the first cable support 20 only. It will be appreciated that the cable support 22 is also coupled in the same way.

In this second embodiment, each pair of semi-circular ring portions constituting the cable diameter compensation ring 58 when the cable is inserted into each cable support 30 of the first and second cable supports 20 and 22. 56 and 56 'to insert the insertion protrusions 60 and 60' into the insertion grooves 32 and 40 to support the cables, and to the first and second cable insertion pipes 16 and 18, respectively. When the cable is inserted, the cable diameter compensation pipes 54 are inserted into the inserting holes 28 in the state where the cable diameter compensation pipes 54 are inserted, respectively, and the ends of the receiving pipe paths 12 are closed by fastening with bolts 48.

As such, the present invention effectively closes the space between the outer circumferential surface of the three cables wired in the accommodating pipe path and the inner circumferential surface of the accommodating pipe so that rainwater or sewage does not flow into the accommodating pipe and can be applied to a small diameter cable. .

The present invention has been applied to accommodate three cables, but the present invention can also be applied to accommodate two or four or more cables.

Claims (2)

Three cables 14 are accommodated in the receiving pipe passage 12 embedded in the manhole wall 10, and the first cable support 20 of the hard synthetic resin and the first elastic rubber are contained inside the end side of the receiving pipe passage 12. And the second cable support pipes 16 and 18 and the second cable support 22 of the hard synthetic resin so that the ends of the receiving pipe passages 12 are closed. 20 " 22 " is formed with three " U " shaped cable supports 30 that are open in the radial direction and have a semicircular bottom, and an insertion groove 32 is formed on the inner surface of each cable support 30 as a whole. A semicircular portion 36 having an insertion groove 40 formed on the bottom surface thereof and a cable support plug 34 having insertion protrusions 38 formed on both sides thereof are inserted therebetween, and bolt holes (e.g. 42 is formed, the nut 44 is fixed to the bolt hole 42 in the outer surface of the first cable support 20, the lower side in the second cable support 22 A drain pipe 46 extends to the bolt hole 42, and insertion holes 24 having a diameter equal to the diameter of the cable 14 are disposed at the centers of the first and second cable insertion pipes 16 and 18 at equal intervals. And a bolt hole 28 is formed between the bolt holes 42 of the first and second cable supports 20 and 22, and the insertion hole of the first cable insertion pipe 16 is formed therebetween. A cutout portion 26 extending in the tangential direction to the outer periphery is formed, and the inserting pipe 24 of the second cable inserting pipe 18 has a cutout portion 26 of the first cable inserting pipe 16. A cutout portion 26` is formed in another tangential direction, and the first and second cable insertion pipes 16 and 18 are disposed between the first and second cable support 20 and 22 so that the cable support 20 can be disposed. Each cable 14 is supported on each cable support 30 of the cable 22, and each cable 14 is inserted into each of the insertion holes 24 of the cable insertion pipe 16 and 18. The first and second bolts 48 are inserted into the respective bolt holes 42 and 28. 2. An end closure device for a communication or power cable receiving conduit in which two cable inserting conduits (16) and (18) are compressed to be compressed. The cable diameter compensation ring (58) consisting of semicircular ring portions (56) and (56`) is inserted into each cable support (30) of the cable support (20) and (22). The end of the cable diameter compensation tube 54 having a cutout portion 53 is inserted into each of the insertion holes 24 of the tube 18 so that the cable 14 having a small diameter can be used in the receiving tube passage 12. Closure