JP5805528B2 - Cable spacing device - Google Patents

Description

  The present invention relates to a cable interval holding device that prevents contact between cables by holding two intersecting cables such as a communication cable and a lead-in line in a separated state.

When one communication cable is branched from a plurality of communication cables installed between utility poles and drawn into the house, the other cables installed between the utility poles and the branched service lines cross three-dimensionally. It will be. In recent years, a large number of cables are installed between utility poles, and the cables may come into contact with each other at a portion where the lead-in wire and another cable intersect three-dimensionally.
For example, when the lead-in wire is an optical fiber cable (FTTH lead-in wire), the outer diameter of the FTTH lead-in wire is thin compared to other communication cables and the film is thin. There is a fear.

As invention which solves the said problem, in patent document 1, it describes about the split metal | langer metal which keeps the lead-in line branched from the electric wire main line, the electric wire main line, and the suspension line in the separated state, and prevents a contact. . This segmented hardware is a hardware that is used by being fixed to a hanging line. The lead-in wire is branched from the main wire in the connection terminal box, and then is routed along the suspension line to the segment hardware, and the wiring direction is changed to a substantially L shape in the segment hardware and guided toward the house. .
A mooring portion that locks a lead-in line that is wired along the main line or the suspension line is provided on the upper part of the segment hardware. Moreover, the hook part which latches the lead-in wire wired toward a house is provided under the mooring part. The hook part protrudes toward the house. And a separated metal fitting maintains the space | interval of a lead-in wire, an electric wire main line, etc. using the height difference from a mooring part to a hook part.

JP 2007-089351 A

However, the invention of Patent Document 1 can secure a separation distance from the main line and the suspension line in a portion where the wiring direction of the lead-in line is changed to an L-shape, but the lead-in line intersects with other cables in a cross shape. It does not secure a separation distance from other cables at the site to be used and does not prevent contact.
The present invention has been made in view of the above-mentioned circumstances, and even when the cables cross three-dimensionally in a cross shape, the two cables are kept in a separated state, thereby allowing the cables to contact each other. It is an object of the present invention to provide a cable spacing device that prevents this.

In order to solve the above-mentioned problem, the invention according to claim 1 is a cable interval holding device for holding two intersecting cables in a separated state, and each of the support members for supporting each cable is pivoted. First to fourth interval holding members provided at both ends in the direction, one end of the first interval holding member supporting the first part of one cable, and the other end of the first cable of the other cable A second portion different from the first portion of the other cable is supported by the other end of the second cable. And supporting the second part different from the first part of the one cable by one end of the third spacing member and supporting the first part of the other cable by the other end. , One of the fourth spacing members The one supporting the second part of the cable, characterized in that to support the second portion of the other cable by the other end by.
In the invention of claim 1, the tetrahedron structure having the first portion and the second portion of one cable and the four portions of the first portion and the second portion of the other cable as vertices is provided as an interval holding device. And two cables.

According to a second aspect of the present invention, in the first aspect, the spacing member includes a sleeve having female screw portions in opposite directions at both ends, a bolt that is screwed to each of the female screw portions, and a nut, respectively. The female screw portions, the bolts, and the nuts constitute a length adjusting mechanism that freely adjusts the axial length of the spacing member.
According to the second aspect of the present invention, the length of the spacing member can be adjusted by rotating the sleeve after both ends of the spacing member are attached to each cable.
The invention described in claim 3 is the cable surrounding member that is detachably attached to each cable in claim 1 or 2, and the support member that is provided in the cable surrounding member and supports the spacing member. And.
In the invention of claim 3, since the first member and the second member of the cable are surrounded by the surrounding member so as to prevent the bending deformation, the tetrahedron formed between the gap holding member and the cable is prevented. The deformation of the structure can be prevented.
According to a fourth aspect of the present invention, in the second or third aspect, the sleeve is an insulator.
In the invention of claim 4, since the sleeve is made of an insulator, the two cables can be held in a separated state while ensuring insulation even when the cable is a power line.

  In the present invention, for two intersecting cables, any two portions of each cable are connected to each other by four spacing members, so that the cable portion located between the two portions of each cable and the four spaces are connected. A tetrahedral structure is formed between the holding member and the holding member. The tetrahedral structure is a structure that is resistant to deformation such as twisting and tilting, and the two cables can be held apart by the spacing member according to the present invention. Therefore, contact between the cables can be prevented, and damage to the cables can be prevented.

It is a perspective view which shows the use condition of the cable space | interval holding | maintenance apparatus which concerns on 1st embodiment of this invention. (A), (b) is the schematic which shows the length adjustment mechanism of a cable space | interval holding | maintenance apparatus. It is an enlarged view of a support member part. (A), (b) is a figure which shows the other example of a connection of a space | interval holding member and a cable. It is a figure which shows the principal part of the cable space | interval holding | maintenance apparatus which concerns on 2nd embodiment of this invention, (a) is a perspective view of a cable surrounding member, (b) is BB sectional drawing of a cable surrounding member. is there.

[First embodiment]
A cable spacing device according to a first embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG. 1 is a perspective view showing a use state of the cable spacing device according to the first embodiment of the present invention. 2A and 2B are schematic views showing a length adjusting mechanism of the cable spacing holding device. In the cable spacing device according to the present embodiment, any two portions of each cable are connected to each other by four spacing members, so that the cable portion between the two portions of each cable and the spacing member are connected. This is characterized in that a tetrahedral structure is formed to hold the two cables apart.
A cable interval holding device 1 according to the present invention (hereinafter simply referred to as “interval holding device 1”) is an apparatus that holds two intersecting cables 100 in a separated state, and is used by being attached to the cable 100. .

In FIG. 1, one of the two cables 100 to which the spacing device 1 is attached is an FTTH lead-in wire 101 (hereinafter simply referred to as “lead-in wire 101”) branched from the communication cable and drawn into the home. Is another communication cable (communication line 102) bridged between utility poles. The lead-in line 101 and the communication line 102 are arranged in a state of intersecting three-dimensionally. In other words, the two cables cross each other, but have a twisted positional relationship because the overhead wire position (height) is different.
In the following description, when the lead-in line 101 and the communication line 102 are not particularly distinguished, they are simply expressed as the cable 100.
The spacing device 1 includes four shaft-shaped spacing members 11 (11-1 to 11-4). Each spacing member 11 has the same configuration, and is provided with a length adjusting mechanism 13 that freely adjusts the axial length of the spacing member 11 at an axial intermediate portion (see FIG. 2), and supporting members at both axial ends. 27.

The length adjustment mechanism will be described with reference to FIG. (A) is a figure which shows the state by which the axial direction length was fixed, (b) is a figure which shows the state which can change axial direction length freely.
The length adjusting mechanism 13 is screwed to the sleeve 15 having the female screw portions 17 (17a, 17b) at both ends in the axial direction, the eye bolt 19 screwed to the female screw portions 17a, 17b, and the eye bolt 19. And a fixing nut 25 that allows or prohibits relative rotation of the eyebolt 19 with respect to the sleeve 15.
The sleeve 15 has a hardness that allows the lead-in wire 101 and the communication wire 102 to be held apart. The female screw portions 17b and 17b formed at both ends of the sleeve 15 are screws in opposite directions.
The eyebolt 19 includes a bolt portion 21 in which a male screw that is screwed to each of the female screw portions 17 a and 17 b is formed, and a ring portion 23 that is fixed to one end (rear end) of the bolt portion 21. The ring part 23 is connected to a shackle 29 described later.

The fixing nut 25 is disposed between the ring portion 23 and the sleeve 15. By rotating and moving the fixing nut 25 until it closely contacts the sleeve 15, the eyebolt 19 can be prevented from rotating relative to the sleeve 15, and the eyebolt 19 can be fixed to the sleeve 15 (the state shown in (a)). ).
Since the female screw portions 17a and 17b are screws in opposite directions to each other, as shown in (b), the fixing nut 25 is loosened and only the sleeve 15 is fixed with both eyebolts 19 fixed so as not to rotate. When rotated in the direction of arrow A, the two eyebolts 19 can be moved forward and backward in the axial direction. That is, the length adjustment mechanism 13 can freely change the axial length of the spacing member 11.
In addition, as a length adjustment mechanism, not only the structure which has the volt | bolt and sleeve which are shown in figure but the turnbuckle known as a member which adjusts an axial direction length from old times can also be utilized.

The support member 27 will be described with reference to FIG. FIG. 3 is an enlarged view of the support member portion. The support member 27 includes a shackle 29 and a binding band 37. Further, the ring portion 23 of the eyebolt 19 also constitutes a part of the support member 27.
The shackle 29 includes a U-shaped shackle main body 31 having bolt insertion holes 33 penetratingly formed at both ends, and pin bolts 35 inserted across the two bolt insertion holes 33. A female screw portion is formed in at least one of the bolt insertion holes 33, and a male screw that is screwed into the female screw portion of the bolt insertion hole 33 is formed in the pin bolt 35. The pin bolt 35 is screwed into the bolt insertion hole 33 in a state where the ring portion 23 of the two length adjusting mechanisms 13 is inserted.
The ring portion 23 and the shackle 29 may be configured so as not to move relative to each other, or may be configured to move relative to each other.
The shackle body 31 and the cable 100 are fixed by a binding band 37.

A method of using the interval holding device according to this embodiment will be described. The overall configuration will be described with reference to FIG. 1, and the detailed configuration of each unit will be described with reference to FIG. 2 or FIG.
As shown in FIG. 1, the spacing device 1 includes four spacing members 11-1 to 11-4. In addition, since each space | interval holding member has the same structure as above-mentioned, the same code | symbol is attached | subjected and demonstrated to the same part.
First, pin bolts 35 are attached to both the ring portion 23 on the one end portion 11-1a side of the first spacing member 11-1 and the ring portion 23 on the one end portion 11-2a side of the second spacing member 11-2. The pin bolt 35 is screwed into the bolt insertion hole 33 through insertion. Next, the shackle body 31 is fixed to the first portion 101 a of the lead-in wire 101 by the binding band 37. In this manner, the one end portion 11-1a of the first spacing member 11-1 and the one end portion 11-2a of the second spacing member 11-2 are fixed to the first portion 101a of the lead-in wire 101.

Thereafter, the same procedure is used to fix the one end 11-3a of the third spacing member 11-3 and the one end 11-4a of the fourth spacing member 11-4 to the second portion 101b of the lead-in wire 101. . Subsequently, the other end portion 11-1 b of the first interval holding member 11-1 and the other end portion 11-3 b of the third interval holding member 11-3 are fixed to the first portion 102 a of the communication line 102. Further, the other end portion 11-2b of the second spacing member 11-2 and the other end portion 11-4b of the fourth spacing member 11-4 are fixed to the second portion 102b of the communication line 102.
Finally, the axial length of each spacing member 11-1 to 11-4 is adjusted by rotating the sleeve 15 of each spacing member 11-1 to 11-4, and each fixing nut 25 is tightened. Finish the work.

  By doing in the above way, the 1st part 101a of one cable (leading wire 101) is supported by one end (one end 11-1a) of the 1st interval maintenance member 11-1, and the other end (the other end) 11-1b) supports the first portion 102a of the other cable (communication line 102), and one end (one end portion 11-2a) of the second spacing member 11-2 has one cable (lead wire 101). The first part 101a is supported, the other part (the other end 11-2b) supports the second part 102b different from the first part 102a of the other cable (communication line 102), and the third interval One end (one end portion 11-3a) of the holding member 11-3 supports a second portion 101b different from the first portion 101a of one cable (lead wire 101), and the other end (the other end portion 11-3b). By the other cable (communication line 02), the second portion 101b of one cable (lead-in wire 101) is supported by one end (one end portion 11-4a) of the fourth spacing member 11-4, and the other end. The second portion 102b of the other cable (communication line 102) can be supported by the (other end portion 11-4b).

In the present embodiment, the two spacing members 11 are collectively supported by the binding band 37 to support one part (first part or second part) of the cable 100. If it is the structure which substantially supports one site | part of the cable 100 with the two space | interval holding members 11, the two space | interval holding members 11 may be fixed to the cable 100 separately.
The present invention can be applied to any type of cable as long as the two cables cross each other. Of course, at least one of the cables may be a power line.
If at least one of the two cables is a power line, in order to prevent the voltage of the power line from being applied to the other cable, at least a part of the spacing member 11 is made of an insulator.
In the present embodiment, for example, by forming the sleeve 15 from a hard PVC pipe that is an insulator, insulation between the cables can be ensured. Of course, the other part of the spacing device may be made of an insulator to ensure insulation between the cables.

  As described above, in the present invention, with respect to two intersecting cables, any two portions of each cable are connected to each other by the four spacing members, so that the cable portion located between the two portions of each cable. And a tetrahedral structure are formed between the four spacing members. This tetrahedron structure has a total of four parts, the first part and the second part of each cable, as vertices. The tetrahedral structure is a structure that is resistant to deformation such as twisting and tilting, and the two cables can be held apart by the spacing member according to the present invention. Therefore, contact between the cables can be prevented, and damage to the cables can be prevented.

[Modified Embodiment]
A modified embodiment of the support member portion of the present invention will be described with reference to FIG. 4A and 4B are diagrams showing another example of connection between the spacing member and the cable. The connection between the cable and the spacing member in the support member portion is not limited to the above-described embodiment, and can be implemented by being modified into various forms.
The support member 41 shown to Fig.4 (a) becomes a structure which abbreviate | omitted the shackle 29 currently used in the support member 27 (refer FIG. 3) which concerns on 1st embodiment. That is, in the case of the support member 41, the ring portions 23 of the two eyebolts 19 are directly fixed to the cable 100 using the binding band 37.
4B includes a band 45 wound around the cable 100, an eyebolt 47 for fastening the band 45 to the cable 100, and a carabiner inserted through the ring portion 49 of the eyebolt 47. 51 (locking member). As the band 45 and the eyebolt 47, a well-known hose band can be used. By rotating the eyebolt 47, the circumference of the band 45 is freely changed, and the band 45 is fixed to the cable 100. Further, instead of the carabiner 51, an eggplant or a hook may be used.
As described above, the present embodiment can provide the same effects as those of the first embodiment.

[Second Embodiment]
An interval holding device according to a second embodiment of the present invention will be described with reference to FIG. FIGS. 5A and 5B are views showing the main part of the cable spacing device according to the second embodiment of the present invention, wherein FIG. 5A is a perspective view of the cable surrounding member, and FIG. It is B sectional drawing. In the present embodiment, the cable is surrounded by a cable surrounding member between the first part and the second part, which are arbitrary two points of the cable, and deformation of this part is prevented, and the tetrahedral structure is formed by the spacing member. The feature is that it is easy to maintain. The same members as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
The spacing device 2 includes a cable surrounding member 61 that is detachably attached to each cable 100 and a support member 75 that is provided on the cable surrounding member 61 and supports the spacing member 11. A cover 60 is provided.
The cable surrounding member 61 is a cylindrical body having a hollow portion that accommodates a part of the cable 100 therein, and a linear cable attaching / detaching slit 63 extending in the axial direction is formed on the peripheral surface of the cable surrounding member 61. Is formed. The cable surrounding member 61 is a member that holds the cable 100 in a straight line shape, and uses a hard material that can prevent the cable 100 from being bent.

As the cable surrounding member 61, the one made of hard vinyl chloride can be used like the sleeve 15. By using an insulator, when the cables 100 are power lines, insulation between the cables 100 can be ensured. In addition, when the cable surrounding member 61 is made of an insulator, a conductor may be used for the spacing member 11.
The surrounding member fixing member 65 is a member that is disposed at both ends of the cable surrounding member 61 in the axial direction, and tightly fixes the cable surrounding member 61 to the cable 100. The surrounding member fixing member 65 includes a protruding piece 67 that is formed to protrude from the edge of the opposing slit 63 toward the radial direction of the cable surrounding member 61, a bolt insertion hole 69 that is formed to penetrate each protruding piece 67, and A bolt 71 inserted across two opposing bolt insertion holes 69 and a nut 73 screwed onto the bolt 71 are provided.
The support members 75 are arranged at both ends in the axial direction of the cable surrounding member 61 and are formed to protrude in the radial direction. A locking hole 75a is formed through the support member 75. The shackle body 31 (locking member) of the spacing member 11 is locked in the locked hole 75a. In the present embodiment, the cable surrounding member 61, the surrounding member fixing member 65, the support member 75, the shackle 29, and the ring portion 23 function as support members.
Of course, as shown in FIG. 4A, the support member 75 and the ring portion 23 may be connected by a binding band 37. Or you may connect the supporting member 75 and the ring part 23 by locking members, such as the carabiner 51, as shown in FIG.4 (b).

A method of using the interval holding device according to this embodiment will be described.
The interval holding device 2 according to the present embodiment includes two cable covers 60 and four interval holding members 11 (11-1 to 11-4). Before attaching the spacing member 11, the cable cover 60 is attached to each cable 100 (the lead-in wire 101 and the communication wire 102: see FIG. 1).
First, the bolt 71 and the nut 73 are removed from the surrounding member fixing member 65. Next, the cable 100 is inserted into the cable surrounding member 61 from the slit 63. When the cable 100 is surrounded by the cable surrounding member 61 and the bolts 71 of the two surrounding member fixing members 65 are rotated in the tightening direction to bring the two protruding pieces 67 close to each other, the cable surrounding member 61 Both ends are in close contact with the cable 100, and the cable 100 is fixed.
In this state, the four spacing members 11 (11-1 to 11-4) are attached in the same procedure as in the first embodiment. In the present embodiment, the portions of the cable 100 surrounded by the portion of the cable surrounding member 61 at the axial position where the support member 75 is disposed are the first portion 100a and the second portion 100b, respectively. Both the first part 100 a and the second part 100 b are supported by the spacing member 11 via the support member 75.

As described above, according to the present embodiment, the cable is surrounded by the hard cable enclosing member, and the first portion and the second portion of the cable are held in a linear shape, and deformation thereof is prevented. The deformation of the tetrahedron structure constituted by the cable and the spacing member can be prevented, and the two cables can be held in a separated state.
As mentioned above, although the space | interval holding | maintenance apparatus based on this invention was demonstrated based on each embodiment, this invention is not limited to the above-mentioned embodiment, It can change and implement in various forms.

  1, 2 ... (cable) interval holding device, 11, 11-1, 11-2, 11-3, 11-4 ... interval holding member, 11-1a, 11-2a, 11-3a, 11-4a ... one end 11-1b, 11-2b, 11-3b, 11-4b ... the other end, 13 ... length adjusting mechanism, 15 ... sleeve, 17 ... female screw part, 19 ... eye bolt, 21 ... bolt part, 23 ... Ring part, 25 ... fixing nut, 27 ... support member, 29 ... shackle body, 31 ... shackle body, 33 ... bolt insertion hole, 35 ... pin bolt, 37 ... binding band, 41, 43 ... support member, 45 ... band, 47 ... Eye bolt, 49 ... ring part, 51 ... carabiner, 60 ... cable cover, 61 ... cable surrounding member, 63 ... slit, 65 ... surrounding member fixing member, 67 ... projecting piece, 69 ... bolt insertion hole, 71 ... bolt, 73 ... Na 75 ... support member, 75a ... locked hole, 100 ... cable, 101 ... (FTTH) lead-in wire, 102 ... communication line, 100a, 101a, 102a ... first part, 100b, 101b, 102b ... second Part

Claims (4)

A cable spacing device that holds two intersecting cables apart from each other,
Comprising first to fourth spacing members provided at both ends in the axial direction with supporting members for supporting each of the cables;
Supporting the first part of one cable by one end of the first spacing member, and supporting the first part of the other cable by the other end,
The first part of the one cable is supported by one end of the second spacing member, and the second part different from the first part of the other cable is supported by the other end,
Supporting a second part different from the first part of the one cable by one end of the third spacing member, and supporting the first part of the other cable by the other end,
The cable interval holding device, wherein the second portion of the one cable is supported by one end of the fourth interval holding member, and the second portion of the other cable is supported by the other end.   The spacing member includes a sleeve having female screw portions in opposite directions at both ends, bolts and nuts screwed to the female screw portions, and the female screw portions, the bolts, and the nuts. The cable interval holding device according to claim 1, wherein a length adjusting mechanism that freely adjusts an axial length of the interval holding member is configured.   The cable enclosing member detachably attached to each of the cables, and a support member that is provided on the cable enclosing member and supports the interval holding member. The cable spacing device described.   The cable spacing device according to claim 2 or 3, wherein the sleeve is an insulator.

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