KR102356110B1 - Optical Cable Support Device - Google Patents

Abstract

The present invention relates to a communication optical cable support device used to support an optical cable installed in an underground communication pipe. The present invention secures a band binding space (AS) between a rear coupling part (52) and a horizontal channel (30) by separating the rear coupling part (52) from the horizontal channel (30). Accordingly, it is possible to prevent a hanger pin from being separated from the horizontal channel.

Description

Optical cable support device for communication {Optical Cable Support Device}

The present invention relates to an optical cable supporting device for communication used to support an optical cable to be installed in an underground communication pipe.

An optical cable is an optical signal transmission medium made of fiber made of glass or plastic material, and is composed of a core, a clad, and a jacket with a cylindrical cross-section.

The core is an optical fiber made of very thin glass or plastic, and the clad is composed of a reinforcing fiber such as kevlar that wraps around the optical fiber, and the clad receives the strong tensile force applied to the optical cable to protect the inner core. The jacket is the outermost layer around the optical fiber bundle and is made of a material such as plastic to protect the optical cable from moisture, abrasion, breakage, etc.

Optical cables transmit light rays made of signals using internal reflection. Compared to other electrically conductive transmission media such as copper wires, the bandwidth is wide, so the data transmission speed is very fast, and the size and weight of the communication line are greatly reduced. Because it transmits signals in the form of light, it is not affected by electrical noise, so it is widely used in short-distance and wide area networks, long-distance communication, military use, and subscriber lines.

These optical cables are mainly installed using pipelines that are buried underground, but since the optical cables are not fixed inside the pipelines, they are very vulnerable to earthquakes or external shocks, and maintenance and repair are inconvenient.

Domestic Registered Patent Publication No. 10-0408134 (date of publication 2003.12.03.) Domestic Patent Publication No. 10-0388855 (published on June 25, 2003) Domestic Registered Patent Publication No. 10-1090977 (published on December 8, 2011) Domestic Registered Patent Publication No. 10-1016054 (published on February 23, 2011) Domestic Patent Publication No. 10-1565933 (published on November 4, 2015)

The present invention has been made to solve the above problems, and an object of the present invention is to provide an optical cable support device for communication capable of stably supporting an optical cable installed in a communication pipe.

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The optical cable support device for communication for achieving the object of the present invention includes: a horizontal channel having wings installed on the inner wall of the communication pipe formed at upper and lower edges, and spaced apart from the inner wall of the communication pipe; Long holes formed in series at regular intervals along the longitudinal direction of the horizontal channel; arc-shaped notch formed in the upper and lower parts of the center of the long hole; Bracket for supporting the fiber optic cable; a front coupling part and a rear coupling part bent upward from the front and rear edges of the bracket and coupled to the front and rear surfaces of the optical cable support; a pair of clevises bent downward from the left and right edges of the bracket and having pinholes congruent with the arcuate notch; a pair of hanger pins inserted in parallel into the pin holes, and supported by inserting the tip end into an arc-shaped notch; a locking projection formed on the outer peripheral surface of the tip of the hanger pin, passing through the long hole, and caught on the rear surface of the horizontal channel by the rotation of the hanger pin; a head portion formed at the rear end of each of the hanger pins and having a square groove formed in the center; Straight grooves that pass through the center of the square grooves located on both sides in a straight line, formed in the head; a wire insertion hole formed in the head portion to alternately cross the straight groove; Wire latch that is inserted into straight grooves arranged in a straight line; an open-loop-shaped direction change bend formed at both ends of the wire latch; In comprising a wire latch that is formed in parallel with each other toward the upper side at the end of the direction change bending part and is inserted into the wire insertion hole,
The rear coupling portion is spaced apart from the horizontal channel to secure a band binding space between the rear coupling portion and the horizontal channel.

The present invention is a horizontal channel formed on the upper and lower edges of the wings installed on the inner wall of the communication conduit, and spaced apart from the inner wall of the communication conduit; Long holes formed in series at regular intervals along the longitudinal direction of the horizontal channel; arc-shaped notch formed in the upper and lower parts of the center of the long hole; Bracket for supporting the fiber optic cable; a front coupling part and a rear coupling part bent upward from the front and rear edges of the bracket and coupled to the front and rear surfaces of the optical cable support; a pair of clevises bent downward from the left and right edges of the bracket and having pinholes congruent with the arcuate notch; a pair of hanger pins inserted in parallel into the pin holes, and supported by inserting the tip end into an arc-shaped notch; a locking projection formed on the outer peripheral surface of the tip of the hanger pin, passing through the long hole, and caught on the rear surface of the horizontal channel by the rotation of the hanger pin; a head portion formed at the rear end of each of the hanger pins and having a square groove formed in the center; Straight grooves that pass through the center of the square grooves located on both sides in a straight line, formed in the head; a wire insertion hole formed in the head portion to alternately cross the straight groove; Wire latch that is inserted into straight grooves arranged in a straight line; an open-loop-shaped direction change bend formed at both ends of the wire latch; In comprising a wire latch that is formed in parallel with each other toward the upper side at the end of the direction change bending part and is inserted into the wire insertion hole,
a bonding groove formed with a constant width in the center of the front end surface of the hanger pin; It is inserted into the joint groove and welded, and it has a feature including a welding bar protruding in a radial direction from the outer circumferential surface of the hanger pin to form locking protrusions at both ends.

In the present invention as described above, when the wire latch 70 is hung on the straight groove 64 formed in the head part 63 located on both sides in a state in which the locking projection 61 is caught on the rear surface of the horizontal channel 30, the hanger Since the rotation of the pin 60 can be stopped, there is an effect that can prevent the hanger pin 60 from being separated from the horizontal channel 30 .

Since it is configured to insert the wire latch 72 into the wire insertion hole 65 formed in the head portion 63 , there is an effect of preventing the wire latch 70 from being separated from the straight groove 64 .

Since the welding bar 67 is welded to the joint groove 66 formed at the tip of the hanger pin 60, the hanger pin 60 can be inserted into the pin hole 54 formed in the clevis 53, , when the welding bar 67 is welded to the joint groove 66 in a state in which the hanger pin 60 is inserted into the pin hole 54 , it is possible to prevent the hanger pin 60 from being separated from the clevis 53 . .

Furthermore, the present invention binds the optical cable 21 and the optical cable support 40 together using a wire such as a binding band by the band binding space AS formed between the horizontal channel 30 and the rear coupling part 52. There is the convenience of being able to bind.

1 is a perspective view according to the present invention;
Figure 2 is a bottom perspective view of Figure 1;
Figure 3 is an exploded perspective view showing the optical cable support, bracket and hanger pins according to the present invention;
4 is an exploded perspective view showing an optical cable support according to the present invention;
5 is an exploded perspective view showing a hanger pin according to the present invention;
Figure 6 is a rear side separated perspective view showing the assembly of the optical cable support to the horizontal channel by the hanger pins according to the present invention
7 is an exploded perspective view of FIG. 6 viewed from the lower front;
8 is a perspective view showing a 90 degree rotation of the hanger pin according to the present invention;
9 is an exploded perspective view showing the insertion of a wire latch into the wire insertion hole according to the present invention;
10 is a front view showing that the wire latch according to the present invention is caught in a straight groove;
11 is a rear view of FIG.
12 is a side view according to the present invention;
13 is a cross-sectional view taken along line A-A' of FIG. 10;
14 is a bottom view according to the present invention;

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in the accompanying drawings 1 to 14, in the present invention, the wing part 31 installed on the inner wall of the communication conduit 20 is formed at the upper and lower edges, and the communication conduit 20 is spaced apart from the inner wall of the horizontal channel 30 ); Long holes 32 formed in series at regular intervals along the longitudinal direction of the horizontal channel 30; It includes an arc-shaped notch 33 formed in the upper and lower parts of the center of the long hole (32).

The horizontal channel 30 and the wing part 31 can be formed by bending using a steel plate having a certain thickness as a material, and the long hole 32 is formed in the horizontal direction, which is the longitudinal direction of the horizontal channel 30, The arc-shaped notch 33 located at the upper and lower parts is formed to have the same inner diameter and center as each other, and is formed to have an inner diameter corresponding to the outer diameter of the hanger pin 60 below.

12 and 14, the wing part 31 formed in the horizontal channel 30 is brought into close contact with the inner wall of the communication pipe 20, and then the communication pipe is passed through the anchor hole 34 formed in the wing part 31. (20) The horizontal channel 30 can be fixed by driving the anchor 22 into the inner wall.

The present invention is a bracket 50 for supporting the optical cable support (40); A front coupling part 51 and a rear coupling part 52 bent upward from the front and rear edges of the bracket 50 and coupled to the front and rear surfaces of the optical cable support 40; It includes a pair of clevis (53) bent downward from the left and right edges of the bracket (50) and having a pin hole (54) coincident with the arc-shaped notch (33) in the center.

As shown in FIG. 4, a concave cable support surface 48 in a semi-circular shape for supporting the lower portion of the optical cable 21 is formed on the upper portion of the optical cable support 40, and the optical cable support 40 is cross-sectioned by extrusion molding. It can be formed by molding so that the shape is continuous in the longitudinal direction and then cutting it.

The inside of the optical cable support 40 may form a plurality of hollow holes 44 for weight reduction, and a plurality of reinforcing ribs 45 having a certain thickness to reinforce the inside of the hollow hole 44 are provided for the optical cable support. (40) can be formed in the interior.

An end cap 41 is installed at both ends of the optical cable support 40 to close the hollow hole 44, and a plurality of protrusions 46 inserted into the hollow hole 44 are formed in the end cap 41, A semicircular cutting part 47 having the same radius of curvature as the cable support surface 48 formed on the optical cable support 40 is formed on the upper portion of the end cap 41 .

4 and 13, on the front and rear surfaces of the optical cable support 40 in close contact with the front coupling part 51 and the rear coupling part 52, the thickness of the front coupling part 51 and the rear coupling part 52 It can be configured so that the front and rear surfaces of the front coupling part 51 and the rear coupling part 52 and the front and rear surfaces of the optical cable support 40 are on the same plane by forming the step sill 42 formed to the same depth as .

3 and 13, each fastening hole in the front coupling part 51 and the rear coupling part 52 to fix the front coupling part 51 and the rear coupling part 52 to the optical cable support 40 as shown in FIGS. (55) is drilled, a tap hole (43) having a center coincident with the fastening hole (55) is formed in the front and rear surfaces of the optical cable support (40), and then the fastening bolt (56) is inserted through the fastening hole (55) After being coupled to the tap hole 43, the front coupling part 51 and the rear coupling part 52 are coupled to the front and rear surfaces of the optical cable support (40).

The bracket 50, the front coupling part 51, the rear coupling part 52, and the clevis 53 can all be integrally formed using a steel plate having a certain thickness, and the clevis 53 is the Korean letter "c". The pin holes 54, which are bent in a "shape" and punched in the clevis 53, are formed side by side in the front and rear horizontal directions.

The present invention is a pair of hanger pins (60) inserted in parallel to each of the pinholes 54, the tip end is inserted into the arc-shaped notch 33 is supported; It is formed on the outer peripheral surface of the front end of the hanger pin 60 and passes through the long hole 32 , and includes a locking protrusion 61 caught on the rear surface of the horizontal channel 30 by the rotation of the hanger pin 60 .

The hanger pin 60 and the following head part 63 may be integrally formed by turning using a metal round bar, and the locking protrusion 61 protrudes from the outer peripheral surface of the front end of the hanger pin 60 in a radial direction. can be formed.

6 and 7, by rotating the hanger pins 60 on both sides to horizontally position the locking projections 61, the locking projections 61 can be entered into the long holes 32 formed in the horizontal channel 30. In addition, when the hanger pin 60 is rotated 90 degrees as shown in FIGS. 8 and 9 after the locking protrusion 61 enters the long hole 32, the locking protrusion 61 is horizontally channeled as shown in FIG. (30) is caught on the back side, the hanger pin (60) is in a state that cannot be separated from the horizontal channel (30).

The present invention is respectively formed on the rear end of the hanger pin 60, the head portion 63 is formed with a square groove 62 in the center; Straight grooves 64 that pass through the center of the square grooves 62 located on both sides in a straight line, and are formed in the head portion 63; It includes a wire insertion hole 65 formed in the head portion 63 so as to cross the straight groove 64 alternately.

The outer diameter of the head portion 63 is formed to be larger than the outer diameter of the hanger pin 60 to prevent the hanger pin 60 from being separated from the clevis 53 . That is, since the head part 63 and the locking protrusion 61 are respectively hung on the front and rear surfaces of the clevis 53 , the hanger pin 60 cannot be separated from the clevis 53 .

The square groove 62 formed in the center of the head part 63 is formed as a regular hexagonal groove having a certain depth in the axial direction from the center of the head part 63, and a fastening tool such as an Allen-wrench is attached to the square groove ( 62) to be able to rotate the head part 63 and the hanger pin 60.

Since the wire latch 72 inserted into the wire insertion hole 65 and the wire latch 70 caught in the straight groove 64 cross each other alternately when viewed from the front as shown in FIG. 10, the hanger pin 60 Of course, to stop the rotation of the hanger pin 60 is prevented from being separated from the horizontal channel (30).

The present invention is a wire latch (70) hooked into a straight groove (64) aligned in a straight line; an open-loop type direction change bending portion 71 formed at both ends of the wire latch 70; It includes a wire latch 72 that is formed in parallel with each other toward the upper side at the end of the direction change bending portion 71, and is inserted into the wire insertion hole (65).

The wire latch 70, the direction change bending part 71, and the wire latch 72 can all be integrally formed by bending using a spring steel wire.

9, while inserting the wire latches 72 into the wire insertion holes 65 of both head parts 63 in a state in which the wire insertion holes 65 formed in the head parts 63 are positioned vertically, respectively. After elastically deforming the direction change bending part 71 by pulling the wire latch 70, if the wire latch 72 is continuously pushed into the wire insertion hole 65, the wire latch 70 coincides with the straight groove 64. At the moment when the direction change is made, the wire latch 70 is inserted into the straight groove 64 and caught by the elastic restoring force of the bending part 71 .

In this way, the wire latch 72 is inserted into the wire insertion hole 65, and the wire latch 70 is fitted and hung in both straight grooves 64 positioned in a straight line, so the head part 63 and the hanger pins 60 ) is stopped, and the wire latch 72 can be prevented from being separated from the head part 63 by the engaging action of the wire latch 70 .

The present invention can secure the band binding space (AS) between the rear coupling portion 52 and the horizontal channel 30 by separating the rear coupling portion 52 from the horizontal channel (30).

The optical cable 21 may be bound together with the optical cable support 40 by a binding band (not shown), at this time between the rear coupling part 52 and the horizontal channel 30 as shown in FIGS. 13 and 14 . When the binding band passes through the band binding space (AS) formed in the , it is possible to bind the optical cable 21 and the optical cable support 40 together.

The present invention provides a bonding groove 66 formed in the center of the front end surface of the hanger pin 60 with a constant width; It is inserted into the joint groove 66 to be welded, and includes a welding bar 67 protruding from the outer peripheral surface of the hanger pin 60 in the radial direction to form the locking protrusions 61 at both ends.

The reason why the welding bar 67 is configured to be welded to the joint groove 66 formed at the tip of the hanger pin 60 is that the hanger pin 60 ) is inserted into the pin hole 54, the locking protrusion 61 is caught in the pin hole 54, and there is a problem that assembly becomes impossible. This is to solve this problem. 54) and then welding the welding bar 67 to the joint groove 66 of the hanger pin 60 protruding to the rear, and the welding bar 67 welded to the hanger pin 60 is a hanger pin It is also possible to prevent the hanger pin 60 from being separated from the pin hole 54 by forming the locking projection 61 protruding in the radial direction from the outer peripheral surface of the (60).

As shown in Fig. 5, the welding method for joining the welding bar 67 to the bonding groove 66 is, for example, by inserting the welding bar 67 coated with flux on the bonding surface into the bonding groove 66 and then heating it. A brazing welding method in which a filler is penetrated into the joint surface by means of a welding method can be used.

The process of assembling the optical cable support 40 to the horizontal channel 30 installed on the inner wall of the communication conduit 20 is to rotate the hanger pins 60 located on both sides as shown in the accompanying drawings 6 and 7, respectively. When the locking protrusion 61 enters the long hole 32 formed in the horizontal channel 30 in a state where the locking protrusion 61 is horizontal, the tip of the hanger pin 60 has an arc shape formed inside the long hole 32 . It passes through the notch 33 and the locking projection 61 passes through the long hole 32 .

As shown in FIGS. 8 and 9, when the hanger pins 60 on both sides are rotated by 90 degrees while the clevis 53 is in close contact with the horizontal channel 30, as shown in FIG. 11, the locking protrusions 61 ) is caught on the rear surface of the horizontal channel 30 while forming a cross shape with the long hole 32 , and the hanger pin 60 cannot be separated from the horizontal channel 30 .

Thereafter, as shown in FIG. 9 to maintain the hung state of the hanger pins 60, the wire latches 72 are respectively inserted into the wire insertion holes 65 formed in the head parts 63 on both sides while the wire latches 70 are closed. When the wire latch 70 is pulled forward when approaching the head part 63, the direction change bending part 71 causes tangible deformation.

At this time, if the wire latch 72 is continuously inserted into the wire insertion hole 65 while the wire latch 70 is in contact with the front surface of the head part 63 , the wire latch is inserted into the straight groove 64 formed in the head part 63 . The wire latch 70 is caught while being inserted into the straight groove 64 by the elastic restoring force of the direction change bending portion 71 at the moment 70 coincides.

Since the wire latch 70 is caught in a straight line on the straight grooves 64 of both head parts 63, the head part 63 and the hanger pin 60 maintain a stationary state that cannot be rotated, and the wire latch ( 72) is inserted into the wire insertion hole 65, it is also possible to prevent the wire latch 70 from being separated from the head portion (63).

After that, when the optical cable 21 is placed on the cable support surface 48 formed on the optical cable support 40 and the optical cable 21 and the optical cable support 40 are bundled and bound using a binding band, the optical cable installed in the communication pipe 20 ( 21) can be stably supported.

20: communication pipe 21: optical cable
22: anchor 30: horizontal channel
31: wing part 32: long hole
33: arc-shaped notch 34: anchor hole
40: optical cable support 41: end cap
42: stair step 43: tap hole
44: hollow hole 45: reinforcement meat
46: protrusion 47: semi-circular cutting part
48: cable support surface 50: bracket
51: front coupling part 52: rear coupling part
53: clevis 54: pin hole
55: fastening hole 56: fastening bolt
60: hanger pin 61: locking projection
62: square groove 63: head part
64: straight groove 65: wire insertion hole
66: joint groove 67: welding bar
70: wire latch 71: direction change bending part
72: wire latch AS: band binding space

Claims (3)

delete a horizontal channel 30 having wings 31 installed on the inner wall of the communication conduit 20 formed at upper and lower edges, and spaced apart from the inner wall of the communication conduit 20;
Long holes (32) formed in series at regular intervals along the longitudinal direction of the horizontal channel (30);
an arc-shaped notch 33 formed in the upper and lower portions of the center of the long hole 32;
Bracket 50 for supporting the optical cable support (40);
a front coupling part 51 and a rear coupling part 52 bent upward from the front and rear edges of the bracket 50 and coupled to the front and rear surfaces of the optical cable support 40;
a pair of clevis (53) bent downward from the left and right edges of the bracket (50) and having a pin hole (54) coincident with the arc-shaped notch (33);
a pair of hanger pins (60) inserted in parallel into the pin holes (54), and supported by being inserted into the arc-shaped notch (33) at their distal ends;
a locking projection 61 formed on the outer peripheral surface of the front end of the hanger pin 60, passing through the long hole 32, and caught on the rear surface of the horizontal channel 30 by rotation of the hanger pin 60;
a head portion 63 formed at the rear end of the hanger pin 60 and having a square groove 62 in the center thereof;
a straight groove (64) passing through the center of the square groove (62) located on both sides in a straight line and formed in the head part (63);
a wire insertion hole (65) formed in the head part (63) to alternately cross the straight groove (64);
a wire latch 70 hooked into the straight groove 64 aligned in a straight line;
an open-loop-shaped direction-changing bent portion 71 formed at both ends of the wire latch 70;
a wire latch 72 formed parallel to each other toward the upper side from the end of the direction change bending part 71 and inserted into the wire insertion hole 65;
In the optical cable support device for communication comprising a,

Optical cable support for communication, characterized in that the rear coupling part 52 is spaced apart from the horizontal channel 30 to secure a band binding space (AS) between the rear coupling part 52 and the horizontal channel 30 Device. a horizontal channel 30 having wings 31 installed on the inner wall of the communication conduit 20 formed at upper and lower edges, and spaced apart from the inner wall of the communication conduit 20;
Long holes (32) formed in series at regular intervals along the longitudinal direction of the horizontal channel (30);
an arc-shaped notch 33 formed in the upper and lower portions of the center of the long hole 32;
Bracket 50 for supporting the optical cable support (40);
a front coupling part 51 and a rear coupling part 52 bent upward from the front and rear edges of the bracket 50 and coupled to the front and rear surfaces of the optical cable support 40;
a pair of clevis (53) bent downward from the left and right edges of the bracket (50) and having a pin hole (54) coincident with the arc-shaped notch (33);
a pair of hanger pins (60) inserted in parallel into the pin holes (54), and supported by being inserted into the arc-shaped notch (33) at their distal ends;
a locking projection 61 formed on the outer peripheral surface of the front end of the hanger pin 60, passing through the long hole 32, and caught on the rear surface of the horizontal channel 30 by rotation of the hanger pin 60;
a head portion 63 formed at the rear end of the hanger pin 60 and having a square groove 62 in the center thereof;
a straight groove (64) passing through the center of the square groove (62) located on both sides in a straight line and formed in the head part (63);
a wire insertion hole (65) formed in the head part (63) to alternately cross the straight groove (64);
a wire latch 70 hooked into the straight groove 64 aligned in a straight line;
an open-loop-shaped direction-changing bent portion 71 formed at both ends of the wire latch 70;
a wire latch 72 formed parallel to each other toward the upper side from the end of the direction change bending part 71 and inserted into the wire insertion hole 65;
In the optical cable support device for communication comprising a,

a bonding groove (66) formed with a constant width in the center of the front end surface of the hanger pin (60);
a welding bar 67 inserted and welded into the joint groove 66 and protruding in a radial direction from the outer circumferential surface of the hanger pin 60 to form the locking protrusions 61 at both ends;
Optical cable support device for communication, characterized in that it comprises a.

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