KR101491010B1 - Multi-tube connectors for optical cable connection - Google Patents

Abstract

The present invention relates to a connector of a corrugated optic duct, which is installed to bury optical cables for communication or electricity in the ground. The connector allows holes in internal ducts to be matched with each other, enables a work process of fitting the optical cables to be smoothly and easily performed without an obstacle in a connection part of the internal ducts, and increases confidentiality by adhering adaptors to the ends of the internal ducts and the outer circumference of external ducts, thereby preventing moisture from permeating and preventing contaminant due to other foreign materials when multi-ducts are connected to each other. According to an embodiment of the present invention, the connector comprises: multi-ducts which have spiral external ducts formed on the external side surface of multiple internal ducts to cover the internal ducts into which optical cables are introduced; a pair of fastening caps which are screw-coupled to face to each other on the ends of the multi-ducts connected to each other and are fastened to be installed by bolts and nuts; and adaptors which are arranged between the pair of fastening caps, are respectively fitted between the external ducts and the internal ducts of the multi-ducts, and are installed to be adhered to the ends of the internal ducts and the outer circumference of the external ducts.

Description

{Multi-tube connectors for optical cable connection}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connecting connector for a corrugated optical duct (COD) for installing a communication or electric optical cable in the ground, And since there is no obstacle in the connecting portion of the inner tube, the work process for inserting the optical cable proceeds smoothly, and the adapter tightly adheres to the outer periphery of the inner tube and the outer tube to enhance the airtightness, The present invention also relates to a multi-pipe connector for an optical cable that prevents contamination by other foreign matter.

In general, communication or electric lines located in urban areas are not only harmful to the city's aesthetics, but also give a negative feeling to the residents. Especially, the transmission towers and transmission lines that cross the school facilities and provide them with psychological anxiety and pleasant educational environment It is the situation that inhibits.

Therefore, in recent years, by embedding a telecommunication or electric optical cable in the ground, it is possible not only to enhance the aesthetics of the city, but also to improve the view of the road and the traffic safety, and to widely use the sidewalk, It provides walking space.

Recently, Corrugated Optic Duct (COD), which is used for burying a communication or electric optical cable in the ground, has a plurality of (3 to 6) inner pipes into which an optical cable is inserted, And the outer appearance is formed into a corrugated tube shape to further enhance durability and flexibility.

The multi-tube for fiber optic cable is molded through an extruder, then rolled up to a length of about 500 to 1000 m to be transported to a work site. In order to prevent twisting or twisting of a plurality of inner tubes inserted into the outer tube during construction work, Multiple inner tubes are formed by heat-sealing on the inner wall, and the multiple tubes are connected to each other at the work site according to the construction length and buried in the ground.

Korean Patent No. 10-1166118 (a communication pipe assembly for protecting an optical cable provided with a joint structure) has been proposed as a typical prior art for connecting multiple tubes for optical cables in connection with each other, A pair of outer appearance fixed contacts; An inner tube fastener fitted into the outer tube and having a plurality of insertion guides and a center guide formed in the front and rear direction; And a gasket interposed between the outer tubular fixture and the inner tubular fixture to seal the inner tube and the outer tube.

However, when the external fixed connection body is bolted with the gasket interposed between the end portion of the internal pipe and the internal pipe fastener, the internal pipe can not be easily removed. The holes of the gasket and the inner fixture are twisted and the soft gasket is compressed and pushed into the inner pipe so that the operation is difficult and troublesome due to a trouble in the process of inserting the optical cable into the inner pipe.

That is, in the operation of inserting the optical cable into the inner pipe, first, the rope is blown by blowing a sommelock into the inner pipe of the high-pressure air, then the optical cable is hung on the rope and the work is carried out. Or if there is an obstacle in the hole, the sommon bundle is caught in the inner tube, so that the operation is troublesome and difficult.

Korean Patent No. 10-0933502. Korean Patent No. 10-0966786. Korean Patent No. 10-0967922. Korean Patent No. 10-1166118.

The present invention relates to a conventional process for connecting multiple tubes for optical cables to each other, in which a hole in an inner tube and a hole in a gasket are twisted together and a soft gasket is pushed and pushed into the inner tube to insert the optical cable into the inner tube A pair of fastening caps threadedly coupled to end portions of multiple pipes connected to each other and fastened by a plurality of bolts and nuts; and a pair of fastening caps disposed between the fastening caps, And an adapter formed of a urethane rubber material while being closely attached to the optical cable.

The present invention has been made to solve the above-

A multi-tube having a spiral outer surface formed on an outer surface of the inner tube so as to surround a plurality of inner tubes into which the optical cable is inserted; A pair of fastening caps screwed to face end portions of multiple tubes connected to each other and fastened by bolts and nuts; And an adapter which is disposed between the pair of coupling caps and is fitted between the outer tube and the inner tube of each of the multiple tubes while being closely attached to the outer periphery of the outer tube and the end of the inner tube.

Further, as an embodiment of the present invention, the adapter includes: a flange portion protruding in both lateral directions in a ring shape; A plurality of through holes formed on the inside of the flange portion in the same manner as the position and the inner diameter of the inner pipe; A center protrusion located at a center between the plurality of through holes and protruding toward both sides of the flange portion; And a plurality of outer protrusions located outside the plurality of through holes and protruding from the inside of the flange section.

Further, as an embodiment of the present invention, the flange portion is protruded in a symmetrical shape on both sides and is characterized in that the outer peripheral edge of the outer tube is closely fitted to the inner peripheral surface of the ring shape.

Further, as an embodiment of the present invention, the adapter is formed of a semi-rigid urethane rubber material having flexibility.

The embodiment of the present invention is characterized in that a pair of coupling caps screwed to end portions of a plurality of pipes connected to each other and fastened by a plurality of bolts and nuts and a pair of coupling caps disposed between the coupling caps, On the other hand, when the multiple tubes are connected to each other, since the adapter is made of a urethane rubber material, not only the holes of the inner tube are matched with each other, but also there is no obstacle in the connecting portion of the inner tube so that the operation process of inserting the optical cable smoothly proceeds .

In addition, the embodiment of the present invention has an effect that the adapter formed of the urethane rubber material is closely attached to the outer periphery of the inner tube and the outer periphery of the outer tube to enhance the airtightness, thereby preventing moisture from penetrating into the inner tube and being contaminated with other foreign matter .

Further, since the embodiment of the present invention is composed of a pair of coupling caps and an adapter formed of a urethane rubber material, the number of components is relatively small, the structure is simple, and the operation process is simple and smooth.

1 is an exploded perspective view showing an embodiment of the present invention.
2 is an assembled state perspective view showing an embodiment of the present invention.
FIG. 3 is a sectional view showing the main part showing the installation process in the embodiment of the present invention. FIG.
4 is a sectional view of the main part showing an installation state in the embodiment of the present invention.
5 is a perspective view of an adapter in an embodiment of the present invention;
6 is a sectional view of the main part showing an installation state of an inner pipe and an adapter in the present invention.
Figure 7 is a side view of an adapter in an embodiment of the present invention.
Figure 8 is a side view of multiple tubes in an embodiment of the present invention.
Figure 9 is a side view of another embodiment of an adapter in the present invention.

A plurality of tubes 11 are formed on the outer surface of the inner tube 12 so as to surround a plurality of inner tubes 12 into which the optical cable is inserted, (10); A pair of coupling caps 20 screwed to face ends of the multiple pipes 10 connected to each other and fastened by bolts 24 and nuts 25; And between the outer tube 11 and the inner tube 12 while being sandwiched between the outer tube 11 and the outer tube 11 and between the outer tube 11 and the outer tube 11, And an adapter 30 which is closely installed.

In the main structure of the embodiment, the multi-tube 10 is a prior art generally known in the prior art. As shown in Figs. 1 to 4, the multi-tube 10 includes a plurality (3 to 6) of inner tubes 12 into which an optical cable is inserted, The outer tube 11 is formed as a helical tube on the outer surface of the inner tube 12 so as to enclose a plurality of inner tubes 12. The outer tube 11 is formed of an outer tube 11 that covers the inner tube 12 and protects it from earth pressure or external force.

The plurality of inner tubes 12 are formed through the first extruder in the manufacturing process of the multiple tubes 10 and then transferred to the second extruder for molding the outer tube 11 so as to be spirally formed on the outer surface of the inner tube 12. [ The outer tube 11 is molded, and such a tube 10 is usually molded to a length of 500 to 1000 m.

In the main structure of the embodiment, the fastening cap 20 has a function of coupling and fixing a pair of multiple pipes 10 connected to each other. The fastening cap 20 is formed at the center A threaded portion 21 is formed in a spiral shape and a flange 22 is formed on the outer periphery while a plurality of fastening holes 23 are formed around the flange 22 at regular intervals.

The pair of fastening caps 20 are screwed to the ends of the outer tube 11 of the multiple tubes 10 connected to each other so as to face each other, The bolts 24 are inserted into the holes 23 and the nuts 25 are fastened to the ends of the bolts 24 at the opposite flange 22 so that the pair of coupling caps 20 are firmly coupled.

The adapter 30 has a function of closely contacting the inner tube 12 and the outer tube 11 of the multiple tube 10 and connecting the inner tube 12 to each other so that the adapter 30 is connected to the inner tube 12, As shown in Figs. 1 to 7, a flange portion 31 protruding in both lateral directions in a ring shape; A plurality of through holes 34 formed through the flange 31 in the same manner as the position and the inner diameter of the inner pipe 12; A center protrusion 32 protruding from both sides of the flange portion 31 at a center between the plurality of through holes 34; And a plurality of outer protrusions 33 located outside the plurality of through holes 34 and protruding from the inside of the flange 31.

The adapter 30 is preferably formed of a semi-rigid urethane rubber material having flexibility to increase the adhesion to the end of the inner tube 12 and the outer circumference of the outer tube 11, Shaped flange portion 31 is protruded symmetrically in both lateral directions. The flange portion 31 is provided in close contact with the outer peripheral edge of the outer tube 11 on the inner peripheral surface of the ring shape, as shown in Fig. 6 .

A plurality of through holes 34 are formed through the flange 31 in the same manner as the position and the inner diameter of the inner pipe 12 and the center protrusion 32 and the outer protrusion 34 are positioned so as to be positioned between the plurality of through holes 34. [ (33) are formed.

5 and 8, the center protrusion 32 protrudes in both lateral directions of the flange portion 31 and is provided with a center hole 13 formed between the plurality of inner tubes 12 in the multiple tube 10 Like shape of the center hole 13 so as to be inserted into and engaged with the center hole 13 in a symmetrical manner.

5 and 8, the outer protrusion 33 formed on the inner side of the flange portion 31 is protruded symmetrically on the inner side of the flange portion 31, And is formed so as to protrude in the same manner as the shape of the outer hole 14 so as to be fitted into the outer hole 14 formed between the inner wall of the inner tube 11 and the inner tubes 12.

A protruding frame 35 is formed around the peripheral edge of the through hole 34 formed in the flange 31 in order to increase the close contact with the end of the inner pipe 12. The protruding frame 35 is formed on the inner side Approximately 0.5 to 2 mm protruding is formed.

The adapter 30 includes the center hole 13 formed between the outer tube 11 and the inner tube 12 and the center protrusion 32 and the outer protrusion 33 protruding symmetrically on both sides of the flange portion 31, And is positioned between the pair of fastening caps 20 and closely attached to the outer peripheral edge of the outer tube 11 and the end of the inner tube 12 by the coupling force of the fastening cap 20.

9 shows another embodiment of the adapter 30 in which a plurality of through holes 34 are formed in accordance with the number of the inner pipes 12 in the multiple pipes 10, A center protrusion 32 is formed in the center space, and a plurality of outer protrusions 33 are protruded from the outer space.

In the installation process according to the embodiment of the present invention constructed as described above, first, the fastening caps 20 are screwed to end portions of the multiple pipes 10 to be connected to each other, Likewise, the adapter 30 is disposed between the pair of coupling caps 20, and the center protrusion 32 protruding in a symmetrical manner to the adapter 30 is inserted into the outer tube 11 and the inner tube 12 And the center hole 13 formed therebetween.

When the adapter 30 and the multiple tube 10 are pressed against each other, the center protrusion 32 is fitted deeply into the center hole 13 while the external projection 33 of the adapter 30 is inserted into the multiple tube 10 When the bolts 24 are inserted into the pair of fastening caps 20 and the nuts 25 are tightened, the pair of fastening caps 20 are brought into close contact with each other, The end portions of the outer tube 12 are closely attached to the protruding frame 35 of the adapter 30 while the outer circumferences of the outer tube 11 are fitted to the inner circumferential surface of the flange portion 31 so as to be closely attached.

The center protrusion 32 and the outer protrusion 33 formed in the adapter 30 are formed in the center hole formed between the outer tube 11 and the inner tube 12 of the multiple tube 10 13 and the outer hole 14, the hole of the inner tube 12 does not come loose but coincides with the through hole 34 formed in the adapter 30. As shown in FIG.

The end of the inner pipe 12 is first brought into close contact with the protruding frame 35 formed at the edge of the through hole 34 to enhance the adhesion between the inner pipe 12 and the adapter 30, 11 are tightly fitted to the inner circumferential surface of the flange portion 31 so as to increase airtightness, thereby preventing rainwater, ground water or water from penetrating into the inner pipe 12, and preventing contamination from other foreign substances.

Further, in the embodiment of the present invention, since the holes of the inner pipe connected to each other through the adapter are not interlocked with each other, there is no obstacle in the inner pipe, so that the process of inserting the optical cable proceeds smoothly and easily.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It is possible to carry out various changes in the present invention.

10: multiple tube 11: appearance
12: inner tube 13: center hole
14: outer hole 20: fastening cap
21: thread portion 22: flange
23: fastening hole 24: bolt
30: adapter 31: flange portion
32: center projection 33: outer projection
34: through hole 35: protruding edge

Claims (5)

A multiple tube 10 having an outer tube 11 spirally formed on an outer surface of an inner tube 12 so as to surround a plurality of inner tubes 12 into which the optical cable is inserted; A pair of coupling caps 20 screwed to face ends of the multiple pipes 10 connected to each other and fastened by bolts 24 and nuts 25; And between the outer tube 11 and the inner tube 12 while being sandwiched between the outer tube 11 and the outer tube 11 and between the outer tube 11 and the outer tube 11, And an adapter (30) closely installed,
The adapter (30) has a flange portion (31) protruding in both lateral directions in a ring shape; A plurality of through holes 34 formed through the flange 31 in the same manner as the position and the inner diameter of the inner pipe 12; A center protrusion 32 protruding from both sides of the flange portion 31 at a center between the plurality of through holes 34; And a plurality of outer protrusions (33) located outside the plurality of through holes (34) and protruding from the inside of the flange section (31)
Wherein the flange portion (31) is protruded in a symmetrical shape in both lateral directions, and the outer peripheral edge of the outer tube (11) is fitted to the inner peripheral surface of the ring shaped tube.
delete delete The method according to claim 1,
Wherein a protrusion (35) is formed around an edge of the through hole (34), and the protrusion (35) protrudes 0.5 to 2 mm from the inner side.
The method according to claim 1,
The adapter (30)
Wherein the flexible connector is formed of a semi-rigid urethane rubber material having flexibility.

Images