KR100250980B1 - The metal layer bonding clamp for connecting a telecommunication cable - Google Patents

Abstract

PURPOSE: A telecommunication table metal layer bonding clamp is provided to supply a continuous and uniform pressure to a pressure surface and attain rapidity and accuracy simultaneously in a bonding process. CONSTITUTION: A clamp(16) is divided into a body part(12) and a rotation part(15). The body part(12) receives and supports the rotation part. A plurality of fixing members(17) are formed on the body part(12) and form an electrical connection by passing through a metal layer of a cable(1). The rotation part(15) is rotated when the telecommunication cable is partially received, thereby causing a downward pressure. Due to the downward pressure, an outer coat of the cable(1) is pressed against the fixing members(17) of the body part(12). The outer coat of the cable is completely pressed against the clamp(16). The cable metal layer bonding clamp(16) is integrally formed with a metal protecting tube(3). The clamp(16) is fastened to both ends of the metal protecting tube(3). The clamp(16) is integrally formed with the ends of the metal protecting tube(3) in a mechanical and electric way. The protecting tube(3) is materialized of aluminum.

Description

Telecommunication Cable Metal Bonding Clamp

The present invention relates to a communication cable metal layer bonding clamp, and more particularly, to a communication cable metal layer bonding clamp of a bonding wire capable of connecting a bonding wire to a metal layer of a cable using a rotational pressing force without a separate crimping means.

In general, the communication cable for the city, which is installed from the telephone station to the subscriber terminal, is installed in a state of being connected by separate connection means in units of a predetermined length of the cable.

FIG. 1 shows a state in which a clamp 5 is mounted on both cables 1 of a metal protective tube 3 according to the conventional art.

FIG. 2 is a cross-sectional view taken along the line A-A in FIG. 1, showing the configuration of the cable.

As shown in the figure, the structure of the communication cable (1) is a polyethylene outer layer (9) wrapped in the outermost layer of the cable to a predetermined thickness, for example, less than 4mm thickness, inside the soft aluminum metal layer of thin thickness (11) and a plurality of core wires 13 are formed therein to have a concentric sheath structure as a whole.

The polyethylene coating material, which is the outer skin layer 9, has a physical protective function of preventing damage to the core wire from external pressure due to external factors.

The aluminum metal layer 11 serves as a shielding layer to prevent the ingress of moisture by coating the vinyl to a thickness of about 2mm.

In general, although the communication cable having the metal layer 11 in the cable shell has some differences, the metal shielding layer 11 has a function of suppressing the induced voltage caused by the power system external to the core wire.

However, in order for the metal layer 11 of such a communication cable to exhibit a shielding effect, at least two places of a telephone station or a subscriber terminal must be grounded and a path of shielding current through the shielding layer and the ground return path must be configured.

The local telecommunication cable is installed at the subscriber terminal by extending the interconnection of the cables at intervals of about 250m due to cable laying conditions. At this time, the connection point stipulates that the shielding layer (metal layer) 11 of the two cables is connected to each other simultaneously with the connection of the communication core 13.

Generally, the interconnection of cables utilizes heat shrinkable connectors or prefabricated connectors. Heat shrinkable conduits are constructed to enclose a metal sheath encased with cable core connectors using a heat shrinkable medium.

When the cable is connected by the heat shrinkable connection pipe, the inside of the heat shrinkable tube is not able to be checked once. In the above process, if the bonding is not reliably made due to carelessness or immaturity of construction, a difficult problem occurs.

Figure 3a is a perspective view of the pressing clip which is a clamping means for connecting a conventional cable shielding layer,

Figure 3b is a cross-sectional view showing a state of binding to the outer shell of the cable of the crimping clip of Figure 3a.

As shown in the figure, the conventional connecting tube bonding connection means is about 0.8m in length, 14mm ² in thickness, using a linkage line is attached to the crimping clip (5) at both ends, crimping clip (5) The bonding is completed by pressing and clamping on the outer layer of the cable.

At this time, when the bonding line is pulled out during construction, or when the crimping clip 5 is crimped on the outside of the cable, the connection point is not completely in contact with the non-uniform crimping, resulting in poor connection.

In other words, in the conventional bonding device for connecting pipes, a clamping device, which is a means for connecting the bonding wire to the metal layer of the cable, is required to have a mechanical pressure crimping device to closely contact the metal layer. There is a risk of loosening of the connection.

Therefore, in order to solve the above problems, it is possible to provide continuous and uniform pressure on the pressing surface by simply and instantaneous rotation operation without external mechanical pressing means, and to be integrally bound to the metal protective tube. It is an object of the present invention to provide a bonding cable clamp of a communication cable of a bonding wire that enables the shielding current to be continuous through the metal protective tube, thereby simultaneously providing a quick and accurate connection operation.

1 is a view showing a state in which a clamp is mounted on both cables of a metal sheath according to the prior art;

2 is a cross-sectional view taken along the line A-A in FIG. 1, showing the configuration of a cable

3A is a perspective view of a crimping clip, which is a clamping means for connecting a conventional cable shielding layer;

Figure 3b is a cross-sectional view showing a state in which the crimping clip of Figure 3a is bonded to the outer shell of the cable

4 illustrates a cable metal layer bonding clamp according to the present invention.

5 is a cross-sectional view showing a state in which a heat shrinkable material is formed in an adjacent portion of a connecting pipe after the cable metal layer bonding clamp of the present invention is bound to a metal protective pipe.

FIG. 6 is a view illustrating a state in which the heat shrinkable material shown in FIG. 5 is contracted by applying heat. FIG.

7 is an enlarged view of a portion B of FIG. 5.

<Description of the symbols for the main parts of the drawings>

1: cable 3: metal sheath

5: Conventional metal layer bonding clamp 7: Lead wire

9: outer skin layer (polyethylene) 11: metal layer (shielding layer)

12: clamp body portion 15: rotation part

16: metal layer bonding clamp of the invention 19: heat shrinkable material

Features of the present invention to achieve the above object,

It is fixed to both ends of the metal protective tube inside the communication tube for communication cable, and the main body portion having the fixed fastener is formed at the bottom and the outer shell of the cable inserted into the main body portion by rotation from the upper portion of the main body portion to be compressed and fixed. It consists of a hinge part which forms a rotating shaft of a rotation part between a rotation part and the said rotation part and a main body part, and connects the shielding layers of a cable continuously.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the communication cable metal layer bonding clamp according to the present invention.

4 to 7 are views showing the configuration and installation of the communication cable metal layer bonding clamp according to the present invention.

(A), (b) is a figure which shows the state in which the clamp 16 of this invention is installed in the both ends of the metal protective tube 3,

4 (c) to 4 (f) are diagrams for showing the configuration of the clamp 16 of the present invention shown in FIG.

As can be seen from the figure, the clamp 16 of the present invention is largely composed of a main body 12 and a rotating part 15, and the main body 12 has a structure capable of receiving and supporting a rotation operation part. At the same time, a plurality of toothed fixing members 17 are formed, which form electrical connections while drilling the metal shielding layer of the cable 1.

The rotating part 15 is rotated when a portion of the communication cable is received and at the same time a downward pressing force is applied to the outer shell of the cable 1 to the teeth of the fixing member 17 of the main body 12.

Particularly, FIGS. 4E and 4F show a state in which the outer skin layer of the cable 1 is completely pressed against the clamp 16.

That is, as can be seen in the figure, the metal layer 13 of the cable 1 is completely penetrated to form an electrical passage, and to maintain a uniform pressure continuously.

The cable metal layer bonding clamp 16 of the present invention as described above can be applied not only to the bonding wire connecting device for the heat shrinkable tube but also to the internal connection for the prefabricated connecting pipe, which has a very practical and wide range of use.

In addition, (a) of FIG. 4 shows a state in which the cable metal layer bonding clamp 16 of the present invention is integrated with the metal protective tube 3, that is, the clamp 16 is attached to both ends of the metal protective tube 3. One drawing. (b) is a side view of said figure (a).

In the above, the clamp 16 is mechanically and electrically integrated at the end of the metal protective tube 3 by metal fusion or the like. In particular, the metal protective tube (3) is a device for protecting the core wire in the heat shrinkable connection tube, the material of the protective tube (3) is made of aluminum, because the cross-sectional area is several times more than the conventional electrical conductor can play a role of the electrical passage. have.

Therefore, the rotary crimp clamp 16 of the present invention is electrically integrated with the metal protective tube 3 so that it is not necessary to use an existing conductor, and a connection in which an operator connects the cable shielding layers to each other inside the connection tube during operation. The advantage is that you do not miss work.

5 is fastened to the sheath of both cables 1 by using the clamp 16 of the present invention installed on both sides of the metal protective tube 3, and the heat shrinkage member 19 is formed in a predetermined area around the metal protective tube 3. It is a figure which shows the state wrapped with.

As can be seen in the figure, the clamp 16 of the present invention is also included in the heat shrinkable material 19, and the clamp 16, which is integrally bound with the metal protective tube 3, is made of aluminum in the cable shell. It binds to the metal layer 11 and eventually interconnects the metal layer 11 of the cable sheath electrically separated by the metal protective tube 3.

On the other hand, when a predetermined heat is applied to the heat shrinkage material 19, the shape of the heat shrinkage material 19 is changed as shown in FIG. 6 to close and fix the periphery of the metal protective tube 3, the hole 20 formed in the upper portion The gas etc. in the cable 1 are discharged | emitted through.

FIG. 7 is an enlarged view of a portion B of FIG. 5 and is an enlarged view showing a state in which the clamp 16 of the present invention is attached to the cable jacket.

As shown in the figure, when the clamp 16, which is attached to both ends of the metal protective tube 3, is engaged with the outer shell of the cable 1 inserted into the side surface of the protective tube 3, the outer shell of the cable is axially oriented. After cutting by a certain length, the cut cable sheath is inserted into the clamp body portion 12 of the present invention in the radial direction, and then the clamp rotating portion 15 is rotated about the hinge 8 to rotate the inside of the body portion 12. The outer sheath of the cable is fixed to the toothed fixing member 17.

Therefore, the rotary crimp clamp of the present invention is electrically integrated with the metal protective tube 3 so that the connection is naturally performed without using the existing conductor, and there is no fear that the connection work may be missed by an operator's mistake.

As described above, the communication cable metal layer bonding clamp according to the present invention is bound to both ends of the metal protective tube connecting the cable shielding layer to each other inside the connection tube for the communication cable, the tooth-shaped fixed fastener is formed at the bottom Composed of a main body portion and a rotating portion for pressing and fixing the outer shell of the cable is inserted into the main body portion by the rotation at the top of the main body portion to generate a rotational pressing force in a simple and instantaneous operation without a separate external mechanical and physical pressure mechanism It adheres to the metal layer of the communication cable at a uniform pressure to maintain the electrical conductivity continuously.

In addition, there is no risk that the connection process is omitted due to the implementation of the operator, it is possible to simplify the process because there is no need to use the existing conductor.

Claims (3)

It is fixed to both ends of the metal protective tube inside the communication tube for communication cable, and the main body portion having the fixed fastener is formed at the bottom and the outer shell of the cable inserted into the main body portion by rotation from the upper portion of the main body portion to be compressed and fixed. A communication cable metal layer bonding clamp composed of a rotating portion and a hinge portion forming a rotating shaft of the rotating portion between the rotating portion and the main body portion, and continuously connecting the shielding layers of the cable to each other. The communication cable metal layer bonding clamp according to claim 1, wherein the fixed fastener formed in the main body portion is a fastener formed in a sawtooth shape. The communication cable metal layer bonding clamp according to claim 1, wherein the cable metal layer bonding clamp is applied to a prefabricated connector tube in addition to the heat shrink cable connection tube having the metal protective tube therein.

Images