KR101629573B1 - cable connecting cramp - Google Patents

Abstract

The insulating clamp for electric power line fixing according to the present invention comprises: a housing which forms a wedge-shaped internal space gradually becoming narrower toward the front; a pair of fastening jaws slidably mounted in the housing; And a coil spring installed on the housing and pressing the two clamping jaws.
Here, the tightening jaw is made of an insulating engineering plastic material, and the housing is coated with an insulating ceramic material.
The fastening jaws may be made of nylon 66 material.
The two fastening jaws are formed in such a manner that the occlusal surfaces are formed in an angular shape, so that a firm fixing action can be performed on power lines of different diameters.
The insulating clamp for power line fixing according to the present invention does not require a troublesome process of peeling off the cover and exposing the copper wire for fixing the power line because the housing and the clamping jaw are made of the insulating material, Since the cover is not required to be used, the clamping and separating operation of the clamp and the insulator can be performed stably and quickly, thereby improving the working efficiency and stability of the power line maintenance.

Description

Insulating clamp for power line fixing {cable connecting cramp}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power line fixing device for supporting a power line in a telephone pole, and more particularly, to an insulation clamp for fixing a power line in which an insulation structure for a power line is more stably secured.

Generally, power lines are installed in various forms from ground to underground, from power plants to individual customers. In general, power lines are used as the installation method in the ground area.

According to the method of supporting a power line using a telephone pole, a telephone pole is installed every predetermined interval, and a power line is supported by a telephone pole, thereby stably maintaining the installation state of the power line.

1, the insulation insulator 8 is installed on the horizontal support 4 mounted on the electric pole 2. The insulation insulator 8 is installed on the support rod 4, And the power line is fixed by the power line fixing means connected to the insulator 8.

According to such an insulation structure, since the pair of insulators 8 are disposed with the interposing support 4 therebetween, the electric current of the power line 6 does not flow toward the main body 2 side.

The so-called tightening clamp 10, which is widely used as one type of power line fixing means, includes a housing 12 forming a wedge-shaped internal space that gradually becomes narrower toward the front, A support plate 16 mounted on the housing 12 so as to be interlocked with the tightening jaw 14 and a coil 16 mounted on the housing 12 and urged by the support plate 16, And a spring 18 (see FIG. 2).

An arm portion 121 for fastening with the insulator 8 is formed at the rear of the housing 12.

The operation of the conventional fastening type clamp 10 is as follows.

First, when the power line 6 is sandwiched between the occlusal surfaces of the two clamping jaws 14 and the engagement state of the clamping jaws 14 and the support plate 16 is released, by the expansion force of the coil spring 18, (14) is moved forward, the movement of both clamping jaws (14) being controlled along the housing (12).

Since the housing 12 is gradually narrowed in width as described above, the two clamping jaws 14 are gradually narrowed in accordance with the movement of the clamping jaws 14, so that the engaging surfaces 141 of the clamping jaws 14, The power line 6 sandwiched between the two clamping jaws 14 is pressed and fixed.

2, in order to fix the power line 6 by the tightening clamp 10, the coating of the power line 6 is peeled off for a certain period and the copper wire 7 is partially exposed The exposed copper wire 7 is pressed by the tightening jaws 14. [0035] (The copper wire is called a copper wire for convenience, but it is actually made of a conductive material such as aluminum other than copper.)

This is because when the power line 6 is fixed in a state in which the cover 12 is not peeled off because the housing 12 and the clamping jaw 14 constituting the tightening clamp 10 are made of a highly conductive aluminum material, ) Phenomenon is caused, the power transmission efficiency is lowered, and power lines are corroded.

In the prior art, since the copper wire 7 of the power line 6 is exposed, the rainwater may come into contact with the copper wire 7 at the time of rain or other foreign matter may come in contact with the copper wire 7, A technique for preventing a problem caused by rainwater or foreign matter by covering a portion where a power line 6 is fixed using a cover (not shown) has been developed (Korean Patent Laid-Open No. 10-2011-0125782).

However, according to the conventional technique using such a clamp cover, the structure of the clamp cover is complicated, so that a considerable manufacturing cost is required. In addition, a fastening clamp is installed at a high work site on a pole, Due to the nature of the installation, there is a new problem that is very cumbersome and dangerous.

In addition, although the fixed portion of the power line is generally wrapped by the clamp cover, the clamp cover is not a structure that can completely block foreign matter such as rainwater or fine dust, There is a disadvantage that the above-mentioned problems are caused again.

Since the engaging surface 141 of the clamping jaw 14 is formed in a roughly semicircular or arcuate shape according to the prior art, the thickness of the copper wire 7 of the power cable 6 is, for example, A problem that the stable state of the power line 6 can not be maintained due to the fact that the copper wire 7 and the occlusal surface 141 are not firmly adhered to each other when the diameter of the wire 141 is considerably larger than the diameter of the surface 141 .

SUMMARY OF THE INVENTION It is an object of the present invention to provide an insulation clamp for securing a power line, in which a clamping jaw and a support plate are made of a material having an insulation property so that a fixed state of a power line can be stably maintained.

According to another aspect of the present invention, there is provided an insulation clamp for fixing a power line, comprising: a housing defining a wedge-shaped internal space that gradually widens in a forward direction; a pair of fastening jaws slidably mounted in the housing; A support plate mounted on the housing to be interlocked with the tightening jaw, and a coil spring installed on the housing and urging the tightening jaw.

Here, the fastening jaws and the support plate are made of an engineering plastic material having high insulation, and the housing is coated with an insulating ceramic material.

Each of the tightening jaws and the support plate is made of a nylon 66 material, and each of the tightening jaws has an occlusal surface in an angled shape.

According to the present invention, a plurality of frictional steel wires may be provided on the occlusal surface of each of the tightening jaws, the frictional steel wires being inclined with respect to the longitudinal direction of the tightened and constrained power wire, In the form of a line.

As described above, according to the present invention, since the housing and the fastening jaw are made of an insulating material, the insulating clamp for fixing a power line does not require a troublesome process of peeling off the cover to expose the copper wire for securing the power line, It is possible to perform the clamping and separating operation of the clamp and the insulation insulator stably and promptly, thereby improving the working efficiency and stability of the power line maintenance.

FIG. 1 is a state diagram showing a general power stone fixing structure.
2 is an exemplary view showing a power line fixing state by a fastening type clamp according to the related art.
3 is an exemplary sectional view showing a state in which a clamping jaw of a fastening type clamp according to the prior art pushes a copper wire of a power line.
Fig. 4 is a perspective view showing a main part of an insulation clamp for fixing a power line according to the present invention. Fig.
5 is an exemplary view showing a power line fixing state by an insulation clamp for fixing a power line according to the present invention.
6A and 6B are exemplary cross-sectional views each showing a state in which the clamping jaws of the insulation clamp for securing the power line according to the present invention press the power lines of different thicknesses.
7 and 8 are perspective views illustrating an insulating clamp for fixing a power line according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 4 and 5, the insulating clamp 20 for fixing a power line according to the present invention includes a housing 22 for forming a wedge-shaped internal space which is gradually narrowed toward the front, A support plate 26 mounted on the housing 22 so as to be interlocked with the respective clamping jaws 24 and a pair of clamping jaws 24 mounted on the housing 22 so as to be able to slide, And a coil spring (28) installed to press the tightening jaw (24).

Here, the fastening jaws 24 and the support plate 26 are made of an engineering plastic material having high insulation, and the housing 22 is coated with an insulating ceramic material.

In particular, each of the clamping jaws 24 and the support plate 26 is preferably made of nylon 66 material having high mechanical strength among engineering plastic materials.

Each of the tightening jaws 24 has an occlusal surface 241 in an angular shape.

The operation of the insulating clamp for fixing power lines according to the present invention constructed as described above will be described as follows.

5, the basic operation in which the power line 6 is fixed by the insulating clamp 20 for securing the power line according to the present invention is similar to that of the prior art.

That is, the pair of tightening jaws 24 are pressed in one direction by the coil spring 28 in the housing 22 to narrow the distance between them, thereby tightening and fixing the power line 6.

However, according to the present invention, as described above, since the clamping jaw 24 and the support plate 26 are made of an engineering plastic material having high insulation and the housing 22 is coated with an insulating ceramic material, A high insulating property is secured.

Therefore, it does not require a troublesome process of peeling off the coating of the power line and exposing the copper wire as in the conventional method, nor does it require the operation of mounting the conventional clamp cover.

In addition, according to the present invention, as described above, since the engaging surfaces 241 of the fastening jaws 24 are formed in an angular shape, a stable fixed state can be maintained without a large difference in fixing force with respect to power lines of various thicknesses.

6A, the engaging surface 241 of the tightening jaw 24 is entirely in contact with the surface of the power line 6 so that the power line 6 stably comes in close contact with the power line 6. As shown in FIG. 6B, A relatively large portion of the occlusal surface 241 contacts the power line 6 'having a relatively large thickness as shown in FIG. 5A, so that the power lines 6 and 6' maintain a stable fixed state.

According to another embodiment of the present invention, as shown in FIGS. 7 and 8, a friction wire 242 (see FIG. 7) that is inclined with respect to the longitudinal direction of the power line that is tightened and pressed on the occlusal surface 241 of each tightening jaw 24 The friction wire 242 is formed in the form of a wedge line protruded from the occlusal surface 241 of the clamping jaw 24.

Here, the shape of the wedge line means that the top end of the wedge shape has a long shape when viewed in the transverse plane.

The tilting directions of the friction steel wire 242 formed on the occlusal surface of the one side clamping jaw and the tear direction of the friction wire 242 formed on the other side clamping jaw may be opposite to each other.

According to another embodiment of the present invention, the friction wire 242 presses the coating of the power wire locally strongly while the power line is tightened by the respective clamping jaws 24, Lt; / RTI >

Further, even when the tensile force applied in the longitudinal direction to the power line exceeds the maximum static frictional force (the limit that the power line does not move due to the friction wire), the electric wire runs in the longitudinal direction owing to the property that the friction wire 242 is inclined (Upward or downward direction of the clamping jaw) in which the friction wire 242 is formed.

Even if the power line is guided along the friction wire 242, since the engaging surface 241 of the clamping jaw 24 is formed in an angular shape, the movement of the power line is prevented by the clamping jaw 24, The phenomenon of moving in the direction does not occur.

In addition, when the tilting directions of the frictional steel wires 242 formed on the two fastening tabs 24 are opposite to each other, the induction directions of the power wires are also formed oppositely due to the influence of the two frictional steel wires 242 corresponding to each other, The movement of the object is strongly suppressed.

6: Power line 8: Insulation insulator
20: Insulation clamp 22: Housing
24: fastening jaw 241: occlusal surface
242: Friction steel wire 26:
28: coil spring

Claims (7)

A housing which forms a wedge-shaped inner space which is gradually narrowed in a forward direction,
A pair of tightening jaws slidably mounted in the housing for tightening and tightening the power line,
A support plate mounted on the housing for interlocking with the respective fastening jaws,
A coil spring installed in the housing and urging the tightening jaw
The insulating clamp for electric power line fixing according to claim 1,
Each of the tightening jaws and the support plate is made of an engineering plastic material having high insulation,
The housing is coated with an insulating ceramic material,
Wherein a plurality of frictional steel wires are provided on the occlusal surface of each of the fastening jaws, the frictional steel wires being inclined with respect to the longitudinal direction of the power-
The tilting direction of the friction steel wire formed on the occlusal surface of one clamping jaw and the tilting direction of the friction steel wire formed on the other clamping jaw are opposite to each other
And an insulating clamp for fixing the power line. The method according to claim 1,
Wherein the fastening jaws and the support plate are made of nylon 66 material. delete The method according to claim 1,
Wherein each of the fastening jaws has an oblique occlusal surface so that a rigid fastening action can be performed on power lines of various diameters. delete The method according to claim 1,
Wherein the friction steel wire is in the form of a wedge line protruding from the occlusal surface of the tightening jaw
And an insulating clamp for fixing the power line. delete

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