KR20210088279A - Cable creat with enhanced bonding strength - Google Patents

Abstract

The present invention relates to a cable cleat with a reinforced binding force for safely and securely supporting each cable by forming a curved support plate for supporting the cable in a semi-circular groove in which each cable is accommodated and comprises: a first cleat support provided on the lowermost side and having a first semi-circular groove for supporting the lower portion of a first cable and a second semi-circular groove for supporting the lower portion of a second cable adjacent to each other on the upper surface thereof; a second cleat support provided on the first cleat support and having a third semi-circular groove for supporting the upper portion of the first cable and a fourth semi-circular groove for supporting the upper portion of the second cable adjacent to each other on the lower surface thereof and a fifth semi-circular groove for supporting the lower portion of a third cable on the upper surface thereof; a third cleat support provided on the second cleat support and having a sixth semi-circular groove for supporting the upper portion of the third cable on the lower surface thereof; and a curved support plate protruding from the inside of the first semi-circular groove to the sixth semi-circular groove.

Description

Cable creat with enhanced bonding strength

The present invention relates to a cable crete with reinforced binding force, and more particularly, a curved support plate for supporting cables is formed in a semi-circular groove in which each cable is accommodated, so that the binding force for safely and firmly supporting each cable is provided. It relates to reinforced cable crete.

In general, the power cable is fixed by using a crete for the purpose of preventing such a phenomenon that the movement occurs differently from the initial fixed position due to its own weight and thermal deformation.

Conventionally, a case of directly fastening a metal crete to the power cable and a method of fastening the crete after winding a rubber plate around the power cable have been used. In the conventionally used crete, a rubber plate winds the power cable, and the upper and lower crete surround the rubber plate. The upper cleat has a semicircular round inner surface, and both ends of the inner surface have a flat square shape, so the bolt penetrates and is attached to the upper part of the power cable. The lower cleat has the same shape as the upper cleat and is attached to the lower portion of the power cable.

In the conventional cleat having the above configuration, the power cable is fixed by penetrating the bolt in the area where the upper cleat and the lower cleat come into contact and tightening the nut.

However, in the case of fastening the upper crete and the lower crete with bolts in the conventional cable crete, the movement of the rubber plate occurred due to a strong fastening force. That is, the rubber plate pushed by the fastening force was pushed between the upper and lower crete and folded. Therefore, since the rubber plate is folded, there is a problem in that the fastening force between the upper and lower crete is reduced.

In addition, the conventional crete has a risk that the bolted portion may be loosened or destroyed due to a strong impact.

Therefore, when the fastening part of the cable crete is loosened or destroyed, it is difficult to suppress the violent movement of the power cable, damage to surrounding equipment, expensive equipment shock, and personal injury occur, and power is supplied to the power cable. If it is formed, there is a problem that an unexpected electrical disconnection occurs.

On the other hand, conventionally, in the case of a three-wire cable extending in a vertical direction or a horizontal direction, the cable cleat is configured to support the entire circumference, but there is a problem in that the cable cannot be safely and firmly supported by the air gap between the cables forming a circle.

The present invention has been devised to solve the above problems, and is formed to surround a three-wire cable extending in a vertical or horizontal direction, and supports the cable with a support plate made of an elastic material to stably and firmly support the cable. Its main purpose is to provide a cable crete with reinforced cohesion.

The cable cleat with reinforced binding force according to the present invention is provided on the lowermost side, and the first semi-circular groove for supporting the lower part of the first cable and the second semi-circular groove for supporting the lower part of the second cable are adjacent to each other on the upper surface. A first cleat support formed by the above, a third semicircular groove provided on the first cleat support, a third semicircular groove for supporting the upper portion of the first cable, and a fourth semicircular shape for supporting the upper portion of the second cable A second cleat support in which grooves are formed adjacent to each other and a fifth semi-circular groove for supporting the lower part of the third cable is formed on the upper surface, and the second cleat support is provided on the second cleat support, and the upper part of the third cable is provided on the lower surface It characterized in that it comprises a third cleat support on which a sixth semi-circular groove for supporting the cleat is formed, and a curved support plate protruding from the inside of the first semi-circular groove to the sixth semi-circular groove.

In addition, the curved support plate is characterized in that it includes a support plate accommodating groove formed inside the first to sixth semi-circular grooves, and an elastic spring installed in the support plate accommodating groove to provide an elastic force.

The cable cleat with reinforced binding force according to the present invention provides an effect of easily fixing cables having various outer diameters through the curved support plate of the cables coupled to the first semi-circular grooves to the sixth semi-circular inner surfaces.

1 is a perspective view showing a cable creat with reinforced binding force according to an embodiment of the present invention.
2 is a cross-sectional view showing a cable creat with reinforced binding force according to a preferred embodiment of the present invention.

Hereinafter, the technical idea of the present invention will be described in more detail with reference to the accompanying drawings.

Since the accompanying drawings are merely examples shown to explain the technical idea of the present invention in more detail, the technical idea of the present invention is not limited to the form of the accompanying drawings.

However, in describing the present invention, descriptions of already known functions or configurations will be omitted in order to clarify the gist of the present invention.

1 is a perspective view showing a cable cleat with reinforced binding force according to a preferred embodiment of the present invention, and FIG. 2 is a cross-sectional view showing a cable crete with reinforced binding force according to a preferred embodiment of the present invention.

As shown in FIGS. 1 and 2 , the cable cleat 1000 with reinforced binding force of the present invention is a first cable cleat 110 , a second cable cleat 120 , a third cable cleat 130 , the first a bolt 141 , a second bolt 142 and a third bolt 143 .

First, the first cable cleat 110 is provided on the lowermost side, and supports the first semicircular groove 111 for supporting the lower portion of the first cable 21 on the upper surface, and the lower portion of the second cable 22 . Second semi-circular grooves 112 are formed adjacent to each other.

In addition, the first cleat support 110 is further formed with a first fastening portion 113 extending in both left and right directions, a pair of left and right that penetrates through the first fastening portion 113 and is fastened to the wall surface or the external fixture 10 . of the first bolt 141 is formed.

At this time, the support groove 114 is recessed between the first semi-circular groove 111 and the second semi-circular groove 112 on the lower surface of the first crete support 110 .

The support groove 114 is a space between the wall surface or the external fixture 10 and the first crete support 110, and a separate fastener (not shown) is inserted into the support groove 114 to insert the first crete support ( It is possible to improve the binding force between the 110) and the wall or external fixture (10).

And the second crete support 120 is provided on the first crete support 110, a third semicircular groove 121 for supporting the upper portion of the first cable 21 on the lower surface, and the second cable 22 ) A fourth semi-circular groove 122 for supporting the upper portion is formed adjacent to each other.

In addition, the second cleat support 120 is formed with a fifth semi-circular groove 123 for supporting the lower portion of the third cable 23 on the upper surface.

In addition, the second cleat support 120 extends in both left and right directions, a second fastening part 124 extending shorter than the first fastening part 113 is further formed, and passing through the second fastening part 124 1 A pair of left and right second bolts 142 fastened to the crete support 110 are provided.

Next, the third cleat support 130 is provided on the second crete support 120 , and a sixth semicircular groove 131 for supporting the upper portion of the third cable 23 is formed on the lower surface.

At this time, the third cleat support 130 is extended in both left and right directions, a third fastening part 132 extending to a length corresponding to the upper surface of the second crete support 120 is further formed, and the third fastening part 132 ) through and further includes a pair of left and right third bolts 143 for fastening to the second cleat support 120 .

By such a configuration, the cable creat 1000 with reinforced binding force of the present invention is configured to be supported in close contact with the outer circumferential surface of each of the first cable 21 , the second cable 22 and the third cable 23 . .

In addition, in the first embodiment of the present invention, the inner circumference of the hole formed by the first semi-circular groove 111 to the sixth semi-circular groove 131 is formed smaller than the outer circumference of the first cable 21 to the third cable 23 . Thus, the first cleat support 110, the second crete support 120 and the third crete support 130 can be in close contact with the first cable 21 to the third cable 23 by tightening the bolts, It is possible to be fastened spaced apart from each other. That is, the hole in which the cable is accommodated is formed smaller than the size of the cable, so it can be supported by pressing the cable by fastening the bolt. can be fastened.

Accordingly, the cable creat 1000 with reinforced binding force of the present invention is formed to surround the three-wire cable extending in the vertical direction or the horizontal direction, respectively, and has the advantage of being able to stably and firmly support it.

In addition, even when the size of the cable is changed by the configuration spaced between the crete supports, there is an advantage in that the cable can be firmly supported.

A plurality of curved support plates 550 conforming to the shape of the semi-circular grooves are further formed inside the first semi-circular grooves 111 to the sixth semi-circular grooves 131 .

In addition, the curved support plate 550 may be spaced apart from and supported from the first semi-circular groove to the sixth semi-circular groove by the elastic spring 551 .

That is, when the size of the cable is formed smaller than the hole in which the cable is accommodated, the cable can be supported by pressing the cable by the curved support plate and the elastic spring, and the size of the cable is deformed or the cable creat is applied to a cable of a different size. Even in this case, it can be firmly fastened.

Furthermore, it is also possible that the support plate receiving groove 552 is further formed on the inner surface of the first semi-circular groove 111 to the sixth semi-circular groove 131 so as to accommodate the curved support plate 550 .

That is, when the diameter of the cable is large, the curved support plate 550 is accommodated in the support plate accommodating groove 552 , thereby increasing adhesion to the outer peripheral surface of the cable.

As such, the cable cleat according to the fifth embodiment of the present invention has the advantage of being able to firmly support the cable even when the size of the cable is changed by the configuration of the curved support plate and the elastic spring.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1000: cable crete with reinforced cohesion
10: fixture
110: first cleat support 111: first semi-circular groove
112: second semicircular groove 113: first fastening part
120: second cleat support 121: third semicircular groove
122: fourth semi-circular groove 123: fifth semi-circular groove
124: second fastening part 130: third cleat support
131: sixth semicircular groove 132: third fastening part
141: first bolt 142: second bolt
143: third bolt 550: curved support plate
551: elastic spring 552: support plate receiving groove

Claims (2)

A first cleat support provided on the lowermost side, the first semi-circular groove for supporting the lower portion of the first cable on the upper surface, and the second semi-circular groove for supporting the lower portion of the second cable are formed adjacent to each other;
A third semi-circular groove provided on the first cleat support, a third semi-circular groove for supporting the upper portion of the first cable, and a fourth semi-circular groove for supporting the upper portion of the second cable are formed adjacent to each other, and the upper surface a second cleat support in which a fifth semi-circular groove for supporting the lower portion of the third cable is formed;
a third cleat support provided on the second crete support and having a sixth semi-circular groove formed on a lower surface thereof to support an upper portion of the third cable; and
The cable crete with reinforced binding force comprising a; a curved support plate protruding from the inside of the first semi-circular groove to the sixth semi-circular groove.
According to claim 1,
The curved support plate,
and a support plate receiving groove formed inside the first semi-circular groove to the sixth semi-circular groove, and an elastic spring installed in the support plate receiving groove and providing an elastic force.

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