KR101020927B1 - Cable holder - Google Patents

Abstract

The present invention relates to a cable holder, characterized by increasing the friction between the cable and the cable holder to reduce the cable fluidity. The present invention includes a body placed on the lower portion of the cable, a cover for covering the cable placed on the body, and a rib made up of a plurality of unit ribs formed on the inner surface of the body and the cover, the plurality formed on the inner surface of the body The unit ribs of the body ribs are formed in an asymmetrical shape with the adjacent unit ribs in the body, the plurality of unit ribs formed on the inner surface of the cover is formed in an asymmetrical shape with the adjacent unit ribs in the cover It features. The unit ribs have a semi-square shape and are sequentially formed on the inner surface in a state in which the unit ribs are rotated at an angle with respect to the neighboring unit ribs.

Cable, Holder, Rib, Friction, Fluid

Description

Cable holder {Cable holder}

The present invention relates to a structure of a cable holder for increasing the friction between the cable and the cable holder.

In general, large electronic devices such as exchangers transmit electrical signals to peripheral devices using a plurality of cables. These electrical signals consist of pulses, digital / analog signals, etc., and exchanges and peripherals exchange electrical signals through cables. Therefore, in order to stabilize the system, it is an important issue to stably install without cable flow between the exchanger and the peripherals. In particular, in the case of a power cable connecting the exchanger and the power outlet, it is necessary to provide a stable installation of the power cable because it serves to supply power to the exchanger.

1 is a perspective view showing the structure of a conventional cable holder, Figure 2 is a view showing a state in which the cable holder with the cable is fixed to the plate plate installed.

The cable holder 10 has a cover 30 in the body 20, inserting the cable 40 between the body 20 and the cover 30, covering the cover 30, and inserting the cable 40. After the plate has a structure for fixing the cable holder 10 to the plate plate (50).

The inner surface of the cable holder 10 is formed with a streamlined rib (rib), the rib has a structure that the cable, so that the cable does not come out of the cable holder due to the frictional force.

However, since the rib structure of the conventional cable holder has a plurality of streamlined structures of the same type, and the friction force between the cable holder and the cable is not large, the cable wrapped with the sheath when the cable is pulled by force is removed from the cable holder. There is a problem moving little by little.

In particular, the safety standard of China Compulsory Certification (CCC) must satisfy the condition that the cable flow should be within 2mm when the cable is pulled 20 times with 100 [N] force while the cable is fixed in the cable holder. Cable holders have problems that do not meet these CCC safety standards.

An object of the present invention is to propose a structure for increasing friction between a cable holder and a cable, so that the cable does not flow in the cable holder.

The present invention includes a body placed on the lower portion of the cable, a cover for covering the cable placed on the body, and a rib made up of a plurality of unit ribs formed on the inner surface of the body and the cover, the plurality formed on the inner surface of the body The unit ribs of the body ribs are formed in an asymmetrical shape with the adjacent unit ribs in the body, the plurality of unit ribs formed on the inner surface of the cover is formed in an asymmetrical shape with the adjacent unit ribs in the cover It features.

The unit ribs have a semi-square shape and are sequentially formed on the inner surface in a state in which the unit ribs are rotated at an angle with respect to the neighboring unit ribs.

The present invention has an effect of asymmetrically forming the inner rib shape of the cable holder, thereby increasing the friction force between the cable holder and the cable. Therefore, there is an effect of reducing the fluidity of the cable when the cable is mounted on the cable holder.

Hereinafter, a detailed description of embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the reference numerals to the components of the drawings it should be noted that the same reference numerals as possible even if displayed on different drawings.

3 is a view showing a perspective view of a cable holder according to an embodiment of the present invention, Figure 4 is a view showing a cable holder is mounted cable according to an embodiment of the present invention.

The cable holder 10 has a structure having a body 20 to be placed on the bottom and a cover 30 hinged to the body to cover the cable to be placed on the body, the inner surface of the cable holder, that is, of the body and the cover Each inner surface has ribs having an asymmetrical shape between adjacent unit ribs.

A fixing groove 21 is dug in the outer surface of the cable holder 10 to fix the cable holder to the plate plate by inserting the fixing groove in the plate plate.

The rib 60 of the cable holder picks up the cable 40 mounted inside the cable holder, and serves to have a friction force between the cable 40 and the inner surface of the cable holder 10. This rib 60 is composed of a plurality of unit ribs (61, 62, 62), unit ribs are formed in sequence to form the entire rib.

As described above, the rib 60 has a structure in which a plurality of unit ribs in the form of ribs protrude inwardly, thereby picking up the cable 40 placed inside the cable holder 10 to have a frictional force. In order to have a large frictional force through the neighboring unit ribs (61, 62, 63) is to have an asymmetrical shape with each other.

To this end, by slightly rotating the shape of the unit ribs and asymmetrically by forming the unit ribs one by one, when viewing the ribs 60 as a whole, each unit rib does not have the same regular appearance.

Referring to the rib shape of FIG. 3, each of the unit ribs has a semi-square shape instead of a semi-circular shape, and it can be seen that the unit ribs having the semi-square shape are sequentially rotated at a predetermined angle.

Therefore, each unit rib in a state in which the body 20 and the cover 30 are combined to form a square shape, but is formed to rotate in a predetermined angle with the neighboring unit ribs.

For example, the shape structure of the first unit rib 61 has a semi-square structure in the shape of the shape of the second unit rib 62, and the shape structure of the second unit rib 62 has the shape of the shape of the shape of the shape in which the first unit rib 61 is rotated 45 °. The shape of the third unit ribs 63 has a square structure, and the second unit ribs 62 may be rotated by 45 ° to have a semi-square structure having a ∨ shape.

Therefore, each unit rib has a semi-square shape, but the shape of each unit rib is asymmetrically formed, and as a result, the entire rib has a different atypical shape between neighboring unit ribs. .

 By forming the ribs asymmetrically as described above, the area of the cable collected in each unit rib is changed to increase the overall friction force. FIG. 5 is a cross-sectional view showing the shape of the cable deformed by the rib when the cable is placed in the body of the cable holder. Referring to FIG. 5, each unit rib formed asymmetrically in a semi-square shape. It can be seen that the deformation of the cable is different.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention is not to be determined by the embodiments described above, but will be apparent in the claims as well as equivalent scope.

1 is a perspective view showing the structure of a conventional cable holder.

2 is a view showing a state in which the cable holder is fixed to the plate plate in the conventional cable holder structure.

3 is a view showing a perspective view of a cable holder according to an embodiment of the present invention.

4 is a diagram illustrating a cable holder equipped with a cable according to an embodiment of the present invention.

5 is a cross-sectional view showing the shape of the cable deformed by the rib when the cable is placed in the body of the cable holder according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: cable holder 20: body

40: rope 60: rib

Claims (4)

A body lying under the cable; A cover covering a cable placed on the body; Rib consisting of a plurality of unit ribs respectively formed on the inner surface of the body and the cover A plurality of unit ribs formed on an inner surface of the body are asymmetrical with each other and adjacent unit ribs in the body, and a plurality of unit ribs formed on an inner surface of the cover are adjacent to each other within the cover. Cable holder, characterized in that formed in the asymmetrical shape with the unit ribs. The cable holder of claim 1, wherein the unit ribs have a semi-square shape and are sequentially formed on an inner surface of the unit ribs in a shape that is rotated at a predetermined angle with respect to neighboring unit ribs. The cable holder of claim 2, wherein the unit ribs are sequentially formed on the inner surface in a semi-square shape in which the unit ribs are rotated by 45 ° with respect to the neighboring unit ribs. The cable holder according to claim 1, wherein a fixing groove for fixing the cable holder to the plate plate is formed on the outer surface.

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