KR100923525B1 - Cable Socket Swaging Apparatus - Google Patents

Abstract

PURPOSE: A cable socket swaging apparatus is provided to increase the cable fixing force and finish the exterior surface of a cable socket uniform by compressing the cable socket with uniform pressure using rotating plates. CONSTITUTION: A cable socket swaging apparatus comprises a fixing plate(10), a socket fixture(60), a pair of rotating plates(30), and a relative moving unit. The fixing plate is coupled with a fixing unit of a cable socket to fix the cable socket temporarily. The rotating plates having a circular or sector-shaped cross section are arranged at an interval. The relative moving unit moves the socket fixture or the rotating plates.

Description

Cable Socket Swaging Apparatus

The present invention relates to a cable swaging device, and more particularly, to press the outer circumferential surface of the cable socket so that the cable can be fixed to the cable socket while the cable is inserted into the cable socket used for fixing the end of the cable A cable swaging device.

Cables have been widely used as structural materials, and because of their characteristics, they cannot be used as structural materials to support tensile forces. A typical example of such a cable used as a structural member is a cable used in a bridge. Cable bridges include cable-stayed bridges and suspension bridges, and in recent years, cable bridges are often used in small bridges.

In order to use the cable as a structural member, the end of the cable must be fixed. As a means of fixing the end of the cable, as shown in FIG. 1, the wedge 1 and the wedge block 2 can be used to fix the cable C. It is also possible to use the cable socket 3 as shown in FIG.

The cable receptacle 3 is provided with a cable receptacle 4 so that the cable C is connected to the cable socket 3 by pressing the outer circumferential surface of the cable receptacle 3 while the cable C is inserted into the cable receptacle 4. ) Is fixed, and the threaded portion (5) is provided so that the cable (C) can be coupled to the configuration for fixing to the supporting structure.

The outer diameter of the cable socket (3) is determined by the size of the cable, it may be a few centimeters, sometimes over 10 centimeters.

The press was conventionally used as a means for fixing the cable C by pressing the outer peripheral surface of the cable socket 3.

In order to fix the cable (C) in the cable socket (3), a force of several tons or more should be applied. When the size of the cable socket (3) is small, a press generally used may be used. In the case of large scale, the pressing force must also be large, so it is difficult to obtain an appropriate press device capable of exerting such a large pressing force, and there was a problem. The compartments were divided and pressurized as shown.

As described above, in case of dividing and pressing the partitions, it is impossible to pressurize with the same pressing force for each section, and because of the difference in pressing force, the outer circumferential surface of the cable socket 3 is uneven, which requires a separate surface processing process (wear). .

The present invention was derived to solve the above-mentioned problems, the problem to be solved by the present invention is to increase the fixing force of the cable by pressing with a uniform force irrespective of the outer diameter of the cable socket, even after the pressing is completed on the outer peripheral surface of the cable socket It is to provide a cable socket swaging device that does not require additional surface treatment.

The present invention as a solution to the above problem,

In the cable socket swaging device for fixing the cable to the cable socket is provided with a hollow portion on one side and a fixing portion is provided on the other side,

Fixing plate;

A socket fixture coupled to a fixing part of the cable socket to temporarily fix the cable socket;

A pair of rotary plates whose cross sections have a circular or fan shape and are spaced apart at regular intervals; And,

Relative movement means for moving said socket fixture or said rotating plate so that said cable socket fixture and said rotating plate can move relative with said cable socket disposed between said pair of rotating plates; Including,

As the cable plate of the cable socket is located between the pair of rotary plates, the cable plate is pressed by the pair of rotary plates as the rotary plate and the socket fixture move relative to each other. It provides a cable socket swaging device, characterized in that fixed to the cable receiving portion.

The relative movement means,

A plate reciprocating on the fixed plate and rotatably coupling the pair of rotating plates;

Guide means for guiding the movement of the movable plate;

And a driving means fixed to the fixed plate to allow the movable plate to reciprocate.

The socket fixture is preferably connected to the drive means.

At this time, the rotating plate is preferably a semi-circular shape.

On the other hand, the pair of rotating plate is detachably coupled to the moving plate so that its size can be changed according to the diameter of the cable socket.

The guide means,

A guide groove provided in the fixing plate;

It is provided in the lower portion of the moving plate is a guide protrusion that can be coupled to the guide groove.

According to the present invention, since the outer peripheral surface of the cable socket is pressed by the same pressure by the rotating body, the cable can be uniformly pressed to provide a cable socket swaging device in which the fixing force of the cable is increased and the outer peripheral surface of the cable socket is evenly finished.

Hereinafter, by describing one preferred embodiment of the present invention will be presented a specific content for the practice of the present invention.

Figure 4 is a view for explaining a cable socket swaging device according to an embodiment of the present invention, Figures 5 to 7 is the cable socket swaging device shown in Figure 4 by pressing the outer peripheral surface of the cable socket by pressing the cable 8 is a cross-sectional view of the cable socket pressurized using the cable socket swaging device shown in FIG. 4.

Cable socket swaging device according to the present invention is a device for pressing the outer circumferential surface of the cable socket to secure the cable to the cable socket, the fixing plate 10, the socket fixture 60 and a pair of rotating plate 30 and It consists of a relative movement means.

In this embodiment, the relative movement means is composed of a moving plate 20, a guide means 40 and a driving means 50, so that the cable socket swaging device according to the present embodiment is shown in FIG. , A fixed plate 10, a moving plate 20, a rotating plate 30, a guide means 40, a driving means 50, and a socket fixture 60.

The fixing plate 10 may use an iron plate having a predetermined thickness in a plate-like configuration for fixing the driving means 50, and may be used by fixing the fixing plate 10 to another structure if necessary.

The moving plate 20 is a plate that reciprocates on the fixed plate 10, and may use an iron plate having a constant thickness like the fixed plate 10.

The rotating plate 30 is rotatably coupled to the moving plate 20 to move together when the moving plate 20 moves, and also rotates in the moving process. Rotating plate 30 is to be rotatably coupled to the fixed plate 10 in this embodiment is to be coupled to the fixed plate 10 via the moving plate 20.

The cross-section of the rotating plate 30 has a circular or fan shape, in this embodiment the rotating plate 30 is manufactured in a semi-circular shape. That is to say that the fan-shaped angle is 180 degrees fan shape is not necessarily limited to a semi-circular shape, the angle of the fan-shaped may increase or decrease depending on the length or outer diameter of the cable socket (3), the cross section of the rotating plate 30 It could be a perfect prototype.

On the other hand, the rotating plate 30 is coupled to be separated from the moving plate 20, because it is necessary to change the angle of the radius or fan shape according to the length or outer diameter of the cable socket (3). If the outer diameter of the cable socket (3) is large, it is necessary to increase the distance between the rotating plate 30, in which case the use of a rotating plate 30 of small radius, the cable (C) of the cable socket (3) The longer the length of the part fixing the larger the radius of the rotating plate 30 accordingly, the shape is also made closer to a more complete circle (a large fan of the fan angle) or the rotating plate 30 of the circular cross section Use it.

In addition, the rotating plate 30 is configured to be able to change the installation position to adjust the gap when the outer diameter of the receiving portion 4 of the cable socket 3 in the installation position is large, for example, Although not shown, a method of forming a rotating shaft in the center of the rotating plate 30 and forming a hole in which the rotating shaft is fitted may be formed at a predetermined interval in the moving plate 20.

The guide means 40 is a configuration for guiding the moving plate 20 to reciprocate on the fixed plate 10, and the guide groove 41 and the moving plate 20 formed in the fixed plate 10. It is composed of a guide protrusion 42 formed on the bottom. The guide means 40 can be changed as necessary. For example, a guide groove may be formed in the movable plate 20, and guide protrusions may be formed in the fixed plate 10, and a rail may be formed in the fixed plate 10. The moving plate 20 may be configured to move on the rail.

The drive means 50 is fixed to the fixed plate 10 as a configuration for providing a driving force for the movable plate 20 to reciprocate movement in this embodiment is a hydraulic device, the hydraulic cylinder is moved by the hydraulic pressure The moving plate 20 is engaged with the cylinder to move.

The socket fixture 60 is for temporarily fixing the cable socket 3, and as shown in FIG. 5) is formed, the socket fixture 60 is a configuration having a screw groove (not shown) that can be combined with the screw portion (5). The socket fixture 60 may also be configured to be interchangeable in accordance with the size of the cable socket (3). In this embodiment, the socket fixture 60 is connected to the drive means 50.

Hereinafter, the function, operation, and effect of each configuration will be described by explaining a method of fixing the cable to the cable socket by pressing the outer circumferential surface of the cable socket using the cable socket swaging device having the described configuration.

5 to 7 are views for explaining a method for pressing the outer peripheral surface of the cable socket using the cable socket swaging device of the present embodiment.

First, as shown in FIG. 5, the cable socket 3 is inserted between the rotating plates 30 while the moving plate 20 is moved toward the driving means 50. In the present embodiment, since the rotating plate 30 is in the shape of a semi-circle, it is possible to insert the cable socket 3 relatively easily. On the other hand, even if the rotating plate 30 is a complete circle, as shown in Fig. 2, the cable socket 3 is generally provided with a screw portion 5, the outer diameter of the screw portion 5 is the outer diameter of the cable receiving portion 4 As it is smaller, the threaded portion 5 can be inserted between the rotating plates 30.

When the cable socket 3 is inserted between the pair of rotating plates 30, the cable socket 3 is temporarily fixed to the socket fixture 60.

In this state, as shown in FIGS. 6 and 7, when the moving plate 20 moves away from the driving means 50 by the driving means 50, the rotating plate 30 moves in the process of moving the moving plate 20. ) Rotates to exert pressure on the cable receptacle 4 of the cable socket 3.

At this time, since the rotation plate 30 has a semicircular shape, the distances from the center to the outer circumferential surface are all the same, so that the same pressure can be applied to the cable receiving portion 4. (On the other hand, if the rotating plate 30 is not a semicircle but has a circular arc shape or a circular shape with different arc angles, the distance from the center to the outer circumferential surface is the same, so that the same effect occurs. Unlike in the case of pressurization by applying the same pressure to the outer circumferential surface of the cable socket 3, the shape of the surface is made constant (the cross-sectional view is shown in Fig. 8, but in the state where the pressing is completed, regardless of the position of cutting the cross section) The cross section is formed.) By pressing at a uniform pressure, problems that may occur due to the relatively small pressing force of a specific part can be prevented in advance.

On the other hand, when the diameter of the cable is thick, it is possible to cope by using the rotating plate 30 having a small outer diameter or by increasing the distance between the pair of rotating plates 30, and the length of the cable receiving portion 4 Is long, it is possible to respond by increasing the arc angle of the rotating plate 30 (using the rotating plate 30 close to the circular shape) or by increasing the diameter of the rotating plate 30, so that regardless of the cable socket There are also advantages to use.

In the above, the embodiment in which the rotating plate moves relative to the socket fixture by the moving plate while the socket fixture is fixed to the fixing plate has been described. However, in the embodiment described, the configuration described as the moving plate is fixed to the fixing plate. The outer circumference of the cable socket by moving the socket fixture (relatively moving the socket fixture and the rotating play) using a hydraulic device as a driving means while the rotating plate is rotatable with respect to the fixed plate but not movable, without moving plate. The cable can be fixed to the cable socket by pressing.

On the other hand, in the described embodiment, the moving plate moving with the rotating plate in the direction away from the socket fixture to press the outer peripheral surface of the cable socket but the movement direction is reversed can produce the same effect and such a use deformation It should be regarded as included in the embodiments of the present invention.

In the above description of the preferred embodiments of the present invention, specific details for the implementation of the present invention have been provided, but are not limited to the embodiments described in the technical idea of the present invention, and the scope does not deviate from the technical idea of the present invention. It can be composed of various types of cable socket swaging device inside.

1 is a view for explaining a cable fixing means using a wedge and a wedge block.

2 is a view for explaining a cable socket.

3 is a view for explaining the splitting and pressing the cable socket.

4 is a view for explaining a cable socket swaging device according to an embodiment of the present invention.

5 to 7 are views for explaining the fixing of the cable to the cable socket by pressing the outer peripheral surface of the cable socket using the cable socket swaging device shown in FIG.

8 is a cross-sectional view of the cable socket pressurized using the cable socket swaging device shown in FIG.

&& Explanation of symbols for the main parts of the drawing &&

10: fixed plate

20: moving plate

30: rotating plate

40: guide means

50: driving means

60: socket fixture

Claims (6)

In the cable socket swaging device for fixing the cable to the cable socket is provided with a hollow portion on one side and a fixing portion is provided on the other side, Fixing plate; A socket fixture coupled to a fixing part of the cable socket to temporarily fix the cable socket; A pair of rotary plates whose cross sections have a circular or fan shape and are spaced apart at regular intervals; And, Relative movement means for moving said socket fixture or said rotating plate so that said cable socket fixture and said rotating plate can move relative with said cable socket disposed between said pair of rotating plates; Including, As the cable plate of the cable socket is located between the pair of rotary plates, the cable plate is pressed by the pair of rotary plates as the rotary plate and the socket fixture move relative to each other. Cable socket swaging device, characterized in that fixed to the cable receiving portion. The method of claim 1, The relative movement means, A plate reciprocating on the fixed plate and rotatably coupling the pair of rotating plates; Guide means for guiding the movement of the movable plate; And a driving means fixed to the fixed plate to allow the movable plate to reciprocate. Cable socket swaging device, characterized in that the socket fixture is connected to the drive means. The method of claim 1, The cable socket swaging device, characterized in that the rotating plate is a semi-circular shape. The method of claim 1, The pair of rotating plate is a cable socket swaging device, characterized in that detachably coupled to the moving plate so that its size can be changed according to the diameter of the cable socket. The method of claim 4, wherein Cable socket swaging device, it characterized in that the distance between the pair of rotating plate can be adjusted according to the diameter of the cable socket. The method of claim 2, The guide means, A guide groove provided in the fixing plate; Cable socket swaging device, characterized in that the guide projection which is provided in the lower portion of the moving plate can be coupled to the guide groove.

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