KR101019176B1 - Tensioning apparatus for steel wire rope - Google Patents

Abstract

The present invention relates to a tension device installed on the structure (S) to tension the steel wire rope (W). The present invention, the fixing unit 50 having a protrusion plate 51 fixed to the structure (S); A screw rod (62) fastened to the fixing unit (50); A reaction force plate 64 inserted into the screw rod 62 to be spaced apart from the protruding plate 51 and through which the steel wire rope W passes; A moving member (70) interposed between the reaction plate (64) and the protrusion plate (51) to press and move the reaction plate (64) while its length is elongated; A traction port (80) for pulling the steel wire rope (W) while moving together with the reaction plate (64); It includes; a fixture 90 for fixing the reaction plate (64) moved together with the traction hole (80). The present invention can easily tension the steel wire rope (W) by using the stretching force of the movable member (70).

Structures, liners, extension, traction, tension

Description

Tensioner for steel wire rope {TENSIONING APPARATUS FOR STEEL WIRE ROPE}

The present invention relates to a tension device for a steel wire rope is installed on the structure to tension the steel wire, and more particularly relates to a tension device for the steel wire rope to tension the steel wire installed on the concrete structure.

In general, concrete structures, such as bridges and beams, have steel wire ropes disposed along the length of the structure to prevent sagging. The steel wire rope is installed in the tension state to support the pulled structure in the lower portion of the structure. Most of these wire ropes are tensioned after being routed to the ends of the structure. At this time, the wire rope is tensioned by the external wire reinforcement method.

However, this external wire reinforcement method has to draw the wire rope in a narrow work space formed at the end of the steel wire rope, there is a disadvantage that can not be completely tensioned, there is a disadvantage that can not be strong tension wire rope.

The present invention has been created to solve the conventional problems as described above, and is configured to be inserted into a narrow space formed at the end of the steel wire rope for a steel wire rope that can strongly stiffen the rigid rope even in a narrow work space The purpose is to provide a tension device.

The tension device for a steel wire rope according to the present invention for achieving the above object, in the tension device for tensioning the steel wire rope is installed on the structure, is fixed to the structure integrally fixed, the steel wire rope penetrates on one side A fixing unit in which a protruding plate is formed; A plurality of screw rods having one end fastened to the fixing unit; A reaction force plate inserted into the screw rod in parallel with the protruding plate to be spaced apart from each other, and through which the steel wire rope passes; A moving member interposed between the reaction force plate and the protrusion plate, the reaction member moving the reaction force plate along the screw rod by pressing the reaction force plate while the length thereof is extended; A traction port for pulling the steel wire rope while moving together with the reaction plate by the moving member while holding the steel wire rope; And a fixture for fixing the reaction force plate moved together with the tow in the moved position. The fixing unit includes: a fixing pin fixed to the structure by being embedded in the structure; A coupling plate coupled to the fixing pin; An attachment plate connected to the coupling plate in the same manner and attached to the surface of the structure, wherein the protrusion plate is coupled in an orthogonal state; And a rib coupled to the attachment plate to support the protrusion plate, wherein the moving member is a rubber material air bag that is stretched and contracted by air filled therein: the fastener is in close contact with the support nut to loosen the support nut. It further comprises a lock nut for preventing the: Removably fixing the movable member between the reaction plate and the protrusion plate, and further comprising a fastening screw penetrated to the reaction plate or the protrusion plate through the moving member It features.

In the tension device for steel wire rope according to the present invention as described above, the reaction force plate is moved together with the tow by the elongation of the moving member, it is possible to strongly tension the steel wire rope through the moving force of the tow.

Hereinafter, the tension device for a steel wire rope according to the present invention with reference to the accompanying drawings as follows, Figure 1 is a side view of the tension device for a steel wire rope according to an embodiment of the present invention, Figure 2 1 is a bottom view of the tension device for a steel wire rope shown in Figure 1, Figure 3 is a perspective view showing a state of use of the tension device for a steel wire rope shown in FIG.

Referring to Figure 1, the tension device for a steel wire rope according to an embodiment of the present invention as shown in the fixing unit 50; Screw rod 62; Reaction plate 64; Moving member 70; A retractor 80; Fixture 90; includes. The following describes these components in more detail.

As shown in the fixing unit 50, a protrusion plate 51 through which the steel wire rope W penetrates is formed at one side thereof. The fixing unit 50 is fixedly fixed to the structure (S) to be described later.

Here, the above-described fixing unit 50 is, for example, as shown in the fixed pin 53 is embedded in the structure (S) to be described later; A coupling plate 55 coupled to the fixing pin 53; An attachment plate 57 connected to the coupling plate 55 in the same manner and attached to the surface of the structure S, and the protrusion plate 51 being coupled in an orthogonal state; And a rib 59 coupled to the attachment plate 57 to support the protrusion plate 51.

Screw rod 62 is composed of a plurality as shown, one end is fastened to the fixing unit 50. At this time, one end of the screw rod 62 is fastened to the protruding plate 51 of the fixing unit 50. Screw rod 62 has a fixed end as one end is fixed to the fastening plate 51 as shown, the other end of the opposite side forms a free end. The threaded rod 62 may use a stud bolt.

The reaction force plate 64 is fitted to the threaded rod 62 as shown and is parallel to the protrusion plate 51 in a spaced state. The reaction force plate 64 is passed through the steel wire rope (W) as shown.

The moving member 70 is interposed between the reaction force plate 64 and the protrusion plate 51 as shown. The moving member 70 is the length is elongated to press the reaction plate 64 to move the reaction plate 64 along the screw rod (62).

Here, the above-described moving member 70 is stretched by, for example, the hydraulic pressure filled therein, as shown in the enlarged view "A" in the drawing, the hydraulic jack having a through hole 72a through which the steel wire rope (W) penetrates. It can comprise with 72. That is, the hydraulic jack 72 may be formed in a cylindrical shape. In other words, the hydraulic jack 72 is a cylinder filled with the fluid and the rod inserted into the cylinder is stretched by the hydraulic pressure of the cylinder can be formed as shown in the center enlarged hollow. Of course, the steel wire rope (W) passes through the hydraulic jack 72 through this hollow.

Alternatively, the above-mentioned moving member 70 may be constituted by a rubber material airbag 74 that is stretched by air filled therein as shown in the enlarged view "B" in the drawing. At this time, the airbag 74 is preferably made of the same material as the tire of the vehicle to provide a strong air pressure. In this case, the airbag 74 may be configured in plural as shown in enlargement, or alternatively, may be configured in singular.

 The traction opening 80 pulls the steel wire rope W while moving together with the reaction plate 64 by the moving member 70 in a state where the steel wire rope W is held. That is, the traction port 80 pulls the steel wire rope W taut while moving.

The fixture 90 fixes the reaction force plate 64 moved together with the tow 80 in the moved position. The fastener 90 may be configured as, for example, a support nut 92 fastened to the screw rod 62 as shown. This support nut 92 may be installed on both sides of the reaction plate 64 to support both sides of the reaction plate 64 as shown in the enlarged view "C" in the drawing.

The fastener 90 as shown in the enlarged view "C" is in close contact with the support nut 92 to prevent the loosening of the support nut 92, it is preferable to further comprise a configuration . That is, the lock nut 94 is in close contact with the support nut 92 to support the support nut 92 to prevent the support nut 92 from loosening.

Referring to FIG. 2, the above-described pull hole 80 is configured in plural as shown. These tow holes 80 may be configured in pairs as shown in the reaction force plate 64, respectively. In addition, a pair of tow holes 80 may be provided at each end of the movable member 70 toward the front end side of the movable member 70, that is, toward the protrusion plate 51 of the fixing unit 50, as shown. . At this time, the towing hole 80 installed in the moving member 70 may be integrally fixed to the moving member 70 by the connector 75 as shown.

Here, the above-mentioned pull hole 80 is a wedge-shaped conical collet 82 fitted to the outer circumferential surface of the steel wire rope (W) as shown in the enlarged views "D" and "E" in the drawing; And a housing 84 having a cone-shaped inner circumferential surface into which the collet 82 is inserted. The collet 82 is fitted to the outer circumferential surface of the steel wire rope (W) when the reaction plate 62 is moved by the moving member to move together with the reaction plate (62).

On the other hand, the above-described moving member 70 is preferably configured in a quantity corresponding to the quantity of steel wire rope (W) as shown. That is, the moving member 70 is composed of a plurality as shown so that the plurality of steel wire rope (W) is tensioned when a plurality of steel wire rope (W). In particular, the moving member 70 is completely matched with the quantity of the steel wire rope (W) when the steel wire rope (W) is configured to penetrate the center as shown.

However, the moving member 70 may be configured differently from the quantity of steel wire rope (W) as shown in the enlarged view "F" in the drawing. At this time, the moving member 70 is disposed between the plurality of steel wire rope (W) as shown enlarged. The movable member 70 presses the reaction plate 64 while extending in a state of supporting the protrusion plate 51 of the fixing unit 50.

Here, the moving member 70 as described above may be configured in a different quantity than the steel wire rope (W) as it is composed of a hydraulic jack 72 through which the steel wire rope (W) is not penetrated. That is, the moving member 70 may be configured in a different quantity than the steel wire rope (W) to be composed of a hydraulic jack 72 that does not have a hollow to expand and contract by the hydraulic pressure of the fluid filled therein.

Thus, when the moving member 70 is configured as shown enlarged, the retractor 80 is connected to the protruding plate 51 of the fixing unit 50 by the fixing member 86 as shown in the enlarged view "F". It is fixed. The fixing member 86 is a thread (84a) formed on the outer peripheral surface of the housing 84 in which the collet 82 is built; And a nut (N) which is screwed with the screw thread 84a and fixed to the protruding plate 51 of the fixing unit 50 by welding. That is, the traction opening 80 is fixed to the protruding plate 51 by the screwing of the screw thread 84a and the nut N.

On the other hand, the embodiment of the present invention further comprises a fastener for detachably fixing the moving member 70 between the reaction plate (64) and the protrusion plate (51). Such a fastener may be configured to include, for example, a fastening screw SC that penetrates the moving member 70 and is fastened to the reaction plate 64 or the protruding plate 51. Of course, when the moving member 70 is implemented as an air bag, the fastening screw (SC) should be penetrated so that the air inside the air bag does not leak to the fastening screw (SC). For example, the support may be installed on the fixing unit 50 to support the moving member 70. In this case, the support may be a plate or a rod supporting the lower portion of the movable member 70.

Referring to FIG. 3, the fixing unit 50 is fixedly fixed to the structure S as shown. In addition, the steel wire rope (W) is wired to the lower portion of the structure (S) as shown. At this time, the steel wire rope (W) passes through the moving member 70 as shown. Here, the illustrated moving member 70 shows a hydraulic jack 72 through which the steel wire rope (W) through the hollow. Therefore, the moving member 70 to be described will be described as an example of the hydraulic jack 72 is hollow.

The hydraulic jack 72 is disposed between the protrusion plate 51 and the reaction force plate 64 of the fixing unit 50, as shown, is filled with the fluid by the hydraulic pump not shown. This hydraulic jack 72 presses the reaction plate 64 in the direction of the arrow on the drawing while extending by the hydraulic pressure of the fluid to be filled. Thus, the reaction force plate 64 moves in the direction of the arrow along the screw rod 62. Of course, the reaction plate 64 is moved as the support nut 92 of the fixture 90 is released. At this time, the traction opening 80 in the rear of the reaction plate 64 is tensioned by pulling the steel wire rope (W) taut while moving with the reaction plate (64).

As such, when the steel wire rope W is tensioned, the support nut 92 is locked again. At this time, the support nut 92 is locked at the front and rear of the reaction plate 64, respectively. Accordingly, the reaction force plate 64 is fixed at the moved position. Of course, the retractor 80 at the rear of the reaction plate 64 is fixed in the moving position together with the reaction plate 64. Therefore, the steel wire rope (W) maintains the tension state because the tow 80 is fixed to the moving state.

When the fixing of the traction opening 80 is completed in this way, the fluid charged in the hydraulic jack 72 is recovered and removed. At this time, the hydraulic jack 72 is contracted to restore the circle. As such, when the contraction of the hydraulic jack 72 is completed, the hydraulic jack 72 is removed using a fastener. Of course, the hydraulic jack 72 is easily removed due to the contracted length.

The tension device for steel wire rope according to the embodiment of the present invention as described above, because the tension of the steel wire rope (W) by using the moving member 70, such as the hydraulic jack 72, as described above of the steel wire rope (W) Even in a narrow work space provided at the end side, the steel wire rope (W) can be strongly tensioned.

Since the above embodiments are merely illustrative of preferred embodiments of the present invention, the scope of application of the present invention is not limited to the above, and appropriate modifications are possible within the scope of the same idea. Therefore, since the shape and structure of each component shown in the embodiment of the present invention can be carried out by deformation, it is natural that the modification of the shape and structure belong to the appended claims of the present invention.

1 is a side view of a tension device for a steel wire rope according to an embodiment of the present invention;

Figure 2 is a bottom view of the tension device for a steel wire rope shown in FIG. And

Figure 3 is a perspective view showing a state of use of the tension device for steel wire rope shown in FIG.

<Description of Major Symbols in Drawing>

50: Fuser

62: screw rod

64: reaction plate

70: moving member

72: hydraulic jack

80: tow

90: fixture

Claims (13)

In the tension device is installed on the structure (S) to tension the steel wire rope (W), A fixing unit (50) fixed and fixed to the structure (S) and having a protruding plate (51) through which the steel wire rope (W) penetrates; A plurality of screw rods 62 having one end fastened to the fixing unit 50; A reaction force plate 64 inserted into the screw rod 62 to be parallel to the protruding plate 51 and spaced apart from each other, and through which the steel wire rope W passes; The moving member 70 interposed between the reaction plate 64 and the protruding plate 51 to press the reaction plate 64 while the length thereof is extended to move the reaction plate 64 along the screw rod 62. ; A traction port (80) for pulling the steel wire rope (W) while moving together with the reaction plate (64) by the moving member (70) while holding the steel wire rope (W); And And a fastener (90) having a support nut (92) for fixing the reaction force plate (64) moved together with the tow (80) to a moved position.  The fixing unit 50, A fixing pin (53) fixed by being embedded in the structure (S); A coupling plate 55 coupled to the fixing pin 53; An attachment plate 57 connected to the coupling plate 55 in the same manner and attached to the surface of the structure S, wherein the protrusion plate 51 is coupled in an orthogonal state; And And a rib 59 coupled to the attachment plate 57 to support the protrusion plate 51. The moving member 70 is a rubber material air bag 74 stretched by the air filled therein: The fixture 90 further includes a lock nut 94 in close contact with the support nut 92 to prevent loosening of the support nut 92: The movable member 70 is detachably fixed between the reaction force plate 64 and the protrusion plate 51, and is fastened to the reaction force plate 64 or the protrusion plate 51 by penetrating the movement member 70. Steel wire rope tension device characterized in that it further comprises a fastening screw (SC). delete delete delete delete delete delete delete delete delete delete delete delete

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