KR101609619B1 - Grip type wedge for the unbonded p.c strand fixing portion - Google Patents

Abstract

A grip wedge according to the present invention relates to a fixating and settling apparatus used when a strand is fixated or connected to a member in a cable bridge or an arch bridge such as a suspension bridge and a cable stayed bridge using the strand or, a bridge or a structure using a PSC girder into which prestressing is introduced by tensioning the strand. The grip wedge comprises: a wedge part composed of a plurality of divided wedges to have a conical shape and provided with a wedge hole, into which the strand is inserted, therein to press and fixate the strand by a wedge operation; and a grip part provided with a grip hole into which the strand is inserted within a grip body having a cylindrical shape to press and fixate the strand by a pressing operation of the grip body, wherein the wedge part is positioned at a side, where the strand accesses, the grip part is positioned at a side from which the strand is extracted, and the position of each of the divided wedges is fixated with respect to the strand as an end of the strand is pressed and fixated by the grip part.

Description

{GRIP TYPE WEDGE FOR THE UNBONDED P.C STRAND FIXING PORTION}

The present invention relates to a bridge or a structure using a PSC girder in which a cable bridge such as a suspension bridge or a cable-stayed bridge using a stranded wire or an arch bridge or a prestress introduced by tensioning a strand is used, To a fixation and fixation device.

Stranded wires made by twisting several strands of PC steel wire are excellent in adhesion performance and tensile stiffness is very high. Therefore, by utilizing these excellent properties, it is possible to use a stranded wire as a means for allowing a stranded wire to directly support a load due to an external force, or introducing stress into a member such as concrete in advance, And the stiffness is increased so as to cancel out.

In the case of constructing a structure or making a member by using the tensile stiffness of the strand, the one end of the strand is fixed to the upper part of the structure and the other end is suspended to support the member positioned below, The one end of the strand is fixed and fixed to one side, and the other end of the strand is pulled to apply a tensile force. Then, the tensile force acts on the concrete member to increase the rigidity of the concrete member. The state has a great influence on structural stability, workability and quality.

Meanwhile, there are various methods of fixing and fixing the stranded wire, but the most typical method of fixing and fixing the stranded wire is a method using a grip and a method using a wedge.

The gripping method is to press the grips and to plasticize them so that the strands are fixed to the grips and consequently the extended section is formed at the ends of the strands. It is mainly used for fixation of the cable fixture for cable-stayed bridge or continuous prestressing using PSC girder Or couplings for connection of short strands for poststressing.

However, in the case of this grip fixing method, the side of the grip on the draw-in side with small area in the portion fixed by the grip comes into contact with the anchor head or the coupling surface, and the large concentrated load on the contact portion causes fatigue There is a problem in that there is a high possibility that slippage occurs between the strand and the grip because the fixing force is weaker than the wedge having the same length.

The wedge-based method is a method in which a plurality of divided wedges are inserted into an inclined fixing hole of an anchor head so that a stranded wire is fixed to an anchor head by a wedge action, , Which is a very efficient settlement method.

Such wedge fixation typically involves assembling a wedge at both ends of a strand that protrudes out of the fitting anchor and then pushing the wedge into the fixation hole of the anchor head and tensioning the strand so that no slip occurs at the contact surface between the wedge and the strand, The tension is introduced by using the jack. At this time, in the process of adjusting the protruding length of the strand for tension, it may happen that the strand is pushed or pulled again in the opposite direction of the wedge assembled on the opposite side.

Such pushing and pulling of the strand allows the setting of the already installed wedge to be disturbed and the setting of such an incorrect wedge causes the deflection force due to the irregular wedges to be applied to the strand, And the damage of the shash tube and the like, thereby causing an air delay and additional construction cost, and further causing damage to the human life due to a safety accident. Therefore, when the strand is pushed and pulled from one side as described above, a separate operator and equipment must be additionally disposed so that accurate setting of the wedge is maintained on the opposite side, which causes another expenditure of the cost.

Recently, a number of researches have been made on a setting means for allowing wedges divided into a plurality of wedges to be inserted at the same intervals without deviating from each other. For example, 1037258 entitled " Fixing wedge for PC steel ".

1 (a), the fixing wedge 10 according to the prior art is formed into a conical shape by combining a plurality of divided pieces 11 to grip the PC steel 30 A retaining ring 20 made of an elastic material for retaining the conical shape of the split piece 11 is provided and the retaining ring 20 is provided with projections 21 that fit in the clearance between the split pieces 11 Consists of. An annular groove 15 into which the above-mentioned restricting ring 20 is inserted is formed on the outer periphery of the large-diameter side of the dividing piece 11.

The fixation wedge 10 constructed as described above is inserted into the annular groove 15 of the fixation ring 20 so that the degree of insertion of each of the split pieces 11 coincides with each other, (21) is sandwiched between the divided pieces (11) so as to maintain the same clearance between the divided pieces (11).

That is, as shown in Fig. 1 (b), when the tensioning operation (pulling the PC steel wire) of the PC steel wire is performed on the other side, The piece 11 continues to maintain its uniform arrangement, and after the fixation, the projection 21 is compressed and deformed, but the uniform arrangement of the split pieces 11 remains unchanged.

However, each of the divided pieces 11 may have different embeddability depending on the magnitude of the frictional force and the deviation of the external force with respect to the inner surface of the anchor head and the outer surface of the PC steel wire, while the restricting ring 20 has the annular groove Even if the restricting ring 20 is inserted into the annular groove 15, the resilient piece 20 can not be inserted into the annular groove 15 even when the resilient ring 20 is inserted into the annular groove 15. [ 11 can not be completely restrained. It is also assumed that the protrusions 21 of the constraining ring 20 are also deformed at the same rate among the respective split pieces 11 but the deviation of the stress generated when the degree of insertion of the split pieces 11 is changed, 21, the degree of deformation is made different, so that it is practically not easy to keep the equal interval of the split pieces 11.

On the other hand, irregularities such as threads can be formed on the inner circumferential surface of the wedge, and these irregularities increase the fixing efficiency by improving the frictional force while preventing the sliding phenomenon with the stranded wire while pressing the surface of the strand. However, an excessively large fixing force may cause the unevenness to form a notch in the strand of strand to break the strand of the strand. This phenomenon occurs mainly at the tip of the wedge into which the strand is drawn.

KR 10-1037258 B1 KR 10-2006-0004665 A

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems of the prior arts described above, and to provide a fixing means in which the setting state of the wedge is not disturbed at all or slipping does not occur even if the strand is pushed and pulled for tension.

Another object of the present invention is to provide a fixing means capable of having a sufficient fixing force even if a very large pressure input does not act on the wedge, and causing no damage to the stranded wire due to excessive pressure input of the wedge .

An object of the present invention is to provide a fixing means for efficiently performing a tensioning operation without disposing a separate operator or equipment on the opposite side of the tensioning operation.

According to a most preferred embodiment of the present invention for solving the above problems, a wedge hole having a conical shape and having a stranded wire inserted therein is provided. The wedge hole is pressed by the wedge action, And a grip portion having a grip hole for inserting a stranded wire into the inside of the grip body having a cylindrical shape and in which the stranded wire is pressed and fixed by a pressing action of the grip body, wherein the wedge portion is located on the side where the stranded wire is drawn, And the position of each divided wedge with respect to the stranded wire is fixed while the distal end of the stranded wire is clamped and fixed by the gripped portion.

According to another embodiment of the present invention, there is provided a grip wedge for fixing a stranded wire, wherein one end of the stress relief portion is integrally formed at one end of the wedge portion at a leading end of the wedge portion, And the other end of the stress relieving portion is inserted into the grip hole of the grip portion.

According to another embodiment of the present invention, each of the divided wedges of the wedge portion is formed separately from each other, and each of the stress relieving portions formed integrally with each of the divided wedges is provided with a long insertion protrusion, There is provided a gripping wedge for fixing a stranded wire, characterized in that an inner surface of the gripping portion is provided with a position fixing hole into which the insertion protrusion is inserted.

Since the present invention is fixed to the strand by setting each of the divided wedges equally spaced apart with each end positioned on the same horizontal line, even if the strand is pushed or pulled for tension and settlement operations Since the above setting is not disturbed, it is possible to eliminate the inconvenience of the resetting operation by the operator, thereby making it possible to improve the workability and economical efficiency in reducing manpower, work time and equipment, There is no possibility of occurrence so that the safety of the work can be ensured.

Further, according to the present invention, since the fixing force required for the grip portion and the wedge portion is shared between the grip portion and the wedge portion, there is no room for the fixing force to be applied to the wedge portion. I will.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view illustrating the configuration and operation of a fixing wedge according to the prior art; FIG.
2 is a perspective view of the grip wedge according to the first embodiment of the present invention as a whole.
FIG. 3 is a cutaway perspective view of a portion of a grip wedge according to a first embodiment of the present invention; FIG.
Fig. 4 is a front view and a cross-sectional view in a direction in which the stranded wire is inserted into the grip wedge according to the first embodiment of the present invention.
Fig. 5 shows each embodiment of the stress dispersion hole in the stress relieving portion of the present invention.
6 is a cross-sectional view for explaining an operation principle in which a strand is fixedly fixed by a grip wedge according to the present invention.
7 is an explanatory diagram showing a process of fixing a strand of strand to a fixing end of an anchor head or the like with the grip wedge of the present invention.
8 is a detailed view showing an example of the break preventing portion of the present invention.
9 to 11 are a perspective view and a sectional view showing a grip wedge according to a second embodiment of the present invention.
12 and 13 are exploded perspective views showing a grip wedge according to a third embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in order to obscure or obscure the technical idea of the present invention due to the detailed description of the known structure in describing the present invention, the description of the structure of the above known structure will be omitted.

FIG. 2 is a perspective view showing the grip wedge 100 according to the first embodiment of the present invention, FIG. 3 is an incision oblique view showing the interior of the grip wedge 100 by cutting a part of its cross section, (A) is a front view, (b) is a left side view seen from the grip portion 120 side, and (c) is a front view of the grip wedge 100. Fig. (D) is a longitudinal sectional view of the stress relieving portion 130 at the portion A-A ', and (e) is a transverse sectional view in the longitudinal direction.

The grip wedge 100 of the present invention has a basic structure of a wedge portion 110 and a grip portion 120 as shown in Fig. 2, wherein the wedge portion 110 is located on the side where the stranded wire 200 is drawn, 120 are positioned on the side where the stranded wire 200 is drawn out.

The wedge portion 110 is formed of a plurality of divided wedges 111 and has a conical shape and a wedge hole 113 into which the stranded wire 200 is inserted is provided inside. The divided wedges 111 of the wedge portion 110 are spaced apart from each other by the dividing grooves 112 and the width of the dividing grooves 112 is set such that the wedge portion 110 contacts the fixing end 300 such as an anchor head, The diameter of the wedge hole 113 is reduced in proportion to the process of inserting the wedge hole 113 into the conical fixing hole 311 provided in the wedge hole 113. [

The wedge portion 110 thus configured is inserted into the fixing hole 311 during the tensioning operation and presses and fixes the strand 200 inserted with the wedge hole 113 into the fixing end 300 of the anchor head, (200) is fixedly fixed.

The grip portion 120 is configured to include a grip hole 122 in which a strand 200 is inserted into a cylindrical body 121 having a cylindrical shape and a state in which the strand 200 is inserted into the grip hole 122 In the point that the grip body 121 is pressed and fired by a pressing device such as a pressing die and the strand 200 is pressed and fixed to the inner surface of the grip hole 122 by the pressing action of the grip body 121, There is no difference from grip.

However, by pressing the end of the strand 200 as described above, the position of the wedge 110 formed on the front side of the grip portion 120 (on the side where the strand is drawn) relative to the strand 200 is fixed It has a totally different effect from the conventional grip grip.

That is, the pressing action of the grip body 121 is such that the divided wedges 111 of the wedge portion 110 maintain the same interval in the width direction, And is fixed to the stranded wire 200 in a state in which it is set to be positioned on the strand 200. Thus,

Therefore, even if the stranded wire 200 is pushed to the opposite side of the direction in which the wedge portion 110 is fastened (the direction in which the wedge portion is inserted) for the tensioning operation, the horizontal state of the divided wedge 111 is disturbed, The wedge portion 110 is positioned at the correct position by itself in the fixing hole 311 even when the strand 200 is pulled in the direction in which the wedge portion 110 is fastened. And it is unnecessary to arrange the equipment separately, so that the efficiency and economical efficiency of the construction can be improved.

In addition, the grip portion 120 performs a second fixing function when the wedge portion 110, which may be generated in the future, is damaged, thereby achieving another effect such as preventing a safety accident. This will be described in detail later.

Meanwhile, the grip portion 120 of the present invention fixes the position of the wedge portion 110 with respect to the strand 200 while the grip body 121 is plastically deformed by the pressing device as described above, The plastic deformation can be transmitted to the wedge portion 110. Conversely, when the wedge portion 110 is subjected to plastic deformation due to the wedge action of the wedge portion 110 due to the introduction of the tensing force after the grip portion 120 is fixed, And may be transmitted to the grip portion 120.

In order to prevent such a problem, the grip wedge 100 of the present invention may have an independent structure in which the wedge portion 110 and the grip portion 120 are separated from each other and fix the position of the wedge portion with the elastic ring, And a stress relieving portion 130 which can prevent deformation transmission between the wedge portion 120 and the wedge portion 110. The stress relieving portion 130 is configured such that one end portion of the stress relieving portion 130 is integrally formed with the lead-out end portion of the wedge portion 110.

On the other hand, in the first embodiment of the grip wedge 100 of the present invention having the stress relieving portion 130, the grip portion 120 and the wedge portion 110 are integrally formed as shown in Figs. 2 to 4 . Therefore, in the grip wedge 100 of the first embodiment, the other end portion of the stress relieving portion 130 is integrally formed with the leading end portion of the grip portion 120 as well.

The outer diameter a1 of the grip portion 120 in the first embodiment is larger than the maximum outer diameter a2 and a3 of the stress relieving portion 130 and the wedge portion 110 as shown in Fig. . In other words, the stress relieving portion 130 in the first embodiment is configured such that the thickness of the end face is smaller than the end face thickness of the grip portion 120, whereby the grip body 121 is stretched in the longitudinal direction by the pressurizing device, It is possible to minimize the transfer of the deformation to the wedge portion 110 even if plastic deformation occurs.

The stress relieving portion 130 is provided with a relieving hole 131 through which the stranded wire 200 is passed so that the diameter b 1 of the relieving hole 131 is equal to the diameter of the grip hole 122 and the angle of the wedge hole 113 Is preferably larger than the diameters b 2 and b 3. This makes it possible to further reduce the thickness of the end face of the stress relieving portion 130 and to separate the inner face of the stress relieving portion 130 from the strand 200 when the grip body 121 is pressed, So that the function of preventing the deformation transmission by the impact force can be more effectively performed.

The outer diameter a2 of the stress relieving portion 130 is set to be equal to or smaller than the maximum outer diameter a3 of the wedge portion 110 so that the stress relieving portion 130, together with the wedge portion 110, It is preferable to insert it into the hole 311.

The dividing grooves 112 that allow the wedge portion 110 to be easily deformed when the fixing holes 311 are inserted while the divided wedges 111 are separated from each other in the first embodiment are extended to the stress relieving portion 130 do. At this time, a strain relief hole 132 may be further provided at an end of the dividing groove 112 located in the stress relieving portion 130.

5 shows examples of the stress dissipating holes 132 provided in the stress relieving portion 130. The diameter d1 of the stress dissipating holes 132 is set to be smaller than the diameter d1 of the stress dissipating holes 132, Is configured to be larger than the width d2 of the dividing groove 112 as shown in Fig. 5A or at least the same as the width d2 of the dividing groove 112 as shown in Fig.

The stress dispersion hole 132 prevents a stress from being generated in the stress relieving portion 130 due to stress concentration and deformation when a large load is applied to the wedge portion 110 by a wedge action.

6 is a view for explaining the operation principle of the grip wedge 100 of the present invention for fixing the strand 200 to the fixing end 300 and Fig. 7 is a view for explaining the operation of the grip wedge 100 of the present invention, And fixed to the fixing end 300. Fig.

The outer diameter of the grip portion 120 of the grip portion 100 of the present invention is larger than the outer diameter of the stress relieving portion 130 even after the grip body 121 is plastically deformed, Since the length of the stress relieving portion 130 is longer than the amount of movement of the wedge portion 110 due to the wedge action, the end surface of the inlet portion is not brought into close contact with the outer surface of the fixation end portion 300.

Therefore, since the wedge portion 110 does not interfere with the grip portion 120 when entering the fixing hole 311, the wedge portion 110 can enter the wedge portion 110 as much as necessary for the wedge action, The wedge portion 110 can have a larger fixing force than required, since there is no space where sliding is generated.

In addition, even if the wedge portion 110 is broken, the grip portion 120 can prevent the divided wedges 111 from being separated from each other while supporting the tension of the strand 200 in the second order, Is prevented from being drastically reduced, it has an effect of preventing safety accidents and increasing the durability of the member and the fixing structure.

The process of fixing the strand 200 to the fixation end 300 using the grip wedge 100 of the present invention is performed by first inserting the end of the strand 200 into the grip hole 122 of the grip 120 The grip body 121 is pressed by a pressurizing device (Fig. 7 (a)).

The grip body 121 is stretched in the longitudinal direction and the outer diameter is reduced so that the gap between the grip hole 122 and the strand 200 is filled and the strand 200 is firmly fixed to the grip 120 by pressing 7 (b)}. The gripping portions 120 of the gripping portions 120 are pressed and fixed so that the respective divided wedges 111 of the wedge portion 110 integrally formed with the gripping portions 120 can not be moved separately at a predetermined position with respect to the stranded wire 200 So that the effect of fixing the position is exhibited.

The wedge portion 110 is inserted into the fixing hole 311 of the fixing end 300 while keeping the divided wedges 111 in the same position with respect to each other, So that the strand 200 inserted into the wedge hole 113 is strongly pressed (Fig. 7 (c)).

Threads 114 or irregularities (hereinafter referred to as concavity and convexity) may be further formed on the inner surfaces of the respective divided wedges 111 constituting the wedge holes 113 in order to increase the fixing force by the wedge portion 110 have.

However, as described above, there is a risk that the wire of the strand 200 may be broken by forming a notch on the surface of the strand 200 due to the excessive pressing force of the wedge 110 as described above, In the wedge 100, the above-mentioned problem can be solved by further providing the break preventing part 115 at the entry end of each divided wedge 111 where the breakage most frequently occurs due to fatigue.

The break preventing portion 115 prevents the sharpened portion of the ridge line 200 from being directly pressed by the sharp portions such as the ridges and the like and may be formed in various shapes, The projecting height of the concavities and convexities is tapered so as to gradually decrease toward the outside, that is, toward the side where the strand 200 is drawn. Fig. 8 is a detailed view showing an example of the break preventing portion 115 provided at the entry end of the divided wedge 111. Fig. The fracture preventing portion 115 serves as an introduction portion of the strand 200 that allows the strand 200 to be easily inserted into the wedge hole 113. [

9 to 11 show a second embodiment of the present invention having various shapes of the stress relieving portion 130. As shown in FIG.

9A is a disassembled perspective view in which the grip portion 120 and the wedge portion 110 are separated from each other, and FIG. 9B is a perspective view of the grip portion 120 (C) is a cross-sectional view in a state where the grip portion 120 and the wedge portion 110 are engaged with each other.

The grip wedge 100 of the first embodiment is configured such that the grip portion 120 and the wedge portion 110 are formed integrally with each other while the grip portion 120 of the grip wedge 100 of the second embodiment is formed integrally with the wedge portion 110, So that there is a difference in configuration.

However, the grip wedge 100 of the second embodiment is not different from the first embodiment in that one end portion of the stress relieving portion 130 is integrally formed at the lead-out end portion of the wedge portion 110, The grip portion 120 is integrated with the wedge portion 110 when the grip portion 120 is pressed against the strand 200 so that the grip portion 120 presses the end of the strand 200, The effect of fixing the position of the display unit 110 can be expected in the same manner as in the first embodiment.

The stress relieving portion 130 in the second embodiment connects each end portion of the divided wedges 111 so that the divided wedges 111 having one end separated from each other can move integrally as shown in Fig. 9 (a) And the other end which is not connected to the wedge portion 110 is formed in a cylindrical shape so as to be inserted into the grip hole 122 of the grip portion 120. Therefore, when the grip body 121 is pressed by the pressing device in a state where the stress relieving portion 130 with the strand 200 inserted therein is located in the grip hole 122, the stress relieving portion 130 is provided on the strand 200, The respective divided wedges 111 are firmly fixed with respect to the stranded wire 200 so that the divided wedges 111 are not jammed with each other and the ends of the divided wedges 111 are kept horizontal.

As shown in FIG. 10, the stress relieving portion 130 of the second embodiment may further include a plurality of slits 133 in the longitudinal direction.

The inner diameter of the stress relieving portion 130 inserted into the grip hole 122 is larger than the inner diameter of the grip body 121. [ So that it can be easily changed in response to plastic deformation, so that compression bonding can be efficiently performed on the stranded wire 200.

9 and 10, the stress relieving portion 130 has a plate-like thin thickness and a long cylindrical shape. However, when the stress relieving portion 130 is formed to be too thin and long, the grip body 121 may be sintered When deformed, it may be damaged.

11, a tapered ring 135 protruding vertically from one end of the stress relieving portion 130 inserted into the grip hole 122 is provided, and correspondingly, the grip portion 120 is provided with a step taper ring 135 are inserted, thereby solving the above-described problem that may occur in the embodiment of Figs. At this time, the outer diameter of the step tongue 135 is formed to be slightly smaller than the diameter of the inlet end of the grip hole 122, and the diameter of the grip hole 122 at the inlet end side is formed to be somewhat larger than the inner diameter of the grip hole 122 do.

11 (a) is an exploded perspective view in which the grip portion 120 and the wedge portion 110 are separated, FIG. 11 (b) is a cross-sectional view showing a state in which the stress relieving portion 130 is inserted into the grip hole 122 c) is a cross-sectional view of the state where the grip portion 120 is pressed and integrated with the wedge portion 110. Fig.

That is, when the grip portion 120 is pressed in a state where the step tilting 135 provided on the stress relieving portion 130 is positioned on the opening front surface of the ring groove 125 of the grip portion 120, The inner diameter of the grip body 121, that is, the diameter of the grip hole 122 is reduced, and the step ting 135 is fitted and fixed to the ring groove 125. As described above, in the present embodiment, the tapered ring 135 is fitted and fixed to the ring groove 125 while the diameter of the grip hole 122 is reduced, so that there is no possibility that the stress relieving portion 130 is broken.

12 and 13 show a grip wedge 100 according to a third embodiment of the present invention.

In the wedge portion 110 in the first and second embodiments, the ends of the respective divided wedges 111 are connected by the stress relieving portion 130, but in the third embodiment of the present invention, each of the divided wedges 111 There is a difference in configuration in that the stress relieving portion 130 is formed as a plurality of separate pieces. However, when the grip body 121 is squeezed, the transmission of the deformation is blocked by the stress relieving part 130. When the grip body 121 compresses and fixes the strand 200, The present invention is not different from the first and second embodiments in that the position of the divided wedges 111 is fixed while maintaining a horizontal state between them.

Since the divided wedges 111 are separated from each other in the third embodiment, the respective stress relieving portions 130 integrally formed with the respective divided wedges 111 are individually inserted into the grip holes of the grip portions 120 122, the spacing between the divided wedges 111 (the widths of the divided grooves) may be different from each other, which causes a variation in the stress generated in each divided wedge 111 as described above.

This problem can be solved by manually or by a separate tool so that the divided wedges 111 do not move when the grip body 121 is pressed and the intervals between the wedges 111 are kept constant, It is very troublesome, and the precision of the work is reduced. In addition, there is a fear that a safety accident of the operator may be caused during the pressing process of the grip body 121.

Therefore, the grip wedge 100 of the third embodiment of the present invention further includes position fixing means of the divided wedge 111 for keeping the respective intervals of the divided wedges 111, that is, the angular widths of the divided grooves 112, So that the inconvenience of holding each divided wedge 111 is eliminated.

As shown in FIG. 12, the position fixing means may be formed in various forms. In one embodiment, the lengthwise insertion protrusions 134 are provided on the outer surface of each stress relieving portion 130, And the position fixing hole 124 into which the insertion protrusion 134 is inserted may be formed on the inner surface of the grip portion 120 into which the stress relaxation portion 130 is inserted. That is, the position fixing hole 124 provided in the grip portion 120 guides the entry of the stress relieving portion 130 integrally formed with the divided wedge 111, and is positioned at a predetermined position, 111) can be kept constant.

13, the grip portion 120 is provided with a ring groove 125 or a plurality of arc-shaped grooves (not shown) separated from each other, and the outer surface of each stress relieving portion 130 Shaped projections 136 in the width direction. When the grip portion 120 having the ring groove 125 is used, the width of the stress relieving portion 130 may be made slightly larger than the width of the split wedge 111, The interval between the divided wedges 111 can be kept constant by adding the O-ring provided with the ashes to the wedge portion.

Of course, the configuration of the irregularities or the like provided on the inner surface of each divided wedge 111 in relation to the grip wedge 100 of the first embodiment, and the configuration of the break preventing portion 115 provided on the entry end of the divided wedge 111, The present invention can be applied as it is to the grip wedge 100 of the second and third embodiments. In addition, in the second and third embodiments, the inner surfaces of the grip body 120 and the stress relieving portion 130 inserted in the grip hole 122 and the stress of the inner surface of the grip body 121 for improving the frictional force between the grip portion 120 and the strand 200 The inner and outer surfaces of the mitigating part 130 can be further provided with an uneven surface.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious that it will be possible to carry out various modifications thereof. It is therefore intended that such modifications are within the scope of the invention as set forth in the claims.

100; Grip wedge 110; Wedge portion
111; Split wedge 112; Split home
113; Wedge holes 114; Thread
115; Fracture preventing portion 120; Grip portion
121; A grip body 122; Grip hole
124; A position fixing hole 125; Ring home
130; Stress relieving portion 131; Relaxation Hall
132; Stress distribution holes 133; Slit
134; Insertion protrusions 135; Step tingling
136; Arc-shaped protrusions 200; Strand
300; Settlement end
311; Fixing hole

Claims (12)

A wedge portion 110 made of a plurality of divided wedges 111 and having a wedge hole 113 having a conical shape and having a stranded wire 200 inserted therein to press and fix the stranded wire 200 by a wedge action, A grip portion 120 having a grip hole 122 in which a strand 200 is inserted into a grip body 121 having a cylindrical shape and a grip portion 120 in which a strand 200 is pressed and fixed by a pressing action of the grip body 121, Lt; / RTI >
The wedge portion 110 is positioned on the side where the strand 200 is drawn and the grip portion 120 is located on the side where the strand 200 is drawn out. The grip portion 120 presses the end of the strand 200, 200 are configured such that the positions of the respective divided wedges 111 are fixed,
One end portion of the stress relieving portion 130 is formed integrally with the lead-out end portion of the wedge portion 110,
A thread 114 is provided on the inner surface of each divided wedge 111 constituting the wedge portion 110 and a breaking preventing portion 115 is provided on the leading end of each divided wedge 111, Wherein the prevention part (115) is formed in a tapered shape in which the projection 114 of the inner surface of the divided wedge (111) or the projecting height of the projections and depressions gradually decreases toward the outside. delete The grip wedge for fixing a stranded wire according to claim 1, wherein the other end of the stress relieving part (130) is integrally formed with the leading end of the grip part (120). The grip wedge for fixing a stranded wire according to claim 1, wherein the other end of the stress relaxation part (130) is inserted into a grip hole (122) of the grip part (120). 4. The grip wedge of claim 3, wherein an outer diameter of the grip portion (120) is greater than a maximum outer diameter of the stress relieving portion (130) and the wedge portion (110). 4. The apparatus according to claim 3, wherein each of the divided wedges (111) of the wedge portion (110) is spaced apart by a predetermined distance by a dividing groove (112), and the dividing groove (112) extends to the stress relieving portion Features a grip wedge for fixing strands. 7. The grip wedge for fixing a stranded wire according to claim 6, wherein a stress dissipating hole (132) is further provided at an end of the dividing groove (112) located in the stress relieving part (130). 8. The grip wedge for fixing a stranded wire according to claim 7, wherein a diameter of the stress dissipating hole (132) is larger than a width of the dividing groove (112). 5. The grip wedge of claim 4, wherein each of the divided wedges (111) of the wedge portion (110) is connected to the stress relieving portion (130) so that the divided wedges (111) can move integrally. The stress relieving part 130 according to claim 9, wherein the stress relieving part 130 is provided with a step tilting 135 protruding vertically, and the grip part 120 is provided with a ring groove 125 into which the step tilting 135 is inserted Wherein the grip wedge for fixing a stranded wire is a wedge.
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