KR101793533B1 - Anchor support system with reinforcement function - Google Patents

Abstract

The present invention relates to an anchor support system with a strand retensioning function, and specifically, to an anchor support system with a strand retensioning function, which provides a strand retensioning function via a retensioning device that retensions a strand installed in a bracket for an earth anchor supporting a soil retaining wall in a public and building construction. Effects of the present invention are as follows. An operator can easily reinforce the strand by the anchor support system having the strand retensioning device of the present invention, thereby improving work efficiency. In addition, extra devices such as cylinders, hydraulic pump devices, etc. are not required to be added such that work costs and work time can be reduced.

Description

Anchor support system with reinforcement function for stranded reinforcement {omitted}

The present invention relates to an anchor support system having a reinforcement function for reinforcement of stranded wire. Specifically, the present invention relates to an anchor support system for reinforcement of a stranded wire through a re-reinforcement device for reinforcement of a stranded wire installed on an earth anchor bracket for supporting a to- The present invention relates to an anchor support system having a stiffener reinforcement function.

The ground anchor method is inevitably used to cut a subterranean surface or slope to construct a road, a complex, a building, etc., and it is mainly used to secure the safety of such excavation surface or cut surface during construction or permanently. The anchor method is a method of penetrating the ground and inserting a stranded wire into the perforation hole, filling the empty space with cement grout, curing the cement, and pulling the stranded wire to fix it to the exposed part of the ground. By applying the tensile force of the stranded wire and friction force with the ground, To form a stable excavation surface.

In the case of vertical excavation of the ground, a soil wall is installed to prevent the excavated soil from collapsing to the excavated site. These soil walls are to be installed in the ground with the H- In order to fix the strand and to fix the strand by tension, the stand or the anchor support is used.

In order to maintain the slope of the slope, it is necessary to drill the sliced surface and insert an anchor, place the lattice block on the anchor, and fix the lattice block with the tensile force of the anchor. In this case, a supporting plate for fixing the stranded wire, that is, an anchor support body is used.

At present, the above-mentioned anchor support body has a problem that it is very difficult to reinforce it during construction or after construction. During the actual construction, tensile strength of the anchor is loosened due to unexpected excavation of the ground after tensioning of the strand, or due to unexpected characteristics of the ground. If the allowance of the strand is sufficient, the tension cylinder and the hydraulic pump can be used to easily reinforce the strand even if it costs extra. However, if the strand is cut, the length of the strand may be extended to provide the cylinder and hydraulic pump, It is cumbersome and time-consuming and costly to lose tension.

In addition, most of the current reinforcement methods use heavy cylinders and hydraulics. Therefore, it is very costly to recline when the number of reinforcements is too high or manpower is difficult to access. .

Accordingly, in the present invention, an anchor support system having an anchor, that is, a reinforcement function of a stranded wire, is developed to grasp the problems of the prior arts, regardless of vertical excavation or slope cut slope .

Korean Patent Registration No. 10-1036013 (May 13, 2011) Korean Patent Registration No. 10-1352188 (Apr. 1, 2014)

SUMMARY OF THE INVENTION An object of the present invention is to provide an anchor support system equipped with a steel wire reinforcement device which is easy for a worker to reinforce a strand which has been stretched due to factors such as an external environment after an initial tension of the strand.

Yet another object is to provide an anchor support system for reinforcement of stranded wire through the reinforcement device of the present invention without the need for additional devices such as cylinders, hydraulic pump devices or the like.

In order to solve the above problems,

The present invention is characterized in that a wale band (30) formed by two rows of upper and lower rows on the side of a turbulence wall, a wale (31) formed in a transverse direction and a flange (32) connected to both ends of the web (31) A bracket 100 installed between the wales 30 installed in two rows of upper and lower sides, a reinforcement device 200 mounted inside the bracket 100 to reinforce the strand of the bracket 100, Wherein the bracket 100 includes a flange 32 positioned in front of the web 31 of the wale 30 provided in the two rows, A front supporting plate 110 coupled to the front portion and having a first strand passage hole 111 through which a strand of the strand is passed and a second supporting member 110 coupled to both sides of the front supporting plate 110, Side supporting plate 120 formed with the side supporting plates 120 and 121, And is connected to the front portion of the flange 32 located at the rear of the web 31. The second strand passage through which the strand passed through the first strand passage hole 111 is passed Wherein the reinspection device 200 includes an angle adjustment support part 210 coupled to a front surface of the second strand passage hole 131 and through which the strand is passed, A reinforcement bolt 230 for reinforcement of the reinforcement bolt 230 and a strand fixing member 220 for reinforcement of the strand in the direction opposite to the bolt advance direction f1 when the reinforcement bolt 230 is rotated forward,

The strand fixing member 220 includes a rotation preventing groove 224 for preventing the strand fixing member 220 from being rotated by the rotation preventing stopper 330 of the reinsertion supporting means 300, The means 300 includes a reinforcement supporting front portion 310 having a front penetrating portion 312 formed at a position corresponding to the first steel wire passage opening 111 and engaged with the front panel 110 of the bracket 100, The other end of the angle adjusting and supporting portion 210 is received and coupled with the other end of the angle adjusting and supporting portion 210 so that the strand fixing member 220 is accommodated, A rotation preventing stopper 330 which is located on the inner surface of the reinsertion supporting rear surface 320 and prevents the strand fixing member 220 from rotating, And the end of the reinspection bolt 230 is fixed to the bolt end mounting groove 211, And the reinforcement member 210 is re-welded by displacing the reinforcement member 220 in the direction opposite to the direction of bolt progression f1 along the inner surface of the reinforcement support rear face portion 320, A bolt end mounting groove 211 formed on the surface of the angle adjusting and retaining portion 210 for fixing the end portion of the bolt 230 and a predetermined number of stranded wire penetrating portions 212 through which the stranded wire passes, The reinforcement bolt 220 includes a reinforcement bolt fastening part 221 formed of a thread corresponding to the reinforcement bolt 230 and coupled with the reinforcement bolt 230, The reinsertion supporting means 300 includes a reinforcement supporting means 300, a bracket 100 and a wale 30, which are formed at positions corresponding to the reinforcement supporting means 300, The support bolts 340 are formed to be coupled through the support bolts 340, And anchor support system having a stiffening function.

The operator can easily reinforce the strand by an anchor support system having the strand reinforcement device of the present invention, thereby improving the work efficiency. In addition, it is not necessary to provide additional equipment such as cylinders, hydraulic pumps, etc. when reinserting the stranded wire, thereby reducing work costs and shortening work time.

1 is a perspective view showing a bracket according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of a brace according to an embodiment of the present invention; FIG.
3 is a cross-sectional view illustrating a fixing structure according to an embodiment of the present invention.
FIG. 4 is an exploded perspective view of a reinsertion support unit according to an embodiment of the present invention; FIG.
5 is a cross-sectional view showing a cross-section of a reinforcement support means according to an embodiment of the present invention.
FIGS. 6 and 7 are cross-sectional views illustrating a fixing structure to which a reinforcement supporting means according to an embodiment of the present invention is added.
8 is an overall perspective view of the final structure in which the concrete lining is applied.
Fig. 9 is a sectional view showing the mounting structure of Fig. 8; Fig.

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

The present invention relates to an anchor support system (hereinafter referred to as an anchor support system) having a strand reinforcement function. As shown in Fig. 3, the anchor support system includes a wale band 30 provided in two rows in the upright wall, and a bracket 100 provided between the wale band 30, And an anchor support system 200 including a reinforcement device 200 for reinforcement of stranded wires. As shown in FIG. 6, the reinforcement supporting means 300 may further be provided to support the reinforcement device 200, and reinforcement of the stretched wire due to the external factors.

The wale band 30 is composed of a web 31 provided in a transverse direction and a flange 32 formed in a longitudinal direction and connected at both ends of the web 31 to each other.

The anchor support system of the present invention comprises a bracket 100, a reinforcement device 200, and a reinsertion support means 300, and the components will be described in detail below.

Fig. 1 relates to a bracket 100, in which the bracket 100 is installed between two wales 30 installed vertically in a vertical wall. The bracket 100 includes a front support plate 110, a side support plate 120, and a rear support plate 130.

The front support plate 110 is engaged with the front portion of the flange 32 located in front of the web 31 of the wale 30 provided in the two rows. The front support plate 110 is formed with a first strand passage hole 111 through which a strand of the strand passes, and preferably a first strand passage hole 111 is formed at the center of the front support plate 110. The first strand passage opening 111 is for pulling the strand of strand and exposing the reenchussory 200 located inside the bracket 100 during operation.

The first through-hole 111 may be formed in a circular shape, a relatively large square, or an elliptical shape.

The side support plate 120 is coupled to both sides of the front support plate 110 and is provided with a reinforcement work hole 121 for reworking. The reinspection work tool 121 is a place where the operator confirms the reinspection device 200 from the side and is formed for putting his hand into the work. It is preferable that the reinspection operation tool 121 is formed in a size that allows a user's hand to easily enter, and may be formed in a circular, elliptical, or square shape.

The reinspection operation tool 121 may be formed only on one of the side support plates 120 of the two side support plates 120 and may be formed on the two side support plates 120, .

The side supporting plate 120 may further include a wedge coupling groove 122. The wedge coupling groove 222 has a configuration in which the end of the flange 32 of the wale 30 is fitted, The front support plate 110 and the side support plate 120 are formed at the upper and lower ends, respectively, to which the end portions of the flanges 32 positioned in front of the front support plate 110 and the side support plate 120 are received.

The wristband coupling groove 122 maintains a rigid fixed state without using a separate fixing tool to fix the bracket 100 to the wristband 30. [ In addition, in the process of assembling the wrist strap 30 and the bracket 100, the wrist strap engagement groove 122 allows the bracket 100 to slide along the flange 32 so that the bracket 100 can be easily moved.

The rear support plate 130 is coupled to both sides of the side support plate 120 and is accommodated in the upper and lower wale hairs 30 and is engaged with the front portion of the flange 32 located behind the web 31. A second stranded wire passage hole 131 is formed in the rear support plate 130 to allow the stranded wire to pass therethrough.

The reinspection device 200 is mounted inside the bracket 100, and is preferably formed in a shape coupled with the rear support plate 130.

That is, the bracket 100 of the present invention is configured to be installed between the upper and lower wale straps 30, so that the shape of the front support plate 110, the side support plate 120, and the rear support plate 130 is formed into a rectangular shape And is passed through a first stranded wire passage 111 of a front support plate 110 to be subjected to a tensile work and can be visually confirmed by an operator. Through the reinforcement work 121 of the side support plate 120, The work of tensioning and reinforcement can be carried out.

Referring to FIG. 2, the reauthentication device 200 will be described as follows.

The reinforcement device 200 is formed to reinforce the strand, and includes an angle adjusting and retaining portion 210, a strand fixing member 220, and a reinforcement bolt 230.

The angle adjusting and holding portion 210 is formed to be larger than the second through hole 131 of the rear supporting plate 130 and is coupled to the rear supporting plate 130 at a position corresponding to the second through hole 131 . It is preferable that the angle adjusting and holding part 210 and the rear supporting plate 130 are integrally welded to each other, and it is easy to work.

The angle adjusting and holding unit 210 includes a bolt end mounting groove 211 on which the end of the reinspection bolt 230 is mounted, a strand penetrating portion 212 through which the strand passes, and a strand fixing member seating on which the strand fixing member 220 is seated And a groove 213.

In order to prevent the earth located on the boundary slope of the excavated part of the ground from collapsing to the excavation site, the strand is pulled. When the strand is pulled, several strands are installed with a slope on the ground.

Therefore, the angle adjusting and holding part 210 is provided to prevent the strand 10 from bending or bending when applying the tensile force to the strand 10. [ The shape of the angle adjusting and holding part 210 is formed as a sloped surface so that the front surface of the angle adjusting and supporting part 210 is inclined so that the stranded wire is installed with a slope as the rear supporting plate 130 of the bracket 100 is formed as a flat vertical surface, It is preferable that the shape of the portion 212 also has a slope.

That is, as shown in FIG. 2, the angle adjusting and holding portion 210 is formed in a cylindrical shape and is aligned with the inclination angle at which the strands are pulled. At this time, in order to engage with the rear support plate 130, the cylindrical body of the angle adjustment support unit 210 is further extended in the direction toward the front support plate 110 so that the lower end of the angle adjustment support unit 210 is inclined .

As shown in FIG. 3, when the anchor support system is mounted on the toothed wall 1, the body of the angle adjustment and support unit 210 is tilted in an upward direction as the rear surface of the angle adjustment support unit 210 forms an inclined surface, Respectively.

Also, the stranded wire 10 is inserted in a direction perpendicular to the front portion of the angle adjusting and supporting portion 210, and the stranded wire penetrating portion 212 is also formed at an angle perpendicular to the front portion to prevent the stranded wire from breaking.

The angle adjusting and holding unit 210 may be installed to be perpendicular to the rear supporting plate 130. At this time, the front plate of the angle adjusting and holding unit 210 has an inclined surface. The front plate of the angle adjusting and supporting unit 210 has an inclined surface so as to be closer to the front supporting plate 110 as it goes downward, so that the strand penetrating portion 212 is formed at an angle perpendicular to the front surface. That is, when viewed from the side, the strand connecting portion 212 is formed to be inclined downward from the front plate of the angle adjusting and supporting portion 210 toward the rear plate, so that the strand of strand can be pulled straight without breaking.

The bolt end fitting groove 211 is formed so that the reinforcement bolt 230 passes through the strand fixing member 220 and is seated on the surface of the angle adjusting and supporting portion 210. A groove is formed on the surface of the angle adjusting and supporting portion 210 And the end of the reinforcement bolt 230 is fixed to the groove.

The bolt end attachment groove 211 is preferably formed at the center of the front portion of the angle adjustment holding portion 210 and the position thereof may be changed according to the shape of the strand fixing member 220.

The strand fixing member receiving groove 213 is formed on the surface of the angle adjusting and holding unit 210, and the strand fixing member 220 is seated. That is, the strand fixing member receiving groove 213 is formed in the front portion of the angle adjusting and supporting portion 210 and is formed to correspond to the lower shape of the strand fixing member 220. In addition, when the lower portion of the strand fixing member 220 is formed flat, the strand fixing member receiving groove 213 may not be formed.

The reinforcement bolt (230) is used to reinforce the strand and the body is formed by a thread. The end portion of the reinforcement bolt 230 is preferably of a bearing type for smooth rotation but is not limited thereto.

The strand fixing member 220 is formed to reinforce the stranded wire in the direction opposite to the bolt proceeding direction f1 when the re-tensioning bolt 230 is rotated forward (see Fig. 6).

Here, the forward rotation is the clockwise rotation of the right hand screw, and the left hand clockwise rotation.

The strand fixing member 220 includes a reinforcement bolt fastening part 221, a strand fastener 222, a seating part 223, and a rotation preventing groove 224.

The reinforcement bolt fastening part 221 is formed of a thread corresponding to the reinforcement bolt 230 and is engaged with the reinforcement bolt 150. The lower portion of the body of the reinforcement bolt 230 is engaged with the reinforcement bolt fastening portion 221 and the end of the reinforcement bolt 230 is seated into the bolt end fitting recess 211 of the angle adjustment retainer 210. In this state, when the reinforcement bolt 230 is rotated forward, the strand is fixed by displacing the strand fixing member 220 in the direction opposite to the bolt progression f1.

It is preferable that a plurality of holes are formed in the strand fixture 222, and four holes are formed as shown in FIG. 2, where the strands are passed and the strands are fixed.

It is preferable that the number of the strand wire fixing parts 222 is four and that the number of the strand wire penetrating parts 212 of the angle adjusting and supporting part 210 is also four and that the number of the strand wire fixing parts 222, 210 are formed at positions corresponding to each other so that the strands of stranded wire penetrate without bending or bending.

The seating portion 223 is formed on the rear surface of the strand fixing member 220 and is seated in the strand fixing member seating groove 213 of the angle adjusting and retaining portion 210. The seat portion is formed to maintain a stable engagement state when the rear surface of the strand fixing member 220 is protruded in contact with the strand fixing member 220.

2, when the strand fixing member 220 is formed into a cylindrical shape, the seating portion 223 is formed in a cylindrical shape smaller than the body and is seated in the strand fixing member seating groove 213 of the angle adjusting and retaining portion 210.

The rotation preventing groove 224 prevents the strand fixing member 220 from being rotated by the rotation preventing stopper 330 of the reinsertion supporting means 300. It is preferable that a total of four grooves are formed on the upper and lower and left and right sides of the rim of the angle adjusting and supporting part 210, and one groove may be formed in the rotation preventing groove 224.

3 is a cross-sectional view showing the fixing structure of the bracket 100 and the reinspection device 200 installed in the wall 1.

The process of fixing the configuration of the present invention will be described in detail as follows.

First, after drilling into the wall of the earthquake wall, the H-pile or concrete is vertically pushed up to a certain depth and the mother pile is installed. Then, the soil is removed as much as the mother pile can withstand, and then the wale 30 is perpendicular to the mother pile. Install it.

The wale band 30 is installed in at least two rows and a bracket 100 is provided between the wale band 30 and the wale band 30. The bracket 100 is disposed inside the wale band 30 by the interval between the wale band 30 It is preferable to insert it obliquely along the side surface of the wristband 30 in the horizontal direction. The reinforcement device 200 is installed inside the bracket 100 and one end of the strand is fixed by being pulled by the strand fixing member 222 of the strand fixing member 220, And the other end is inserted into the perforated earth retaining wall.

There is a case where the tensile strength of the strand 10 is lost due to the lapse of time or the strand 10 is loosened due to unexpected characteristics of the ground or the like and it is necessary to reinforce the strand 10. In order to reinforce the strand 10, the operator prepares the reinforcement bolt 230 and reinserts the strand 10. [ The reinforcement bolt 230 is rotated to turn the reinforcement bolt 230 into the strand fixing member 220 so that the strand fixing member 220 is displaced in the direction opposite to the bolt progression direction f1, .

The present invention further includes a reinforcement supporting means 300. The reinforcement supporting means 300 guides the movement of the strand fixing member 220 only up and down and prevents the strand fixing member 220 from rotating . The reinforcement supporting means 300 is a necessary component to prevent twisting of the strand of wire due to the rotation of the strand fixing member 220. The reinsertion supporting means 300 is formed for the case where the strand fixing member 220 is tilted due to the eccentricity of the load acting on the strand.

4 to 7, the reinforcement supporting means 300 is coupled to the bracket 100, and the strand fixing member 220 is accommodated therein. 4 and 5 are views showing only the reinsertion support means 300, and FIGS. 6 and 7 are cross-sectional views showing a fixing structure including the reinsertion support means 300, unlike FIG.

The reinsertion support means 300 includes a reinsertion support front portion 310, a reinsertion support rear portion 320, a rotation prevention stopper 330, and a support bolt 340.

The reinforcement support front portion 310 is coupled to the surface of the front support plate 110 of the bracket 100 and the front penetration portion 312 is formed at a position corresponding to the first strand passage hole 111.

The reinsertion support front portion 310 is formed to fasten the support bolts 340 and has a predetermined number of first support bolt fastening portions 311. Preferably, The first supporting bolt fastening portions 311 are positioned on the upper and lower sides of the front penetrating portion 312 to form a total of four.

The reinsertion support rear face portion 320 is connected at one end to the rear of the reinspection support front portion 310 and at the other end to the upper end of the angle adjustment support portion 210, Is accommodated. That is, the other end of the reinsertion support rear face portion 320 is formed as a rear penetration portion 321, and the angle adjustment support portion 210 is coupled to the rear penetration portion 321.

The inner side of the reinforcement supporting rear face 320 is formed in a shape corresponding to the strand fixing member 220 and the reinforcement supporting back face 320 is formed in a cylindrical shape as the strand fixing member 220 is formed in a cylindrical shape as shown in FIG. .

It is preferable that the lower end of the reinsertion supporting portion 320 is coupled to the upper portion of the angle adjusting and holding portion 210 by being received therein.

The anti-rotation stopper 330 is located on the inner surface of the reinforcement support rear surface 320 to prevent the strand fixing member 220 from being rotated.

The rotation preventing stopper 330 is formed at a position corresponding to the rotation preventing groove 224 of the strand fixing member 220 and is formed in a rod shape as shown in FIG. 4, but the present invention is not limited thereto.

The strand fixing member 220 is prevented from rotating through the rotation preventing stopper 330 and the strand fixing member 220 is moved up and down inside the reinsertion supporting portion 320 along the rotation preventing stopper 330 It acts like a rail. The rotation prevention stopper 330 may vary in shape, size, number, and the like depending on the number and shape of the strand fixing member 220. Even if four rotation preventing grooves 224 of the strand fixing member 220 are formed, Needless to say, the stopper 330 may be composed of two, three, or the like.

The reinforcement supporting rear face portion 320 may be bent in a direction opposite to the bolt proceeding direction f1 (see FIG. 6) when the strand wire fixing member 220 is re-welded using the reinforcement bolts 230 At which time the strand fixing member 220 is inclined due to the eccentricity of the load acting on the strand 10. In this case,

6, the strand fixing member 220 is moved in the opposite direction of the bolt progression f1 along the inner surface of the reinsertion supporting rear face portion 320 and the rotation preventing stopper 330 is moved The retention member 220 is accommodated in the rotation preventing groove 224 to prevent rotation of the strand fixing member 220 as well as to prevent the strand fixing member 220 from moving in the bolt advancing direction f1 in the inner space of the reinsertion supporting portion 320 It acts as a guide like a rail that makes it possible.

The support bolts 340 pass through the front portion of the reinsertion support means 300 and the front support plate 110 of the bracket 100 and the flange 32 of the wale 30 coupled with the front support plate 110 The reinforcement support means 300 is to be engaged with the bracket 100.

The support bolt fastening portions are respectively formed for fastening the support bolts 340 through the reinsupporting means 300, the brackets 100, and the wale 30.

That is, the reinforcement supporting means 300 is formed with the first supporting bolt fastening portion 311, and the bracket 100 is fastened to the second supporting bolt fastening portion 112 (corresponding to the first supporting bolt fastening portion 311) And the wrist strap 30 is also formed with the third supporting bolt fastening portion 32a at a position corresponding to the first supporting bolt fastening portion 311 and the second supporting bolt fastening portion 112.

The support bolts 340 are fastened to the first support bolt fastening portions 311 of the reinsertion support means 300 and the second support bolt fastening portions 112 of the bracket 100 and the third support bolt fastening portions 323 of the wale 30, (32a). It goes without saying that the support bolt 340 can be connected only through the reinsertion support means 300 and the bracket 100.

6 and 7 are views showing a fixing structure to which a reinsertion supporting means 300 is added, unlike the case of FIG. 6 shows a state in which the reinforcement bolts 230 are fastened in the F2 direction before the reinspection bolts 230 are fastened to the strand fastening members 220. Figure 7 is a view of the reinforcement bolts 230 fastened to the strand fastening members 220 230 are rotated in the S2 direction (positive direction) to reinforce the strand, the strand fixing member 220 is displaced in the F1 direction, and the strand 10 is re-stretched in the F1 direction.

The operator may also check the actual tensile force by measuring the rotational force of the reinspection bolt 230 with a torque wrench or the like when the reinspection bolt 230 is rotated.

FIG. 8 is a stereoscopic view showing that a concrete lining 50 is installed to form a final structure after installation of an anchor support system, and FIG. 9 is an exemplary sectional view thereof. 8 is a diagram of an embodiment of a concrete lining 50 and a shielding member 400, wherein the reinforcement apparatus 200 is shown schematically.

The present invention is characterized in that when the concrete lining 50 is installed, a space retaining portion 51 is formed at one side of the front surface of the concrete lining 50 so as to be connected to the first strand passage opening 111 formed in the front supporting plate 110 of the bracket 100 .

The space holding portion 51 is formed as a passage for connecting the first strand passage hole 111 of the front support plate 110 to the outside and a long time after the concrete structure is formed after the concrete lining 50 is formed And the operator's hand is inserted into the front support plate 110 of the bracket 100 through the space retaining portion 51 to reinforce the strand 10. [

In addition, the present invention further comprises a shielding member 400, which shields the shielding member 400 by inserting the shielding member 400 into the space holding portion 51 after completion of the operation of the final structure, The member 400 can be separated and the stranded wire reinforcement work can proceed. It is needless to say that the shielding member 400 may be formed to correspond to the space holding portion 51 and may be formed to be smaller than the space holding portion 51.

Also, the shielding member 400 can prevent and protect contaminants from entering into the space holding portion 51, and also has an effect that the wall surface is neatly treated when the final structure is observed from the outside.

As described above, the scope of rights of the present invention is not limited to the above-described embodiments, and all inventions of equal level that can be modified by those skilled in the art are within the scope of the present invention.

10: Stranded wire
30: Wale
31: web
32: Flange
32a: third supporting bolt fastening portion
50: Concrete lining
51:
100: Bracket
110: front support plate
111: 1st strand passage
112: second supporting bolt fastening part
120: side support plate
121: Reinforcement work area
122:
130: rear support plate
131: 2nd strand passage
200: Recognition device
210:
211: Bolt end mounting groove
212:
213: Stranded fastening member seating groove
220: Stranded wire fixing member
221: Reinforcing bolt fastening part
222: Stranded fastener
223:
224: anti-rotation groove
230: Reinforcing bolt
300: Reinforcement support means
310: Reinforcement support front part
311: first supporting bolt fastening part
312: front through-
320: Reinforcement support rear face
321: rear penetration part
330: Anti-rotation stopper
340: Support bolt
400: shield member

Claims (3)

A wale 30 formed by two rows of upper and lower rows on the side of the turbulence wall, a wale 31 formed in a transverse direction and a flange 32 connected to both ends of the web 31,
A bracket 100 installed between the wales 30 provided in the upper and lower two rows,
A re-tensioning device 200 which is seated inside the bracket 100 to reinforce the strand,
And a reinforcement supporting means 300 coupled to the bracket 100 for receiving the strand fixing member 220 therein,

The bracket (100)
A front supporting plate 110 coupled to a front portion of a flange 32 located in front of the web 31 of the wale 30 provided with the two rows and having a first strand passage opening 111 through which a strand of strand passes,
A side support plate 120 coupled to both sides of the front support plate 110 and having a reinforcement work hole 121 for reworking,
And is coupled to both sides of the side support plate 120 and is accommodated in the upper and lower wale hairs 30 and is engaged with the front portion of the flange 32 located at the rear of the web 31, And a rear support plate (130) having a second strand passage hole (131) formed therethrough to allow a strand passed through the first strand passage (111)

The reauthorization device 200 comprises:
An angle adjustment holding part 210 coupled to the front surface of the second strand passage opening 131 and through which the stranded wire passes,
A reinforcement bolt 230 for reinforcement of the strand,
And a strand fixing member (220) for reeling the strand in a direction opposite to the bolt advance direction (f1) when the reinspection bolt (230) is rotated forward,
The strand fixing member 220 includes
And a rotation preventing groove (224) for preventing the strand fixing member (220) from being rotated by the rotation preventing stopper (330) of the reinforcement supporting means (300)

The reinsertion support means (300)
A front supporting part 310 having a front penetrating part 312 at a position corresponding to the first through-hole 111 and a rear supporting front part 310 coupled with the front supporting plate 110 of the bracket 100,
The other end of the angle adjusting and supporting portion 210 is received and coupled with the other end of the angle adjusting and supporting portion 210 so that the strand fixing member 220 is accommodated, A rear reinforcement supporting portion 320 having a hollow space formed therein,
And a rotation preventing stopper 330 located on the inner surface of the reinforcement supporting rear surface 320 to prevent the strand fixing member 220 from rotating,

The angle adjusting and holding unit 210
A bolt end mounting groove 211 formed on the surface of the angle adjusting and retaining portion 210 for fixing the end portion of the reinspection bolt 230,
And a predetermined number of stranded wire penetration portions (212) through which stranded wires are passed,

The strand fixing member 220 includes
A reinforcement bolt coupling part 221 formed of a thread corresponding to the reinforcement bolt 230 and coupled with the reinforcement bolt 230,
And a stranded wire fixture 222 formed at a position corresponding to the stranded wire penetration portion 212 of the angle adjustment and holding portion 210 and fixing the stranded wire,

While the end of the reinspection bolt 230 is fixed in the bolt end mounting groove 211 and the strand fixing member 220 is rotated in the opposite direction of the bolt advance direction f1 along the inner surface of the reinsertion support rear face portion 320 Anchor support system having a strand reinforcement function, characterized in that the strand is re-welded by displacement.
The method according to claim 1,
The reinsertion support means (300)
Further comprising support bolts (340) formed to pass through the reinsertion support means (300), the brackets (100), and the wales (30) through the support bolts (340).

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