KR200485042Y1 - Anchorage apparatus for corrosion protection of steel strand - Google Patents

Abstract

The present invention is based on the idea that the unbonded post-tensioning method effectively prevents the peeling of the sheath of the stranded wire located in the concrete or steel structure under the condition that the stranded wire is fixed to the concrete or steel structure, To provide a fixture for preventing corrosion of stranded wire. In order to achieve the above object, the present invention provides a fixing port for preventing corrosion of a stranded wire comprising: a support plate supported around an opening of a concrete or steel structure in which a plurality of through holes through which a stranded wire penetrates, A fixing pipe fixedly attached to the back surface of the support plate so as to communicate with the through holes; And a guide pipe connected to the fixed pipe and guiding the stranded wire to the anchor head side.

Description

Anchorage apparatus for corrosion protection of steel strand

The present invention is based on the idea that the unbonded post-tensioning method effectively prevents the peeling of the sheath of the stranded wire located in the concrete or steel structure under the condition that the stranded wire is fixed to the concrete or steel structure, The present invention relates to a fixing port for preventing corrosion of a stranded wire.

Generally, the post-tension method is divided into two types: bond method and unbonded method depending on whether the concrete member is integrated with the strand after the tensile force is applied to the strand used as the tensile material. Respectively.

When the concrete is hardened, it is tensioned and fixed by inserting a stranded wire without a covering into the duct. When the fixing of the strand is completed, the duct is grouted and the strand and the concrete are integrally formed It is a method to make it behave. Such an attachment method is safe for the external environment (unexpected load, fire and corrosion) because the stranded wire is integrated with the concrete while being embedded in the concrete, but the process for integrating the stranded wire and concrete is complicated.

On the other hand, the non-adhering method is a method of tensioning and fixing using a stranded wire in the form of a finished product structure surrounded by a grease for preventing permanent corrosion around a strand without a coating and wrapped in a cloth around the grease. Since the enclosed stranded wire is exposed to the outside of the concrete, there is no need for separate grouting and the stranded wire is not integrated with concrete, so it is easy to construct and can be re-tensioned later. .

In order to change the compressive force of the concrete introduced through the stranded wire in the above post-tensioning method, it is necessary to fix one end of the stranded wire to the concrete structure. In the case of the unbonded post-tensioning method using the coated stranded wire A part of the coating of the end portion of the strand is partially peeled off so as to be engaged with a wedge provided in each wedge hole of the anchor head and then the end of the stranded wire peeled off from one side of the fixture object concrete structure is passed through, And then the ends of the exposed strand are engaged with the respective wedge hole portions of the anchor head to perform a tensile operation of the strand through the tensioner.

However, when a strand is installed at a site in order to introduce a prestress into a concrete structure, there is a variation in construction in each site, so that the length of the portion where the sheath is peeled off in each strand exposed to the outside of the concrete structure It is difficult to interlock with the anchor head, which causes problems in smooth tensioning operation. Because of such a problem, in general, in order to smoothly engage with the anchor head in view of the above-mentioned deviation in the construction, the cover of the end portion of the strand is more easily cut off and peeled off.

However, when a strand which is peeled off the cover is used in the field as described above, there is no problem in performing the tensioning operation by engaging the end of the stranded strip with the anchor head. However, It is possible to prevent corrosion of stranded wire due to contact of air or moisture because it is positioned in a state exposed to the inside of the rear side concrete structure and the safety wire may be damaged due to the situation that the stranded wire is broken due to corrosion of such stranded wire. There was a problem.

Patent Publication No. 2012-0116041 (October 22, 2012)

The present invention has been made in order to solve the above problems, and a technical problem to be solved in the present invention is to provide a method of effectively preventing corrosion, which occurs when a stripped portion is exposed to air in a concrete or steel structure after a strand is fixed And to provide a fixture for preventing corrosion of stranded wire.

Another technical problem to be solved in the present invention is to induce a plurality of strand bundles drawn out to the outside through a concrete or steel structure for tensioning of the strand to be aligned with the anchor head easily aligned with each other, And to provide a fastening port for preventing corrosion of a stranded wire which can quickly and conveniently carry out a connection operation with an anchor head.

According to an aspect of the present invention, there is provided a fixture for preventing corrosion of stranded wire, comprising: a plurality of through holes through which a stranded wire penetrates; a support plate supported around an opening of a concrete or steel structure, and; A fixing pipe fixedly attached to the back surface of the support plate so as to communicate with the through holes; And a guide pipe connected to the fixed pipe and guiding the stranded wire to the anchor head side.

Here, the guide pipe may be made of the same material as the covering of the stranded wire.

In addition, the fixed pipe and the guide pipe may be disposed on the inner space of the opening of the structure.

At this time, the guide pipe may be formed to have a length longer than a length of the opening so that a part thereof is exposed to the outside of the opening of the structure.

In addition, a plurality of through holes formed in the support plate may be arranged on a position corresponding to a plurality of wedge holes formed in the anchor head.

At this time, each of the surfaces of the support plate and the anchor head which are in contact with each other may have a concavo-convex structure engaging with each other.

In addition, a support plate to which the support plate is closely contacted may be embedded in the periphery of the opening of the structure.

According to the fixing hole structure for preventing strand corrosion of the present invention having the above-described structure, after the strand is fixed, the stripped portion of the stranded wire located in the concrete or steel structure is completely protected by the fixing pipe and the guide pipe, It is possible to prevent the occurrence of corrosion on the stranded wire by preventing the contact with moisture, and by suppressing the rupture of the stranded wire due to the corrosion of the stranded wire, a stable fixing structure of the stranded wire can be realized.

In addition, when the preparation for tensile of the strand is performed, a stranded wire is inserted into the guide pipe exposed on the rear side of the concrete or steel structure, so that the strand can be easily introduced to the front side of the concrete or steel structure where the anchor head is located. Installation and tensioning can be performed quickly and easily.

In addition, since a plurality of strands of strands inserted through the plurality of guide pipes and drawn out to the outside of the through-holes of the support plate are aligned in a state ready to be engaged with the respective wedge holes of the anchor head, The operation of engaging the end portions with the respective wedge holes of the anchor head can be performed quickly and conveniently.

In addition, since the guide pipe is made of the same flexible and corrosion-resistant plastic material as that of the stranded wire, it is possible to introduce a stranded wire in a state in which the rear end portion of the guide pipe is bent so as not to interfere with the adjacent guide pipe The introduction work of the stranded wire can be easily performed and the portion of the stranded wire after the stranded wire is peeled off is protected by the guide pipe to prevent the occurrence of corrosion.

Further, since the concavo-convex portion that can be engaged with each other by the concave-convex structure is formed on the surface where the support plate and the anchor head contact with each other, the wedge hole portion of the anchor head can be aligned on the correct position corresponding to the through- Accordingly, the tensile work of the strand can be more effectively and stably performed.

Since the support plate for supporting the support plate of the fixing port for preventing corrosion of the stranded wire is embedded around the opening of the concrete or steel structure, the load transmitted from the anchor head through the support plate and the support plate during the tensioning operation of the stranded wire is effectively supported So that after the tension is completed, the steel wire anchorage can exhibit a strong bearing capacity on the concrete or steel structure and can be settled with stability.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing the entire structure of a stranded anchorage fixture including a fixture for preventing strand corrosion in accordance with one embodiment of the present invention; FIG.
FIG. 2 is an exploded perspective view showing a fixing port for preventing strand corrosion in accordance with one embodiment of the present invention; FIG.
Figure 3 is a perspective view showing the combined view of Figure 2;
Fig. 4 is a rear perspective view of Fig. 3; Fig.
5 is a sectional view showing a state in which an end of a strand is inserted from a rear end of a guide pipe in a state where a fixation port for preventing strand corrosion is installed according to the present invention.
6 is a cross-sectional view showing an end of a stranded wire inserted into a guide pipe and then engaged with an anchor head;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a fixture for preventing corrosion of stranded wire according to the present invention will be described in detail with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

According to the present invention, the fixing port for preventing corrosion of stranded wire can be formed by a post-tension method in which a stranded wire coated with a corrosion-resistant coating is fixed on a concrete or steel structure, and a stranded wire portion It is possible to effectively prevent corrosion caused by exposure to the air in the concrete or the steel structure, and also to prevent a plurality of strand bundles, which are drawn out to the outside through the concrete or the steel structure during preparation for tensioning of the strands, And it is possible to quickly and easily combine the anchor head and the stranded wire by inducing the joints to be aligned in an easy position.

FIG. 1 is a view showing the entire construction of a stranded wire fixture including a fixture for preventing corrosion of stranded wire according to one embodiment of the present invention.

Prior to the concrete description of the present invention, the portion where the anchor head 140 is positioned on the basis of the concrete structure 101 shown in Fig. 1 is referred to as a front side (left side in the drawing) and the opposite side is referred to as a rear side To the right).

In addition, in one embodiment of the present invention, a concrete structure is described as an example of a target structure on which a fixing port for preventing strand corrosion is mounted, but it is also possible to apply the same to a steel structure other than the concrete structure.

Referring to FIG. 1, a square plate-like shape having a center hole 121 having a diameter corresponding to the opening 102 is formed around a front side opening 102 of a concrete structure 101 through which a strand 110 passes, The support plate 120 is installed in a buried form.

The support plate 120 is previously embedded in the front side of the opening 102 in the process of forming the concrete structure 101 through the molding work so as to cure the concrete after curing and thereby cure the support plate 120 to the front side of the opening 102 of the concrete structure 101 And is integrally installed.

In this case, the outer surface of the support plate 120, which is embedded in the front surface of the concrete structure 101, is formed to be coplanar with the outer surface of the concrete structure 101, As shown in Fig.

The fixing hole 130 of the present invention is located on the front side of the support plate 120. The fixing hole 130 is formed in a state in which a part of the rear side of the fixing hole 130 is inserted into the center hole 121 and the opening 102, (120).

An anchor head 140 is provided on the front side of the fixing hole 130 so as to be engaged with an end portion 112 of the strand 110 which is drawn out through the fixing hole 130 and peeled off.

A plurality of wedge holes 142 are formed in the anchor head 140 to receive the end portions 112 of the strands 110 whose sheaths are peeled off and the end portions 112 of the strands 110 A plurality of divided wedges 144 are mounted.

The number of wedge holes 142 of the anchor head 140 is always matched with the number of the stiffening wires 110. In this case, It does not.

The anchor head 140 may be manufactured by changing the number of the wedge holes 142 in accordance with the number of the stranded wires 110. In general, the number of the wedge holes 142, The head 140 is used. Therefore, when the number of the stranded wires 110 is less than the number of the wedge holes 142, the stranded wire 110 can be engaged with only a part of the wedge holes 142 formed in the anchor head 140 to perform tensioning.

2 to 4 show the detailed structure of the fixing port 130 for preventing corrosion of stranded wire according to the present invention.

2 through 4, the fixing port 130 for preventing strand corrosion is provided with a disk-shaped supporting plate 131, a plurality of fixing pipes 132 fixed to the back surface of the supporting plate 131, And a guide pipe 133 fitted and joined.

The support plate 131 is a disc-shaped metallic structure having a predetermined thickness and is formed to have the same diameter as the anchor head 140 or a diameter larger than that of the anchor head 140. In this case, the shape of the support plate 131 may be various forms other than the disk shape as described above.

The support plate 131 is formed with a plurality of through holes 131a through which the strand 110 is inserted. At this time, the through holes 131a are disposed on positions corresponding to the wedge holes 142 formed in the anchor head 140 to form a communication structure.

The number of the through holes 131a is equal to the number of the strands 110 and the number of the wedge holes 142 of the anchor head 140 is equal to or greater than the number of the through holes 131a. .

The support plate 131 having such a structure is held in contact with the outer surface of the support plate 120 buried in the front surface of the concrete structure 101 and is supported by the support plate 120 during the tensile operation of the strand 110. [ Thereby supporting the load transmitted from the anchor head 140.

In this case, the support plate 131 may be fastened to the support plate 120 by a separate fastening means such as a bolt in a state of being closely attached to the outer surface of the support plate 120 as described above.

The through hole 131a of the support plate 131 and the wedge hole 142 of the anchor head 140 are disposed at precise positions relative to each other when the anchor head 140 is installed, A recessed portion (not shown) having a concave structure is additionally formed on one side of the concave portion, which is engageable with each other by a concave-convex structure, on each side of the support plate 131 and the anchor head 140 which are in contact with each other .

The anchor head 140 may be engaged with the strand 110 to tension the strand 110 and the support plate 131 may be fixed to the support plate 131. [ The wedge hole 142 of the anchor head 140 can be aligned with the through hole 131a of the support plate 131 so that the anchor head 140 and the support plate 131 The anchor head 140 can be aligned on a precise position suitable for tensioning the strand 110, so that the strand tensioning operation can be stably performed.

On the other hand, on the rear surface of the support plate 131, a fixed pipe 132 communicating with the plurality of through holes 131a is provided.

The fixed pipe 132 is made of the same metal material as the support plate 131 and is integrally fixed to the rear surface of the support plate 131 around the through holes 131a by welding.

The fixed pipe 132 serves as a connecting port for connecting the through hole 131a and the guide pipe 133 to each other and at the same time holds the end of the flexible strand 110 in a straight line shape so as to extend forward through the through hole 131a So that it is guided to be drawn out.

At this time, it is preferable that the fixing pipe 132 is formed so as to have a diameter and a length so that the end portion of the guide pipe 133 can be easily connected to the outer circumferential surface by a press-fitting method,

Such a fixed pipe 132 may be independently provided without extending the guide pipe 133 according to circumstances. That is, when the fixing port of the present invention is realized by only the support plate 131 and the fixing pipe 132, the length of the fixing pipe 132 is extended to the rear side of the opening 102 of the concrete structure 101, The stranded wire 110 can be directly introduced to the rear end side of the strand 132.

In the meantime, if the length of the fixing pipe 132 is increased by eliminating the installation of the guide pipe 133 as described above, there is an advantage that the structure of the fixing hole 130 can be simplified, but the fixing pipe 132 The total weight of the fixture 130 and the manufacturing cost may increase. Therefore, it is preferable that the length of the fixing pipe 132 is formed as short as possible in the embodiment of the present invention, and the guide pipe 133 having a relatively light weight is connected to the fixing pipe 132 in terms of workability and economy It will be advantageous.

The guide pipe 133 is made of a flexible material that can be bent or bent unlike the fixed pipe 132 and is inserted into the outer peripheral surface of the rear end of the fixed pipe 132 by press fitting. At this time, the guide pipe 133 may be made of the same plastic material as that of the steel strip 110 having a certain degree of flexibility and having corrosion resistance.

Although not shown in the drawings, the fixing pipe 132 and the guide pipe 133 are coupled to each other on each of the mating surfaces of the fixing pipe 132 and the guide pipe 133, An annular protrusion and a groove may be additionally formed to be engaged with the concave and convex structure.

For example, an annular protrusion may be formed on the outer circumferential surface of the fixed pipe 132 and an annular groove may be formed on the inner circumferential surface of the guide pipe 133 to engage with the protrusion. Alternatively, And a groove can be formed on the outer circumferential surface of the fixed pipe 132.

5 shows a cross-sectional view of the fixture 130 for preventing strand corrosion of the present invention installed around the opening 102 of the concrete structure 101. As shown in FIG.

5, the fixation port 130 of the present invention is configured such that a portion of the support plate 131 is inserted into the support plate 120 in a state where the portions of the fixing pipe 132 and the guide pipe 133 are inserted into the opening 102, As shown in FIG.

The length of the guide pipe 133 is larger than the length of the opening 102 in the horizontal direction so that the guide pipe 133 inserted into the opening 102 has its rear end opened to the opening 102 of the concrete structure 101 ) Is partially exposed to the rear side.

The guide pipe 133 is exposed from the rear side of the opening 102 of the concrete structure 101 to the outside through the rear end of the guide pipe 133, 110) can be easily inserted and inserted.

Since the guide pipe 133 is flexible enough to move vertically and horizontally unlike the fixed pipe 132, the guide pipe 133 extended to the rear side of the opening portion 102 is provided with a stranded wire The stranded wire 110 can be inserted into the guide pipe 133 in a state where the rear end side of the guide pipe 133 is bent upward or downward without interfering with another adjacent guide pipe. The introduction of the strand 110 can be carried out more easily.

6 shows a state in which the strand 110 inserted through the guide pipe 133 is tensioned in the state of being engaged with the anchor head 140 on the front side and then fixed.

6, the strand 110 inserted from the rear end of the guide pipe 133 of the fixing port 130 according to the present invention is drawn out through the fixing pipe 132 and the through hole 131a, The anchor head 140 is engaged with the anchor head 140 to perform a tensioning operation.

6, the end portion 112 of the strand 110 peeled off is not directly exposed to the opening 102 of the concrete structure 101 but has corrosion resistance Since it is protected by being wrapped around the guide pipe 133, direct contact with air or moisture is not performed and corrosion of the laminating property 110 is not caused.

In order to obtain a more complete corrosion prevention effect, a certain pressure is applied to the gap filling space of the anchor head 140 of the anchor head 140 where the end portion 112 of the strand 110 is engaged, The filler is filled from the anchor head 140 to the rear end of the guide pipe 133 so that the part of the strand 110 peeled off is doubly protected through the filler so that the strand 110 is completely corroded. .

In this case, the wedge hole 142 of the anchor head 140 filled with the filler material and the gap space of the rear end of the guide pipe 133 may be sealed to prevent leakage of the filling material filled therein. The sealing of the rear end side of the guide pipe 133 is performed by ringing the rear end side of the guide pipe 133 so as to seal a clearance space formed between the inner circumferential surface of the guide pipe 133 and the outer circumferential surface of the strand 110, Shaped sealing member can be press-fitted and fitted, and then the peripheral portion thereof can be taped to be firmly sealed.

While the preferred embodiments of the present invention have been described, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be possible to change it.

101: concrete structure 102: opening
110: strand 120: support plate
130: Fixing hole 131: Support plate
131a: Through hole 132: Fixed pipe
133: guide pipe 140: anchor head
142: Wedge hole 144: Wedge

Claims (7)

1. A fixture for preventing corrosion of a stranded wire using a non-adhesive method in which a coated strand is used and a strand part surrounded by a coating is exposed to the outside of a concrete or steel structure,
A support plate disposed between the support plate embedded in the vicinity of the opening of the concrete structure or the steel structure and the support plate supported by the support plate portion together with the anchor head, ;
A fixing pipe fixedly attached to one side surface of the support plate so as to communicate with the through holes, respectively, and holding a strand through the inside of the support plate in a linear shape;
A guide pipe connected to the fixed pipe and guiding the stranded wire to the anchor head side; / RTI >
Wherein the plurality of through holes are arranged on a position corresponding to a plurality of wedge holes formed in the anchor head,
The fixing pipe is integrally fixed to the back surface of the support plate around the through holes by welding,
Wherein the guide pipe is made of a flexible material capable of bending or bending, and is fitted to the outer peripheral surface of the rear end of the fixing pipe in a press fitting manner.
The fixing member according to claim 1, wherein the guide pipe is made of the same material as that of the stranded wire.
The fixing port according to claim 1, wherein the fixing pipe and the guide pipe are disposed in an inner space of an opening of the structure.
[5] The fixture of claim 3, wherein the guide pipe is longer than a length of the opening so that a portion of the guide pipe is exposed outside the opening of the structure.
delete The fixing member according to claim 1, wherein a concave-convex portion is formed on each of the surfaces of the support plate and the anchor head, the concave-convex portion being engaged with each other.
delete

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