KR101273160B1 - Anchorage assembles and structures for prestressing atypical concrete structures - Google Patents

Abstract

The present invention relates to a tension member fixing device used for introducing prestress to a concrete structure, in particular a tension material fixing device for introducing a prestress of an atypical concrete structure suitable for use when the end of the concrete structure is inclined atypical state and using the same It relates to a tension member fixing structure of a concrete structure.
According to a preferred embodiment of the tension member fixing apparatus of the present invention, in the tension member fixing apparatus for fixing the tension member and introducing prestress to the atypical concrete structure having the inclined surface at the end, the tension member fixing apparatus is provided on the end slope of the atypical concrete structure, A hemispherical support plate having a recessed concave hemisphere groove, and a hemispherical fixing plate having a fixing plate tension member insertion hole penetrated through the hemisphere support jaw; A steel ball having a steel ball tension material insertion hole penetrating through a centripet and spherically coupled to the hemisphere groove to be slidable; It characterized in that it comprises a wedge for clamping the tension member to be fixed to the steel ball side.

Description

Anchorage assembles and structures for prestressing atypical concrete structures

The present invention relates to a tension member fixing device used to introduce prestress into a concrete structure, in particular a tension material fixing device for introducing a prestress of an atypical concrete structure suitable for use when the end of the concrete structure is inclined atypical state and The present invention relates to a tension member fixing structure of an atypical concrete structure.

In general, concrete structures are strong for compressive stress but very weak for tensile stress. Therefore, by pre-tightening the concrete member in the re-axial direction to give a tensile stress it greatly expands the range to resist the tensile force. The use of this principle in concrete is called prestressed concrete and is often abbreviated as PS concrete. In addition, the compressive force given by pre-tightening is called prestress force, and the internal stress of the concrete cross section created by it is called prestress.

Prestressing is a method for prestressing, in which the PS steel wire is tensioned before striking the concrete. Pretensioning is called post-tensioning. .

In the case of post-tensioning, first, a concrete structure is manufactured and a tension material (used as a PS steel wire, a strand wire, etc.) is inserted into a sheath, and then the tension material is tensioned and fixed to the end of the concrete structure through a fixing device.

As such, fixing plates, wedge cones, and wedges are used to fix the tension member. The fixing plate is fixed to the end of the concrete structure, the wedge cone and the wedge is tapered to provide a friction force to the tension material serves to keep the wedge bite the tension material and maintain the tension position. The tension member should be given an equal tensile force. The fixing plate used in this way is installed so that the direction in which the tension member is disposed and the fixing cross section of the concrete structure are perpendicular to each other.

Recently, however, there is a trend that the atypical structure is rapidly increasing away from the conventional structure. In this case, the fixing device should be arranged to be perpendicular to the tension member, but when pre-stress is introduced into the atypical concrete structure (for example, the irregular slab slab) 1 as shown in FIG. Because of the need for unnecessarily curve placement, problems often arise in settlement after tension.

In order to solve this problem, conventionally, there is no choice but to construct a fixing device after block-out 1a so that a right angle surface is formed at the fixing end of the bottom slab. In this case, not only the workability of the fixing device is greatly degraded, but also there arises a construction problem in which the amount of backfill concrete increases.

Accordingly, there is a need for a fixing device of a tension member to overcome the technical problems of the existing fixing device so that even when the tension member fixing end of the concrete structure is inclined, the tension member may be easily arranged in a straight line rather than in a curved arrangement.

The present invention was devised in view of the above circumstances, and does not require a right angle arrangement with the tension member at the end of the atypical concrete structure, and introduces the prestress of the atypical concrete structure so that the tension member can be arranged in a straight line regardless of the angle of the fixing end. The purpose of the present invention is to provide a tension fixing device and a tension fixing device for an atypical concrete structure using the same.

In addition, another object of the present invention is that the formwork formwork is unnecessary at the end of the concrete structure, the shape does not change depending on the angle of the fixing end, constant, and the amount of backfill concrete of the fixing device is less, the introduction of prestress of the atypical concrete structure with excellent workability The present invention provides a tension fixing device and a tension fixing device for atypical concrete structures using the same.

According to a suitable embodiment of the tension member fixing device of the present invention,

In the tension member fixing device for fixing the tension member to introduce prestress to the atypical concrete structure having an inclined surface at the end,

A hemispherical fixing plate installed on an end slope of the atypical concrete structure and having a hemispherical support jaw having a concave hemisphere groove recessed in one side, and a fixing plate tension member insertion hole penetrated through the hemisphere support jaw;

A steel ball having a steel ball tension material insertion hole penetrating through a centripet and spherically coupled to the hemisphere groove to be slidable;

It characterized in that it comprises a wedge for clamping the tension member to be fixed to the steel ball side.

In this case, the steel ball may be formed in a hemispherical shape having a cutting surface, and the wedge fixing taper hole penetrating the center of the cutting surface may be included.

In addition, the steel ball may be formed in a spherical shape and includes a tapered hole for fixing the wedge through the core.

In addition, a wedge fixing head having a tapered hole for tapering the wedge at one end thereof, and having a hemisphere groove contacting the steel ball and the spherical surface at the other end thereof, the wedge fixing head may be further disposed between the wedge and the steel ball.

On the other hand, one form of the tension member fixing structure of the atypical concrete structure using the tension member fixing device according to the present invention,

Tension material is introduced into the sheath installed in the atypical concrete structure,

A hemispherical fixing plate is inserted into the tension member and attached to the inclined end of the atypical concrete structure,

The steel ball inserted at the end of the tension member is in close contact with the hemisphere groove of the hemispherical fixing plate,

The wedge fixing head is inserted at the end of the tension member and supported on the steel ball side,

The wedge is tapered to the wedge fixing head and the tensile force introduced to the tension member and at the same time the steel ball is characterized by having a structure in which the prestress is introduced by linearly arranged by the tension member is rotated in the hemispherical fixing plate.

Meanwhile, another form of the tension member fixing structure of the atypical concrete structure using the tension member fixing device according to the present invention,

Tension material is introduced into the sheath installed in the atypical concrete structure,

A hemispherical fixing plate is inserted into the tension member and attached to the inclined end of the atypical concrete structure,

A steel ball having a cutting surface is inserted into the end of the tension member to be in close contact with the hemisphere groove of the hemispherical fixing plate,

 The wedge is tapered to the steel ball by the tension force introduced to the tension material, and at the same time the steel ball is rotated in the hemispherical fixing plate is characterized in that the tension material is arranged in a straight line to have a pre-stress is introduced.

According to the tension fixing device suitable for the pre-stress introduction of the atypical concrete structure according to the present invention and the tension fixing device of the concrete structure using the same, the steel ball is actively rotated according to the angle in the hemispherical fixing plate to correlate with the end angle in the atypical concrete structure The tension member can be arranged in a straight line.

Thus, the right angle placement of the tension member at the end of the ragged concrete structure is not necessary. In addition, the fixing unit formwork at the end is unnecessary or small in size and can be configured without changing the shape depending on the angle of the end. In addition, the amount of concrete used for backfilling the fixing device at the fixing end has the advantage of excellent workability.

The following drawings, which are attached in the present specification, illustrate exemplary embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a state of use of the tension member fixing device according to a first embodiment of the present invention.
Figure 2 is a view showing the spherical motion of the steel ball and wedge fixing head applied to the tension member fixing device according to a first embodiment of the present invention.
3 is a perspective view of a tension member fixing device according to a first embodiment of the present invention.
Figure 4 is a schematic diagram showing the arrangement of the tension member in the state applying the tension member fixing apparatus according to the present invention.
5 is a state of use of the tension member fixing device according to a second embodiment of the present invention.
Figure 6 is a view showing the spherical motion of the steel ball applied to the tension fixing device according to a second embodiment of the present invention.
7 is a perspective view of a tension member fixing device according to a second embodiment of the present invention.
Figure 8 is a schematic diagram showing the arrangement of the tension member and the blockout for filling the tension member at the inclined end of the conventional concrete slab slab.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

The tensioning device fixing device according to the present invention is used to introduce prestress into the atypical concrete structure 1 having the inclined surface 1c at the end by tensioning and fixing the tension member 3 as shown in FIG. In other words, the 'tension material fixing device' is characterized in that even though the tension member and the fixing plate do not form a right angle, the correction is made by the steel sphere and the right angle is made. Therefore, the end angle of the concrete structure (for example, slab slab) can be easily used when forming an acute angle or an obtuse angle without forming a right angle.

≪ Embodiment 1 >

A first embodiment of a 'tension material fixing device' according to the present invention is shown in Figs.

1 to 3, the 'tension material fixing device' is provided with a hemispherical fixing plate 10. The hemispherical fixing plate 10 may be installed as an anchor bolt on the end slope 1c of the atypical concrete structure 1.

The hemispherical fixing plate 10 has a hemispherical support jaw 12 having a concave hemispherical groove 12a recessed in one surface of the plate-shaped plate body 11. The hemispherical groove 12a is a groove formed into a spherical surface recessed by the same radius in the center. The hemispherical support jaw 12 is formed with a fixing plate tension member insertion hole 12b penetrated to the center of the hemisphere groove 12a. The fixing plate tension member insertion hole 12b is formed larger than the diameter of the sheath 2.

Steel ball 20 is coupled to the hemispherical fixing plate 10 so as to be rotatable in a spherical surface. The steel ball 20 forms a circular spherical surface whose surface has the same radius at the center. At this time, the center of gravity of the steel ball 20 is the same as the center of gravity of the hemisphere groove 12a formed in the hemispherical fixing plate 10. Therefore, the steel balls 20 are spherically coupled to the hemisphere groove 12a to be slid in the free direction.

Wedges (30) for clamping the tension member (3) disposed on the atypical concrete structure (1) to be fixed to the steel ball (20) side are provided. The wedge 30 is a known one consisting of a tapered outer circumferential surface may be of a divided or undivided integral type divided in the circumferential direction.

Between the wedge 30 and the steel ball 20 is provided a head for fixing the wedge 40 through which the tension material 3 penetrates. The wedge fixing head 40 has a wedge fixing taper hole 40a that is tapered and coupled to the wedge 30 at one end thereof, and a hemisphere groove 40b is formed at the other end thereof in contact with the steel ball 20 in a spherical shape. . At this time, the wedge fixing taper hole 40a is configured in a tapered shape having the same slope as the wedge 30.

The tension member fixing device of the first embodiment configured as described above is installed as shown in FIG. 1.

As shown in FIG. 1, the tension member 3 is inserted into the sheath 2 installed in the atypical concrete structure 1. Here, the tension material 3 may be a PS steel wire, a PS steel wire, a PS steel bar, or the like as the PS steel.

Next, the hemispherical fixing plate 10 is inserted into the end of the tension member 3 and attached to the end inclined surface 1c of the atypical concrete structure 1. At this time, the tension member 3 penetrates the fixing plate tension member insertion hole 12b of the hemispherical fixing plate 10.

Next, the steel ball 20 passes through the end of the tension member 3 to be in close contact with the hemisphere groove 12a of the hemispherical fixing plate 10. In this case, the steel ball 20 is in a state capable of sliding rotation movement in the spherical surface forming the hemisphere groove (12a). 2 shows the sliding motion of the steel ball 20 and the wedge fixing head 40.

Then, the wedge fixing head 40 is in close contact with the spherical surface of the steel ball 20. At this time, the end portion of the tension member 3 is inserted into the wedge fixing head 40 by inserting the wedge fixing taper hole 40a.

Then, the wedge 30 is assembled to the wedge fixing taper hole 40a of the wedge fixing head 40.

When the tension material is ready to be settled in this way, a hydraulic jack (not shown) is installed on the wedge fixing head 40 side to tension the tension material 3, and the wedge 30 tapers the tensioned tension material 3. It is fixed by position. At this time, the steel ball 20 is spherical coupling in the hemispherical fixing plate 10 so that the wedge fixing taper hole 40a of the wedge fixing head 40 and the steel ball tension member insertion hole 20a of the steel ball 20 are placed in a straight line. By rotating the tension member 3 so that the tension member 3 can be installed at right angles to the vertical cross section of the atypical concrete structure 1.

Thus, the prestress introduced into the atypical concrete structure 1 acts at right angles to the vertical section of the atypical concrete structure 1.

As described above, according to the present invention, the steel ball 20 is actively compensated for rotation in accordance with the angle in the hemispherical fixing plate 10 so that the tension member 3 is free from the end angle even in the atypical concrete structure 1 (or atypical bottom plate slab). It is arranged in a straight line as shown in FIG.

Thus, a right angle arrangement with the tension member 3 at the end of the atypical bottom slab is not necessary. In addition, at the slab end, the fixture formwork is unnecessary or small in size, and can be configured constantly without changing the shape according to the angle of the fixing end. In addition, the amount of backfilling concrete of the end-side fixing device of the atypical deck slab is reduced so that the workability is improved.

≪ Embodiment 2 >

Meanwhile, in the present invention, as shown in FIGS. 5 to 7, the steel ball 20 is formed in a hemispherical shape having a cutting surface 21, and the cutting surface 21 includes a wedge fixing taper hole 21a penetrating through a centripet. Can be configured. In the second embodiment, the wedge fixing head 40 of the first embodiment is removed.

In the second embodiment configured as described above, the hydraulic jack (not shown) may be supported by the cutting surface 21 of the steel ball 20 to tension the tension member 3. At this time, after the wedge 30 is inserted into the wedge fixing taper hole 21a, the tension force is introduced into the atypical concrete structure 1.

At this time, the half spherical surface of the steel ball 20 is in the spherical coupling state in the hemispherical groove (40b) of the hemispherical fixing plate 10, the sliding rotation occurs to enable the linear arrangement of the tension member (3).

In the case of the second embodiment, the same operation and effect as in the first embodiment can be obtained, and furthermore, the wedge fixing head 40 can be removed to reduce the manufacturing cost.

On the other hand, in the second embodiment, the semi-circular steel balls 20 may be constituted by the round steel balls 20 having the same wedge fixing taper holes 21a.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is only limited by the scope of the appended claims.

10: hemispherical fixing plate
12: hemisphere support jaw
12a: hemisphere groove
12b: tension hole
20: steel balls
21a: tapered hole
30: wedge
40: wedge fixing head
40b: hemisphere groove

Claims (6)

In the tension member fixing device for introducing the prestress to the atypical concrete structure (1) having the inclined surface at the end by tensioning and fixing the tension member (3),
Hemispherical support jaw 12, which is installed on the inclined end surface of the atypical concrete structure 1, has a concave hemisphere groove 12a recessed in one side, and a fixing plate tension member insertion hole 12b penetrated through the hemisphere support jaw 12. Hemispherical fixing plate 10 having a);
Steel ball 20 having a steel ball tension material insertion hole 20a penetrating through a centripet and spherically coupled to the hemisphere groove 12a to be formed to be rotatable and formed in a spherical shape and having a wedge fixing taper hole 21a penetrating the centripet. );
Wedges (30) for pinching the tension member (3) to be fixed to the steel ball (20) side; And
The wedge 30 has a tapered hole 40a for tapering the wedge 30 at one end thereof, and has a hemispherical groove 40b contacting the steel ball 20 with a spherical surface at the other end, and the wedge 30 and the steel ball 20 Tension fixing device for introducing the prestress of the atypical concrete structure, characterized in that it comprises a wedge fixing head 40 positioned between. delete delete delete The tension member 3 is introduced into the sheath 2 installed in the atypical concrete structure 1,
A hemispherical fixing plate 10 is inserted into the tension member 3 and attached to the inclined end of the atypical concrete structure 1,
The spherical steel ball 20 inserted into the end of the tension member 3 is in close contact with the hemisphere groove 12a of the hemispherical fixing plate 10,
The wedge fixing head 40 is inserted at the end of the tension member 3 and supported on the steel ball 20 side,
The wedge 30 is tapered to the wedge fixing head 40 by the tension force introduced into the tension member 3, and at the same time, the steel ball 20 is rotated in the hemispherical fixing plate 10 so that the tension member 3 is linearly disposed. A tension member fixing structure of an atypical concrete structure using a tension member fixing device, characterized by having a structure in which prestress is introduced. delete

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