KR101104212B1 - Prestressed Tendon Anchoring Apparatus - Google Patents

Abstract

The present invention relates to a prestressed steel wire fixing device, wherein the prestressed steel wire is fixed to the first, second and third fixing plate members, including the first, second and third fixing plate members spaced apart by the first and second steel wire guide tubes. The load generated in the fixing unit is distributed and supported.

The present invention has the effect of increasing the durability of the pre-stressed concrete girder by supporting the load generated in the fixing unit in which the prestressed steel wire is fixed in the concrete girder.

In addition, the present invention is because the load generated from the fixing portion of the prestressed steel wire is distributed and supported, so that the prestressed steel wire can be fixed to the hollow portion formed in the abdomen or the abdomen of the thin concrete girder, thereby increasing the degree of freedom of prestress application design The effect is to increase.

Description

Prestressed Tendon Anchoring Apparatus}

The present invention relates to a prestressed steel wire fixing device, and more particularly, to be easily used in the narrow cross section of the concrete girder.

In general, concrete girders are beams installed at both ends of a pair of pillars erected on the ground at intervals, and are mainly used as supporting beams for supporting slabs of bridges or building floors or ceilings.

The concrete girder is usually formed of I-type or H-type, bulb T-shape with a flange on the upper and lower abdomen, and is mainly structured to support the load from the upper side, the compressive force is generated to the load side of the upper flange To the lower flange side, a tensile force corresponding to the compressive force is generated.

Concrete girder is a problem that is easily broken by the tension generated in the lower flange side when used in bridges, construction, civil engineering structures.

On the other hand, in order to solve the above problems by introducing a prestress to the concrete girder is a situation that reinforces the rigidity against the tensile force generated in the lower flange side.

The concrete girder mainly introduces prestresses using prestressed steel wires, which are inserted into the sheath pipes embedded in the concrete girder and piped, and then fixed by a prestress fixing device provided at the end of the sheath pipes.

As shown in FIG. 1, the prestress fixing device includes a fallopian tube member 5 having a larger cross section from an end to which the sheath tube is connected, and an end of the prestressed steel wire 4 fixed to the end of the fallopian tube member 5. And a fixing plate member 6 having a through-hole 6a through which the anchor head 3 is mounted and through which the prestressed steel wire 4 fixed to the anchor head 3 passes.

However, the conventional prestress fixing device is embedded in the fixing portion of the prestressed steel wire (4) provided in the concrete girder (1), and supports the tension force of the prestressed steel wire (4) by one fixing plate member (6) This concentration is a problem that cracks easily occur in the fixing portion of the concrete girder (1).

Therefore, the prestressed steel wire 4 cannot be fixed to the abdomen of the concrete girder 1 having the abdomen or the hollow part of the thin concrete girder 1, and there is a closed end in which the prestress is limited according to the load design. .

An object of the present invention is to provide a prestressed steel wire fixing device that can increase the durability of the concrete girder by distributing and supporting the load in the fixing portion of the prestressed steel wire when the prestress is applied to the concrete girder.

Another object of the present invention is to provide a prestressed steel wire fixing device which can increase the degree of freedom of design according to the application of prestressing by allowing the prestressed steel wire to be fixed to the abdomen of the concrete girder having a thin thickness or hollow part.

The object of the present invention is a first steel wire guide tube protruding the pipe connection portion is connected to the sheath pipe on one side and the prestressed steel wire passes through the other side, the first through the pipe connection and the first steel wire guide tube A first fixing plate member having a through hole;

One side is fixed to the first steel wire guide tube of the first fixing plate member, the second steel wire guide tube which is communicated with the first steel wire guide tube on the other side and the prestressed steel wire passes through, and communicates the first and second steel wire guide tube A second fixing plate member having a second through hole to be formed;

One side is solved by providing a prestressed steel wire fixing device including a third fixing plate member fixed to the second steel wire guide tube of the second fixing plate member, the third fixing plate member having a third through hole communicating with the second steel wire guide tube. .

The present invention has the effect of increasing the durability of the pre-stressed concrete girder by supporting the load generated in the fixing unit in which the prestressed steel wire is fixed in the concrete girder.

In addition, the present invention is because the load generated from the fixing portion of the prestressed steel wire is distributed and supported, so that the prestressed steel wire can be fixed to the hollow portion formed in the abdomen or the abdomen of the thin concrete girder, thereby increasing the degree of freedom of prestress application design The effect is to increase.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

Figure 2 is a perspective view showing a basic configuration of the present invention, the first, second, third fixed plate member is connected via the first and second steel wire guide tube, respectively, between the second, third fixed plate member 3 shows an example in which a rib member for reinforcing the rigidity of the fixed plate member is provided.

3 is a perspective view illustrating another embodiment of the present invention, and shows an example in which a rib portion for reinforcing rigidity of the first fixing plate member is provided between the first and second fixing plate members.

4 is a cross-sectional view showing the structure of the present invention, showing an example in which the filling guide tube for inserting the filler into the second steel wire guide tube is connected to the front of the third fixing plate member.

Fig. 5 is a state diagram of use of the present invention, showing an example of fixing the prestressed steel wire to the hollow portion of the abdomen in the concrete girder using the present invention.

Hereinafter, as shown in FIG. 2, the first fixing plate member 10 of the present invention has a pipe connection portion 11 protruding from the sheath pipe 2 connected to one surface thereof, and communicates with the pipe connection portion 11 on the other surface thereof. The first steel wire guide tube 12 is protruded.

The first fixing plate member 10 is provided with a first through hole 13 for communicating the pipe connecting portion 11 and the first steel wire guide tube 12 to the prestressed steel wire 4 which is guided through the sheath tube 2. ) To be guided into the first steel wire guide tube (12).

The second fixing plate member 20 is fixed to the end of the first steel wire guide tube 12, the second fixing plate member 20 is formed to have a larger cross-sectional area than the first fixing plate, the first steel wire guide A second through hole 22 communicating with the tube 12 is provided.

One surface of the second fixing plate member 20 is fixed to the first steel wire guide tube 12 as described above, the opposite side of the second through-hole 22 to communicate with the first steel wire guide tube 12 A second steel wire guide tube 21 fixed to the outside is provided.

In addition, one end of the third fixing plate member 30 is fixed to an end of the second steel wire guide tube 21, and the third through plate member 30 communicates with the second steel wire guide tube 21. Ball 31 is provided.

And the inner circumferential surface of the first and second steel wire guide tube (12, 21) is provided with an expansion pipe inclined portion (21a) for guiding the pipe is gradually expanded from the first through hole 13 to the third through hole (31) The steel wire inserted from the sheath tube 2 is smoothly guided to the third through hole 31 of the third fixing plate member 30 so as to stably secure the fixing space of the prestressed steel wire 4.

The third fixing plate member 30 is formed to have a larger cross-sectional area than the second fixing plate member 20.

That is, the most load is generated in the third fixing plate member 30 positioned at the end side in the fixing portion of the concrete girder 1 to which the prestressed steel wire 4 is fixed, and is embedded in the concrete girder 1. Since small loads are gradually generated on the 2, 1 fixing plate members 20, 10, the cross-sectional areas of the 3, 2, 1 fixing plate members 30, 20, 10 are sequentially formed to be smaller, thereby increasing the load concentrated on each. It can be distributed and supported efficiently.

In addition, the first, second, and third fixing plate members 10, 20, and 30 are supported by distributing the load generated in the fixing part in which the prestressed steel wire 4 is fixed, and thus the concrete girder due to the load concentration caused by the introduction of the prestress. The crack is prevented from occurring in (1), and the durability of the concrete girder 1 is increased.

On the other hand, the first, second, third fixing plate member (10, 20, 30) is formed by chamfering or rounded portions at each corner to distribute the load at the corners to support, so that the load is concentrated at right angles corners to crack Prevent it from happening.

In addition, it is preferable that a plurality of reinforcing rib members 40 are provided on the outer circumferential surface of the second steel wire guide tube 21 at intervals to support the second and third fixing plate members 20 and 30.

One end of the reinforcing rib member 40 is fixed to one surface of the third fixing plate member 30, and the other end is fixed to the other surface of the second fixing plate member 20, so that the second and third fixing plate members when prestress is applied ( 20, 30) to support the compressive load generated to serve to increase the support strength.

The reinforcing rib member 40 is preferably formed with a through hole 41 through which the concrete passes, so that when the concrete is poured from the formwork, the concrete smoothly flows into and fills between the reinforcing rib members 40.

In addition, a plurality of ribs are supported on the outer circumferential surface of the first steel wire guide tube 12 to support the first and second fixing plate members 10 and 20 to reinforce rigidity between the first and second fixing plate members 10 and 20. The part 12a is provided to be spaced apart from each other to support the compressive load generated between the first and second fixing plate members 10 and 20 when prestress is applied, thereby increasing the supporting strength.

The through hole 12b is formed in the rib portion 12a so that when concrete is poured from the mold, the concrete smoothly flows into and fills the rib portion 12a.

The present invention is fixed to the fixing position of the prestressed steel wire 4, that is, the fixing unit position in the formwork used in the manufacture of the concrete girder 1, as shown in Figure 4 connected to the sheath pipe (2) and into the formwork It is embedded in the concrete girder 1 by the concrete being poured, and the reinforcing rib member 40 prevents the concrete from being poured into the formwork so that concrete is not easily introduced between the reinforcing rib members 40. There is no hassle to fill the concrete between the reinforcing rib member 40 separately.

That is, between the reinforcing rib member 40 is filled out through the concrete through the through hole 41 is filled is not necessary to fill the concrete separately.

In addition, the second steel wire guide tube 21 is preferably connected to the filling guide tube 50 communicated from the third fixed plate member (30).

After the prestressed steel wire 4 is inserted through the sheath pipe 2 piped into the concrete girder 1, the prestressed steel wire 4 to the anchor head 3 mounted to the third fixed plate member 30 of the present invention. After the prestress is introduced and the prestress is introduced, a filler such as mortar must be filled to prevent the flow of the prestressed steel wire 4 inside the sheath tube 2.

Filling filler such as mortar and the like through the filling guide tube 50 to fill the sheath tube 2, the filling operation is easy, and can be charged while checking the filling amount of the filler to be filled in the sheath tube (2). It is.

In addition, the third fixing plate member 30 is mounted on the opposite side to which the second steel wire guide tube 21 is connected, that is, the anchor head 3 on which the end of the prestressed steel wire 4 is fixed.

In addition, the mounting surface on which the anchor head 3 is mounted is provided with a mounting guide part 30a for guiding the mounting position of the anchor head 3 so that the anchor head during fixing of the prestressed steel wire 4 through the anchor head 3 is provided. It is desirable to make it possible to fix (3) quickly at the correct position.

The mounting guide portion 30a is formed as a groove on the mounting surface of the anchor head 2, that is, the surface exposed to the outside of the concrete girder 1, and a coupling guide protrusion corresponding to the groove on the anchor head 2 ( It is based on the formation of 2a) and coupled to each other in a male and female structure, in addition to anything that guides the mounting position of the anchor head (3) is found to be included in the configuration of the present invention.

As described above, the present invention distributes and supports the loads generated at the fixing portion of the prestressed steel wire 4 to the first, second, and third fixing plate members 10, 20, and 30, as shown in FIG. It attaches to the inner peripheral surface of the hollow part 1b formed in the abdomen 1a of (1), and enables prestress introduction to the hollow part 1b side.

In addition, the present invention, the first, second, third fixed plate member (10, 20, 30), the first and second steel wire guide tube (12, 21), the reinforcing rib member 40, the filling guide tube 50 as a separate After manufacturing, it can be manufactured simply by welding and fixing each other.

The present invention can be produced by simply modifying the size according to the design according to the introduction of prestress.

The present invention is not limited to the above-described embodiments, and various changes can be made without departing from the gist of the present invention, which is understood to be included in the configuration of the present invention.

1 is a cross-sectional view showing a conventional prestressed steel wire fixing device

2 is a perspective view showing a basic configuration of the present invention

3 is a perspective view showing another embodiment of the present invention

4 is a cross-sectional view showing the structure of the present invention.

5 is a state diagram used in the present invention

* Description of the major symbols in the drawings *

1: concrete girder 2: sheath tube

3: anchor head 4: prestressed steel wire

10: first fixing plate member 11: pipe connection

12: first steel wire guide tube 13: first through hole

20: second fixing plate member 21: second steel wire guide tube

22: second through hole 30: third fixing plate member

31: third through hole 40: reinforcing rib member

41: through hole 50: filling guide tube

Claims (8)

A first steel wire guide tube through which the prestressed steel wire passes; The first steel wire guide tube is fixed to the other surface and protrudes, the first connection with a sheath pipe connected to the sheath pipe is projected, the first fixed with a first through-hole passing through the first steel wire guide tube and the pipe connection Plate member; A second fixing plate member having one surface fixed to an end portion of the first steel wire guide tube and having a second through hole communicating with the first steel wire guide tube; A second steel wire guide tube fixed to the other surface of the second fixing plate member and communicating with the second through hole; A third fixing plate member having a third through hole fixed to an end of the second steel wire guide tube and communicating with the second steel wire guide tube; A plurality of reinforcing rib members provided at intervals on an outer circumferential surface of the second steel wire guide tube and supporting the second and third fixing plate members; And A prestressed steel wire fixing device, which is provided on an outer circumferential surface of the first steel wire guide tube and includes a plurality of ribs supporting the first and second fixing plate members. The method according to claim 1, The prestressed steel wire fixing device, characterized in that the inner circumferential surface of the first and second steel wire guide tube is provided with an expansion pipe inclined portion to guide the pipe gradually from the first through hole to the third through hole. The method according to claim 1, The first, second and third fixing plate member is a prestressed steel wire fixing device, characterized in that to form a chamfer or a round portion at each corner. delete The method according to claim 1, The reinforcing rib member is prestressed wire fixing device, characterized in that the through hole through which concrete is formed. The method according to claim 1, The prestressed steel wire fixing device is connected to the second steel wire guide tube is connected to the filling guide tube communicated from the third fixed plate member. delete The method according to claim 1, The other surface of the third fixed plate member is prestressed wire fixing device, characterized in that the mounting guide portion for guiding the mounting position of the anchor head mounted on the other surface.

Images