KR200268160Y1 - Device for anchoring outer steel wire for reinforcing concrete structures - Google Patents

Abstract

The present invention secures fixing devices with anchor keys on both sides of the bottom of girder or slab in concrete structures such as slab bridges or girder bridges that are damaged to an extent as the cracks occurring over time accumulate. External steel wire fixing device for reinforcing concrete structures used to increase the load capacity by tensioning steel wires is economical and can be manufactured within the range without impairing the fixing force by anchor keys, and is light and easy to handle, repair, and reinforcement work. In order to facilitate tensioning of the external steel wire even in a space where it is difficult to secure the space, the anchor bolt bolt hole (6) is drilled in various places on the plate surface, and the steel wire hole (5) is drilled on the bottom of the external steel wire fixing rod (3). In the fixing device 1 with an anchor key 4 reinforced with a rib 7 on the upper surface, Rib 7 is attached only to the outer surface side of the anchor key (4), the tension end side fixing device (1a) punctures a pair of steel wire (5a) to fix the two external steel wire (13a), One strand of the outer steel wire 13 of the fixed-end fixing device 1 and two strands of the outer steel wire 13a of the tension-side fixing device 1a are inserted into the tension hole 14 having three steel wire holes 15a and b. It is characterized by an external steel wire fixing device for reinforcing concrete structures configured to be fixed in a tensioned state.

Description

Device for anchoring outer steel wire for reinforcing concrete structures

The present invention secures fixing devices with anchor keys on both sides of the bottom of girder or slab in concrete structures such as slab bridges or girder bridges that are damaged to an extent as the cracks occurring over time accumulate. The present invention relates to an external steel wire fixing device for reinforcing concrete structures used to increase load capacity by tensioning steel wires, and in particular, economical manufacturing is possible within a range that does not impair fixing force by anchor keys, and it is easy to handle, repair, and reinforcement work. In addition, the present invention relates to an external steel wire fixing device for reinforcing a concrete structure, which is easy to tension external steel wires, even where it is difficult to secure a space for a tensioner.

Insufficient load capacity in structures such as concrete girder bridges causes warping or cracking of slabs due to deflection or deflection. If left unchecked, it can lead to bridge collapse in extreme cases. Bridge repair and reinforcement technology is divided into adhesive repair and reinforcement method using reinforcement such as steel plate or carbon fiber and external steel wire reinforcement method.

The adhesive repair and reinforcement technique requires the careful selection of reinforcement materials and thorough construction quality control in order to prevent defects such as dropping of reinforcement materials in the future, low fatigue strength, and rapid deterioration in long-term exposure to the atmosphere. Civil construction has a number of problems.

On the other hand, reinforcement using external steel wire is a very active reinforcement technology to increase the load capacity of concrete bridges, and it is economical construction and efficient reinforcement technique. As such, bridges that can be repaired and reinforced using external steel wires cover almost all bridges, including PCS beam bridges, T beam bridges, box bridges, and slab bridges.

For example, when reinforcing or repairing a girder bridge, a fixing device is attached to the side of the girder, and a steel tip is placed between them and tensioned. In the case of slab bridges, it is common to fix anchors at the bottom of the slab with anchor bolts to secure the end of the steel wire and to fix the tension. As such, the reinforcement by the external steel wire takes a large number of anchor bolts due to the tension force acting on the anchorage only by the anchor bolt, so that the fixing plate becomes large and the shape becomes complicated, and the appearance is not good.

In addition, when the external steel wire is tensioned, the anchorage is installed at an appropriate distance from the end of the bridge to secure space for the steel tensioner, and cracks occur around the anchorage, and the reinforcing effect of the external steel wire does not reach the end of the bridge. Being limited has been pointed out as a flaw.

Slab bridges are often built with low-profile bridges without any space. This bridge environment is difficult to apply the external steel reinforcement technique when the outer steel wire is struck far away from the bottom of the slab to further reduce the space under the bridge.

This problem is solved by the fixing device for external steel wire of the Utility Model Publication No. 241299. This prior art is to distribute the tension by the external steel wire concentrated on the anchor bolt to the anchor key attached to the upper surface, embedded in the concrete structure because the anchor key is a flat plate disposed at right angles to the tension direction of the external steel wire Recognizing the low anchoring force in Essau, it is reinforced by attaching long ribs from the anchor key to the end of the fixing plate on both sides of the anchor key and on each fixing plate surface.

However, since the ribs are so large and numerous in number, it takes too long time to weld the ribs and the cost of the ribs adds to the cost of the anchorage, which is uneconomical. It became.

Accordingly, an object of the present invention is to provide an external steel wire fixing device for reinforcing concrete structures that is easy to manufacture, handle, repair, and reinforce economically within a range that does not impair anchoring force by the anchor key of the fixing device having an anchor key on its upper surface. I will.

In addition, the present invention is to provide an external steel wire anchoring device for reinforcing concrete structures, which is easy to tension the external steel wire even where it is difficult to secure space for the tensioner.

The first problem is that in the external steel wire fixing device for reinforcing concrete reinforced with a support force for the concrete structure with an anchor key attached to the upper surface, by anchoring only the rib between the outer surface of the anchor key and the upper surface of the fixing plate It is possible to achieve low-cost manufacturing while maintaining the anchoring stress, and also to achieve the external steel wire anchoring device for reinforcing concrete structure, which is configured to provide convenience for handling, repair and reinforcement.

The first problem of the present invention is that the two steel wire holes drilled in the fixing stage of the tension end fixing device are two pairs of external steel wire and the fixed end side which are drilled symmetrically back and forth around the fixed end steel wire The external steel wires for concrete reinforcement are constructed to reinforce the load capacity by intentionally tensioning the external steel wires even in concrete structures that are difficult to secure the space by tensioning one strand of external steel wires to be fixed between the two fixing devices. Can be achieved with the device.

1 is a perspective view of a fixed end side fixing apparatus according to the present invention

2 is a front view of the same

3 is a bottom perspective view of the tension end fixing device;

4 is a front view of the slab bridge reinforced with the fixing device and the external steel wire

5 is a copper bottom view

6 is a perspective view of the tension sphere;

<Explanation of symbols for the main parts of the drawings>

1: fixing device 1a: fixing device

2: fixing plate 3: fixing plate

4: anchor key 5,5a, 15a, b: steel wire ball

7: rib 13,13a: outer steel wire

14: tension ball

1 and 2, the fixed end side fixing device 1 and the tension end side fixing device 1a are fitted together with the end of the outer steel wire to the bottom of the fixing plate 2, and the outer steel wire to the fixing body from the outer surface side. The steel wire fixing rod 3 for fixing and supporting the end portion of the anchor is erected at right angles to the tension direction of the external steel wire, and the anchor key 4 symmetrically attached to the fixing rod 3 on the upper surface of the fixing plate 2. There is). On the plate surface of the fixing table 3, a steel wire hole 5 through which an external steel wire penetrates is drilled. Moreover, the bolt hole 6 perforated in the board surface of the fixing plate 2 for right and left is used for anchor bolts.

In the fixed end fixing device 1 and the tension end fixing device 1a for the external steel wire, the ribs 7 are attached only to the outer surface of the anchor key 4 and the mounting plate surface thereof. There is no change in the load capacity caused by the tension of the external steel wire acting on the anchor key 4 including the load capacity caused by the tension of the external steel wire on the bolt. This is like removing the inner rib portion of the anchor key 4, which is a valueless portion that does not substantially affect the reinforcing effect of the rib 7 on the anchor key 4.

In this way, the intended purpose of the intended purpose is to be drastically eliminated by removing the unnecessary portion of the rib 7 irrelevant to the increase in the fixing force of the fixing device 1 on the concrete structure such as the increase in the material cost and weight of the anchor key 4 and the long welding operation. I can achieve it.

In Fig. 3, the tension end fixing device 1a is the same type as the fixed end fixing device 1, except that the steel wire holes 5a to be provided by the fixing unit 3 are two sets, and the fixed end fixing device 1 is provided. Wherein the liner (5) is drilled in the center of the anchorage (3), the tension end side liner (5a) around the fixed end side liner (5) before and after, that is, the width of the anchorage (3) It is arranged at equal distances on both sides with respect to the center, so that two strands of external steel wires are installed side by side so that the tension holes 14 can be tensioned between the two fixing devices 1 and 1a.

4 and 5, a fixing device 1 is installed at a fixed end a of a concrete structure 10 such as a concrete slab bridge, a girder bridge, and a fixing device 1a is installed at a tension end b. These fixing devices 1, 1a are provided with their ribs 7 facing the ends of the concrete structure 10.

Specifically, first, the key rib groove and the bolt groove are vertically formed on the bottom surfaces of both ends of the concrete structure 10. Insert the anchor key 4 and the rib 7 of the fixing device 1, 1a mounted on the bottom in the key rib groove, and the anchor bolt (6) for each bolt hole 6 of the fixing plate 2 in the bolt groove. 8) Insert the upper part of the anchor bolt (8) raised above the fixing plate (2), and fix it with an inorganic bond such as high-strength cement.

After the bond has solidified, the outer end of the outer steel wire 13 of one strand is inserted into the steel wire hole 5 of the fixing device 1 and fixed to the wedge 11 from the outside of the fixing plate 3. In addition, the outer end of the outer steel wire 13a is fitted to each of the steel wire holes 5a of the tensioning device b side fixing device 1a, and is fixed to the wedge 12 from the outside. The outer steel wire 13 and the outer steel wire 13a is fitted to the tension sphere 14 to face each other.

In FIG. 6, three steel wire holes 15a and b are drilled in a line in the tension ball 14. Among them, the steel wire hole 15a in the center is for the fixed end side steel wire 13, and both steel wire holes 15b are for the tension end side steel wire and are equidistant from the steel wire hole 15a in the center. ) Is parallel to the steel wire ball 5a.

Again in FIGS. 5 and 6, the free ends of the outer steel wires 13 (13a, b) are inserted into the respective steel wire holes 15a, b of the tension balls 14 on both sides as described above. The steel wires (15a, b) behind the outer wires (13, 13a) is tensioned and then fixed to the wedge (16).

As described above, when the three strands of both outer steel wires 13 and 13a are tensioned and fixed by one tension ball 14, both tension devices 14 are fixed to the fixed structure and the tension end of the concrete structure 10 at both ends of the fixing device. It is located between (1, 1a), which has a large space. Therefore, when tensioning the outer steel wire (13, 13a) it is easy to place the tensioner.

As described above, by taking only the portions that are substantially effective for reinforcement of the anchor key and reinforcing the anchor key with ribs, the external steel wire fixing device for reinforcing concrete structures can be manufactured and supplied at low cost without being impeded by the anchoring force. As it is light, it is easy to handle, repair and reinforce.

In addition, tension between the fixed end side fixing device and the tension end side fixing device is used to tension the external steel wires in both directions, so when the external steel wire is tensioned, the space for placing the tension ball is secured so that the work is very easy.

Claims (1)

Bolt holes for anchor bolts 6 are drilled in various places on the plate surface, and external steel wire fixing rods 3 with perforated steel wires 5 are attached to the bottom, and anchor keys 4 reinforced with ribs 7 are provided on the upper surface. In the attached fixing device 1, the ribs 7 are attached only to the outer surface side of the anchor key 4, and the tension end fixing device 1a drills a pair of steel wires 5a to The external steel wire 13a is fixed, and three steel wires 15a and b are formed in one strand of the outer steel wire 13 of the fixed end side fixing device 1 and two strands of the outer steel wire 13a of the tension end fixing device 1a. External steel wire anchoring device for reinforcing concrete structures, characterized in that to be fixed in the tensioned state to be inserted into the tension sphere (14).