KR100542046B1 - Method for Reinforcing Concrete Beam by Continuously Tensioning External Tendon and Supporting Device for such Method - Google Patents

Abstract

The present invention in reinforcing a structure such as a multi-span bridge consisting of a plurality of concrete beams discontinuously installed, by placing the steel wires continuously outside the plurality of concrete beams and tensioning each concrete beam efficiently at the same time The present invention relates to a reinforcing structure for reinforcing and an apparatus for supporting an external steel wire and simultaneously discontinuously connecting a discontinuous concrete beam in applying the reinforcing structure so that the entire span can be continuous.

In the present invention, as a structure for reinforcing a multi-span structure consisting of discontinuous concrete beams by an external steel wire, in the center portion of each of the concrete beam 10 of the concrete beam 10 of the outer span so that the steel wire 11 is disposed below The saddle device 30 supporting the steel wire 11 is installed on the lower surface of the central part, and the steel wire 11 is disposed between the concrete beams 10 of each span so that the steel wire 11 is disposed on the upper portion of the beam. The support device 20 is installed to support the lower side and simultaneously pressurize both sides of the concrete beam 10, and the center part of the concrete beam 10 of the inner span of the steel wire 11 of the lower side down Intermediate fixing device 40 is installed to cross the ends of each other, the steel wire 11, one end of which is fixed to both ends of the concrete beam 10 of the outer span of both the saddle device 30, the connection support device Long spanned 20 After the reinforcement of the concrete beam by the continuous tension of the external steel wire, and the connection support used therein, characterized in that the reinforcement by prestressing the concrete beam 10 of each span by being crossed and settled in the intermediate fixing device 40 An apparatus is provided.

Continuous, discontinuous, steel wire, reinforcement, beam

Description

Method for reinforcing concrete beam by continuously tensioning external tendon and supporting device for such method}             

FIG. 1 is a schematic side view showing a shape in which an external steel wire is continuously arranged and reinforced by a reinforcing structure of the present invention with respect to a bridge composed of three consecutive non-continuous concrete beams.

2A and 2B are detailed perspective views and schematic plan views of the circle A portion of FIG. 1, respectively.

3 is a schematic perspective view from the bottom of the beam in the circle B position of FIG.

Figure 4 is a schematic diagram showing an example of applying the reinforcement structure according to the invention to the four-span bridge.

* Explanation of symbols for the main parts of the drawings *

 10 concrete beam 11 liner

 20 Supporting device 30 Saddle device

40 central fixing unit

The present invention relates to a reinforcing structure of a concrete beam through a continuous tension of an external steel wire and a continuous support device used therein. Specifically, in reinforcing a structure such as a multi-span bridge composed of a plurality of concrete beams discontinuously installed. In addition, the reinforcement structure that is placed in the outside of a plurality of concrete beams in a continuous manner to tension and at the same time efficiently strengthen each concrete beam by continuous continuous reinforcement, and in the application of this reinforcement structure to the external steel wire and discontinuous concrete at the same time The present invention relates to a device that connects beams integrally so that the entire span can be continuous.

The technique of arranging and reinforcing an external steel wire in a continuous bridge by continuous concrete beams in the entire span is disclosed in Korean Patent Application No. 2000-31651 (hereinafter referred to as "prior art"). The prior art has already been configured to tension and fix the steel wires at both ends of the continuous concrete beams after the steel wires are disposed on the outside of the continuous bridges made of concrete beams in which each span is completely continuous.

In the prior art, a divider is installed to place the wire upwards in the continuous portion of the concrete beam, and when the external wire is tensioned, the downward force is applied to the vibrator, and the divider is mounted to resist the downward force. To securely attach to the side of the concrete beam, anchor bolts are used. However, in order to install anchor bolts on the concrete beams, the concrete beams must be drilled, and installing the above anchor bolts on the concrete beams that require reinforcement has a problem in that the damage of the concrete beams is accelerated. In addition, in order to install the divider by the anchor bolt, the size of the divider becomes large, and there is a short sleep that it is difficult to handle as well as the manufacturing cost.

Meanwhile, in the prior art, the steel wire is tensioned and fixed at the end of the outermost concrete beam. As the number of spans increases, the tension of the steel wire also increases, so that a very large anchoring stress is provided at both ends of the outermost concrete beam. You will concentrate. As a result, in order to prevent the breakage of both ends of the concrete beam due to the large anchoring stress in the prior art should be provided with a separate end fixing device of a fairly large size. Such a large sized end fixing device may be expensive to manufacture, but is also difficult to install because of its high weight.

Therefore, this prior art has a limitation that it is difficult to apply to multi-span bridges, such as more than two spans.

The present invention was developed to overcome the limitations of the reinforcement method according to the prior art as described above, specifically, can be easily applied to multi-span bridges over two spans made of concrete beams not continuous, concrete beams The new form not only does not damage the connection bolts by anchor bolts, but also reduces the size and weight of devices used to connect concrete beams and support steel wires, and prevents large anchoring stresses from being applied to the ends. It is an object of the present invention to provide a reinforcing structure and a connection support device used therefor.

In order to achieve the above object, in the present invention, a multi-span structure made of discontinuous concrete beams is reinforced by an external steel wire, and in the central portion of each concrete beam of the steel beam, A saddle device supporting steel wire is installed on the lower part of the central part, and between steel beams of each span is connected to support the steel wire in the downward direction and pressurize both sides of the concrete beam in order to arrange the steel wire on the upper part of the beam. A supporting device is installed, and an intermediate fixing device for intersecting the ends of both steel wires descending to the bottom is installed at the center of the concrete beam of the inner span, and one end is fixed to both ends of the concrete beam of both outer spans. The steel wire is tensioned over the saddle device, the connection support device The reinforcement structure of the concrete beam by a continuous tension of the outer wire, characterized in that the reinforcement is added to the prestressed concrete beams for each span doemeurosseo cross is settled in the complex apparatus.

In the present invention, as a specific embodiment of the above reinforcement structure, the connection support device is provided with a pressure plate that is in contact with both sides of the concrete beams on both ends; In the pressure plate that is in contact with both sides of the concrete beams on both sides, a pressure member for fastening the pressure plate by penetrating through the pressure plates on both sides is installed to press the pressure plates on both sides of the concrete beam to generate friction force between the concrete beams and the pressure plates on both sides, thereby causing both concrete beams. A reinforcing structure is provided, characterized in that continuity is achieved by a continuous state of force therebetween.

In addition, in the present invention, in order to support the steel wire from the downward direction so that the external steel wire which is installed to reinforce the multi-span structure consisting of the discontinuous concrete beam is disposed on the upper portion of the beam between the concrete beam of each span, the concrete beam A connecting support device for pressing and continually pressing both sides of the connecting support device, the connecting support device including a pressing plate which is in contact with both sides of the concrete beams on both ends; In the pressure plate that is in contact with both sides of the concrete beams on both sides, a pressure member for fastening the pressure plate by penetrating through the pressure plates on both sides is installed to press the pressure plates on both sides of the concrete beam to generate friction force between the concrete beams and the pressure plates on both sides, thereby causing both concrete beams. Provided is a connection support device, characterized in that to achieve continuity by the continuous state of force between.

Hereinafter, with reference to the accompanying drawings will be described the configuration and effect of the present invention.

FIG. 1 is a schematic side view showing a shape in which the external steel wire 11 is continuously arranged and reinforced by a reinforcing structure of the present invention with respect to a bridge composed of three consecutive non-continuous concrete beams 10.

As shown in Figure 1, the reinforcing structure according to the present invention can be applied to multi-span concrete bridges as well as two spans, particularly when the concrete beam 10 of each span is not continuous. have.

Specifically, according to the present invention, in the center portion of the concrete beam 10 of the outer span, the saddle device for supporting the steel wire 11 on the lower surface of the central portion of the concrete beam 10 so that the steel wire 11 is disposed in the lower portion 30 is installed. Between the concrete beams 10 that are not continuous at the point portion, the connection support device 20 for supporting the steel wire 11 in the downward direction is installed so that the steel wire 11 is disposed on the upper portion of the beam.

2A and 2B are detailed perspective views and schematic plan views of the circle A portion of FIG. 1, respectively, showing the configuration of the connection support device 20 and the supporting form of the steel wire 11 thereby.

The connection support device 20 supports the steel wire 11 so as to be positioned on the upper side between the concrete beams 10 so as to change the direction and at the same time the two concrete beams 10 are continuous with each other. Specifically, the connection support device 20 shown in the figure is provided with a pressing plate 21 which is extended over the ends of both concrete beams 10 and in contact with both sides thereof. The outer surface of the pressure plate 21 is provided with a direction changing member 22 for changing the direction while supporting the steel wire 11 in a curved form. The steel wire 11 is bent in a curved shape to the direction converting member 22 to be supported, and at the same time, the traveling direction thereof is changed. If necessary, a reinforcing rib 25 for supporting the direction change member 22 may be further provided.

In the pressing plate 21 which is in contact with both sides of the concrete beam 10 on both sides, a pressing member 23 which is fastened penetrating through the pressing plate 21 is installed, the pressing member 23 is made of a steel bar or the like, both pressing plates 21. ) Is pressed into the concrete beam 10 side. That is, in the case of the embodiment shown in the drawings, the nut 24 is fastened to the pressing member 23 by the tightening force of the nut 24 to press the pressing plate 21 on both sides of the concrete beam 10 in the direction of the arrow. It will be. The specific configuration for pressing the pressing member 23 in the direction of the concrete beam 10 may use various known techniques, such as tension fixing of steel wire, in addition to the above-described embodiment.

As such, when both pressing plates 21 are strongly pressed by the concrete member 10 by the pressing member 23, a large friction force is generated between the concrete beams 10 and both pressing plates 21. As a result of the continuous state of a predetermined force is made between the concrete beams 10 on both sides, both concrete beams 10 are continuous.

The saddle device 30 functions to support the steel wire 11 and at the same time to change the direction of the steel wire 11, there is no particular limitation on the specific configuration of the saddle device 30 and use the configuration proposed in the prior art It may be.

The connection support device 20 described above is installed between the concrete beams 10 of each span, and the saddle device 30 is respectively installed on the lower surface of the center portion of the concrete beam 10 of the outer span, and the concrete beam of the external span ( The end steel wire fixing device 50 is installed at the outer end of each 10). The steel wire 11 is installed so as to be supported by the connection support device 20 and the saddle device 30, respectively, and is then tensioned to introduce prestress to fix one end thereof to the end wire fixing device 50.

In fixing the tensioned steel wire 11, in the present invention, instead of fixing another end of the steel wire 11 to the end of the concrete beam 10, the center portion of the concrete beam 10 of the inner span It is mounted on the intermediate fixing device 40 installed in. That is, in the embodiment of Figure 1, the other end of each of the steel wire 11, one end of which is fixed to both ends of the bridge is fixed at the center portion of the concrete beam 10 between the center.

FIG. 3 is a schematic perspective view as seen from the bottom surface of the beam in the original B position of FIG. 1, illustrating the configuration of the centering device 40 described above.

As shown in the figure, the intermediate fixing device 40 is composed of a support plate 41 is installed to surround the lower surface of the concrete beam 10, the steel plate 11 of both sides to the support plate 41, respectively A fixing plate 42 to be fixed is provided. In the drawing, the end of the steel wire 11 arranged from the left side is fixed to the right fixing plate 42 of the intermediate fixing device 40, and the end of the steel wire 11 arranged from the right side is the intermediate fixing device 40. ) Is fixed to the left fixing plate 42 by crossing each other. The intermediate fixing device 40 may be provided with a reinforcing rib 43 to reinforce the fixing plate 42.

As described above, in the present invention, the intermediate fixing device 40 is installed at the central portion of the concrete beam 10 so that the end portions of the steel wires 11 arranged from both sides cross and intersect in the intermediate fixing device 40 and are staggered from each other. Accordingly, in the intermediate fixing device 40, the horizontal force by the steel wires 11 on both sides is canceled, and only the upward force for reinforcing the shear strength with respect to the central portion of the concrete beam 10 is generated.

As such, in the intermediate fixing device 40, since the horizontal forces by the steel wire 11 is canceled with each other, the intermediate fixing device 40 itself does not move horizontally, and thus the intermediate fixing device 40 in order to prevent horizontal movement. There is no need to fix using an anchor bolt, etc., it is possible to install simply by attaching using a simple adhesive, etc., it is possible to minimize the damage of the concrete beam (10).

When the steel wire 11 is placed and tensioned and settled as described above, prestressing is introduced into the concrete beam 10 of each span and is reinforced. According to the present invention, the steel wire 11 is not the entire space, but only over two spaces. Since it is settled after being disposed, the settling stress of the end caused by the fixing becomes relatively small as compared with the prior art, thereby eliminating the need for a large and heavy separate end fixing device as in the prior art. Therefore, it is possible to use a small general end fixing device that has been developed in the prior art, it is possible to obtain the effect of reducing the weight, construction cost, and the like.

On the other hand, in the present invention, since the steel wires 11 on both sides intersect with each other in the intermediate fixing device 40 in the center portion, the steel wires 11 have the effect of being continuously disposed over the foreground, and thus the connection support described above In addition to the continuity of the concrete beam 10 by the device 20, it is possible to add the continuity of the steel wire 11, which further doubles the structural reinforcement effect.

On the other hand, the embodiment shown in Figure 1 is for a three-span bridge, but the reinforcing structure of the present invention can be applied to multi-span bridges more than three spans. 4 shows an example of a four-span bridge, in which case the saddle device 30 is installed on the lower surface of the central portion of the concrete beam 10a of the outer span, and the connection support device 20 is provided for each concrete beam 10a, It is installed between 10b, 10c, and 10d, and two intermediate fixing devices 40a and 40b are respectively installed on the lower surface of the central portion of the two inner span concrete beams 10b and 10c. Therefore, the steel wire 11a having one end fixed to the end of the concrete beam 10a between the outer span is tensioned and fixed to the intermediate fixing device 40a installed on the concrete beam 10b of the second span, and the second span and three The steel wire 11b spanning the concrete beams 10b and 10c of the first span is tensioned and fixed to the intermediate fixing devices 40a and 40b whose ends are installed on the concrete beams 10b and 10c of the second and third spans, respectively. do. The steel wire 11c spanning the concrete beam 10d of the last span is tensioned and fixed to the outer end of the intermediate fixing device 40b and the concrete beam 10d respectively installed on the concrete beam 10c of the third span.

As described above, the present invention can be applied to multi-spans, and the effects as described above can be obtained as they are.

As described above, in the present invention, in installing the connection support device 20 so that the steel wire 11 can be continuously arranged between the non-continuous concrete beam, in the present invention, the surface of the concrete beam, such as anchor bolt Instead of installing the device by directly damaging the device, it is installed by pressing both sides of the concrete beam, thereby preventing the damage of the concrete beam due to the installation of the device, it is possible to reduce the size of the device, accordingly Construction cost can be reduced, and construction efficiency is also improved.

In addition, the connection support device 20 of the present invention not only functions to support and redirect the steel wire 11, but also the continuity of the force between the concrete beams by friction with the concrete beams 20 by pressure. State, allowing substantially discontinuous beams to function as a continuous structure.

On the other hand, in the present invention, the fixing of the external steel wire is not made only at both ends of the concrete beam, but the external steel wire is continuously arranged at the center portion of the concrete beam, so that the fixed load concentrated on both ends of the concrete beam as in the conventional case This action can be prevented, and the size of the end fixing device can be reduced. Therefore, the present invention can also be applied to reinforcement of multi-span discontinuous bridges of two or more spans, and the range of application of the method is extended.

Claims (3)

As a structure for reinforcing a multi-span structure composed of discrete concrete beams by an external steel wire, In the center portion of the concrete beam 10 of each span saddle device 30 for supporting the steel wire 11 is provided on the lower surface of the central portion of the concrete beam 10 of the outer span so that the steel wire 11 is disposed in the lower portion, Connection support device for supporting the steel wire 11 in the downward direction and pressurizing both sides of the concrete beam 10 in order to arrange the steel wire 11 in the upper portion of the beam between the concrete beam 10 of each span 20 is installed, In the center portion of the concrete beam 10 of the inner span is provided with an intermediate fixing device 40 for fixing the ends of the two steel wires 11 lowered to cross each other, The steel wire 11 having one end fixed to both ends of the concrete beams 10 of both outer spans is tensioned over the saddle device 30 and the connection support device 20, and then crossed in the intermediate fixing device 40. Reinforcement structure of the concrete beam by the continuous tension of the external steel wire, characterized in that the reinforcement by applying prestress to the concrete beam 10 of each span by being fixed. The method of claim 1, The connection support device (20) is provided with a pressing plate (21) over the ends of both concrete beams (10) and in contact with both sides thereof; The pressing plate 21 which is in contact with both sides of the concrete beam 10 on both sides, is provided with a pressing member 23 for fastening through the pressing plate 21 to press the pressing plate 21, the both pressing plate 21 to the concrete beam Reinforcement structure, characterized in that the continuity by the continuous state of the force between the concrete beam (10) on both sides by generating a friction force between the concrete beam (10) and the pressing plate (21) by pressing toward the (10) side. Supporting the steel wire 11 downwards so that an external steel wire 11 installed to reinforce a multi-span structure composed of discontinuous concrete beams is disposed on top of the beam between the concrete beams 10 of each span; At the same time as a connection support device 20 for pressing and continually pressing both sides of the concrete beam 10, The connection support device (20) is provided with a pressing plate (21) over the ends of both concrete beams (10) and in contact with both sides thereof; The pressing plate 21 which is in contact with both sides of the concrete beam 10 on both sides, is provided with a pressing member 23 for fastening through the pressing plate 21 to press the pressing plate 21, the both pressing plate 21 to the concrete beam Connection support device, characterized in that by generating a frictional force between the concrete beam (10) and the pressure plate (21) by pressing toward the (10) side by the continuous state of the force between the concrete beam (10) on both sides.

Images