KR20060053030A - Net type external prestress strengthening apparatus and method for slab bridges - Google Patents

Abstract

The present invention relates to a net type slab external steel wire reinforcement device and a reinforcement method for reinforcing a damaged bridge by using a longitudinal tension member and a transverse tension member, and are provided at both outer ends of the bridge slab and have an anchorage device having an anchorage. ; Saddles which are installed on both sides in the side lower portion of the middle section of the bridge slab; A longitudinal tension member installed between the one end fixing apparatus and the other end fixing apparatus via the saddle and tensioned in the longitudinal direction to reinforce the side surface of the slab; And a transverse tension member which is installed between the one piece of birds installed on the side lower portion of the center of the bridge slab and the other piece of the bird and is tensioned in the transverse direction so that the lower part of the slab is reinforced. And easy maintenance, economical, beautiful appearance, can check the reinforcement effect or the progress of the damage to the damaged part, and the effect of stress sharing with the existing structure by generating upward rise in the center Compared with other methods, it is very excellent, can be reinforced even in continuous slab bridges, there is no damage to the main members, and it can reduce the problem of increased attachment or dead weight. In the case of the center birds, the longitudinal and transverse steel Due to the stress distribution, the saddle is more effective than the conventional fixing device.

Description

Net type external prestress strengthening apparatus and method for slab bridges}

1 is a front view showing a state in which a net type slab external steel wire reinforcement device is installed in a simple bridge according to an embodiment of the present invention.

2 is a plan view of FIG. 1.

3 is a bottom view illustrating the transverse tension member of FIG. 1.

Figure 4 is a front view showing a state where the net type slab external steel wire reinforcement device is installed in the continuous bridge according to another embodiment of the present invention.

FIG. 5 is a perspective view illustrating the end fixing apparatus of FIG. 1. FIG.

6 is a perspective view illustrating the birds of FIG. 1.

FIG. 7 is a perspective view illustrating the divider of FIG. 4. FIG.

8 is a view illustrating various embodiments of the end fixing device of FIG. 1.

(Description of Major Symbols in the Drawing)

1: slab 20: end fixing device

30: saddle 10: longitudinal tension member

6: anchor bolt 5: anchorage

3: upper reinforcing plate 4: end reinforcing plate

15: Side reinforcement plate 2: Vertical / horizontal brace

8: transverse tension member 9: side bracing plate

11: vertical gusset 17: lower bracing plate

100: bracing plate 101: steel sheet

21: Serialized Part 40: Divider

102: fixed plate 103: vertical reinforcement plate

19: Lateral brace

The present invention relates to a net-type slab external steel wire reinforcement device and a reinforcing method, and more particularly, to a net-type slab external steel wire reinforcement device and a reinforcement method that can be used to reinforce damaged bridges using longitudinal tension members and transverse tension members. will be.

Recently, in order to effectively correct the deflection of the mold of an aging bridge, an external prestressing method using an external tensile force has been introduced.

This method is a method that provides a compressive force is introduced into the bridge by tensioning the tension member installed along the bridge axial direction to give the upward force to cancel the deflection generated in the center of the bridge by the load action can effectively enhance the load capacity of the bridge. .

However, this conventional prestressing method has a limitation of the geometry space (space below the bridge) by installing the fixing device in the lower portion of the slab, there is a disadvantage in poor workability.

In addition, in the long slab bridge between the transverse lengths compared to other bridges, the deflection of the central portion cannot be controlled by the side reinforcement alone. In addition, the installation of the existing fixing device requires a large number of anchor bolts by installing the fixing device using the anchor bolt and receiving a tension force, which causes the size of the fixing plate to increase, which makes it look bad in appearance and the bridge itself. It has the problem of causing additional damage to the system.

In addition, the external prestressing method applied to the existing method uses a method of reinforcing by increasing the compressive force rather than the upward force, such a method has a problem that is limited by the compressive strength of the existing concrete.

An object of the present invention for solving the above problems is to install an external steel wire (longitudinal tension member) on the longitudinal side surface of the bridge in the longitudinal direction of the bridge, and further to the tension member (the transverse tension member in the transverse direction, which is the perpendicular direction of the bridge). ) To control the net deflection of the slab, and to provide a reinforcing device and a reinforcing method for the external steel wire of the net type slab that can secure the space of the die and improve the workability.

Another object of the present invention is to provide a net slab external steel wire reinforcement apparatus and a reinforcement method that can repair and reinforce a damaged bridge by using such a net external steel wire.

Net-shaped slab external steel wire reinforcement device of the present invention for achieving the above object, the end fixing device is provided on both outer ends of the bridge slab, and having a fixing hole; Saddles which are installed on both sides in the side lower portion of the middle section of the bridge slab; A longitudinal tension member installed between the one end fixing apparatus and the other end fixing apparatus via the saddle and tensioned in the longitudinal direction to reinforce the side surface of the slab; And a transverse tension member which is installed between the one piece of birds installed on the side lower portion of the center of the bridge slab and the other pieces of birds, and is tensioned in the transverse direction so that the lower part of the slab is reinforced.

In addition, the end fixing device, the upper reinforcing plate fixed to the anchor bolt on the upper surface of the bridge slab end; An end reinforcing plate fixed to an end surface of the bridge slab end with an anchor bolt; Side reinforcing plate is fixed to the side of the bridge slab end anchor bolt; And a vertical / horizontal brace plate welded to the upper reinforcing plate, the end reinforcing plate and the side reinforcing plate to prevent buckling and dropping, and to which the fixing device of the longitudinal tension member is fixed.

In addition, the saddle, the fixing plate is bent in the form of "L" is installed as an anchor bolt in the lower slab; A side bracing plate installed on a side of the fixing plate and provided with a vertical reinforcement plate for smoothly changing and bending the stretched longitudinal tension member; And a lower support plate installed on a lower surface of the fixing plate and to which the fixing device of the transverse tension member is fixed.

In the case of the continuous bridge, it is preferable that a divider is provided on the upper part of the slab including the continuous portion, and the longitudinal tension member is provided via the divider.

In addition, the divider, the fixing plate is bent in a "b" shape is installed as an anchor bolt in the sequential portion of the slab; And a side bracing plate installed at a side of the fixing plate and installed with a vertical reinforcement plate to smoothly change and bend the direction of the longitudinal tension member.

On the other hand, the net-type slab external steel wire reinforcement method of the present invention for achieving the above object is provided with an end fixing device having anchorages on both outer ends of the bridge slab, and saddles on both sides at the lower side of the center of the bridge slab. And a longitudinal tension member which is tensioned in the longitudinal direction between the one end fixing device and the other end fixing device so as to reinforce the side surface of the slab via the saddle, and on one side portion of the middle of the middle of the bridge slab. Installed between the birds and the birds of the other side is characterized in that made by installing a transverse tension member which is transversely tensioned so that the lower part of the slab is reinforced.

Hereinafter, a net type slab external steel wire reinforcing device and a reinforcing method according to various embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, as shown in FIG. 1, the end fixing device 20 is installed at both ends of the aged slab 1 of the bridge, and the saddle 30 is installed at the lower portion of the middle of the bridge, and then the longitudinal tension member. 10 is disposed so as to pass through the saddle 30, and both ends thereof are fixed to the end fixing device 20 to tension.

Here, the end fixing device 20, as shown in Figure 1, is installed on the outer end of the slab (1) after the upper and end end steel plate is welded and installed on the side plate, anchor bolt (6) It is fixed by the fixing member 5, the longitudinal tension member 10 is fixed. Here, the fixing unit 5 has a known structure provided with a fixing wedge or the like.

And the saddle 30 is shown in Figures 1 and 6, it can be configured in various forms as shown in Figures 8a, 8b, 8c, 8d, 8e, 8f, 8g, 8h, each embodiment If it is described as follows.

First, the embodiment shown in Figures 1 and 5 is the end fixing device 20 is the upper reinforcing plate (3), end reinforcing plate (4), side reinforcing plate (15) and vertical / horizontal bracing plate (2) It shows what is happening. The reinforcement plates 3, 4 and 15 are welded, respectively, and the upper reinforcement plate 3 and the end reinforcement plate 4 are installed at the end of the bridge by the anchor bolts 6.

The support plate 2 is a steel plate welded to fix the longitudinal tension member 10 to the fixing device 20, and is installed in the vertical direction of the longitudinal tension member 10 to prevent buckling in the tension direction. By installing a horizontal support plate 2 perpendicular to the support plate 2 in the direction and in a direction parallel to the longitudinal tension member 10, buckling and dropping of the vertical support plate 2 is prevented.

Next, the embodiment shown in FIGS. 1 and 6 shows a saddle 30 in the center. The center saddle 30 shows that the longitudinal tension member 10 is reinforced on the side of the slab and the transverse tension member 8 is reinforced on the bottom of the slab.

In particular, the saddle 30 is bent in the form of an "L" to be installed in the anchor plate to the lower portion of the slab, and is installed on the side of the fixing plate, vertically to smoothly bend the direction of the longitudinal tension member spanned It includes a side bracing plate provided with a reinforcing plate and a lower bracing plate installed on the lower surface of the fixing plate, the fixing device of the transverse tension member is fixed, the bending of the longitudinal tension member (10) via the saddle (30). The side bracing plates 9 are attached to each other, and a vertical reinforcing plate 11 is reinforced in a vertical direction of the side bracing plates 9 for dropping and reinforcing the side bracing plates 9.

In addition, a lower support plate 17 protrudes from the bottom of the slab to install a transverse tension member 8 in the lower portion of the saddle 30.

That is, the transverse tension member 8 is installed on the lower support plate 17 by the anchorage, and the lower support plate 17 has a lower surface of the slab in order to prevent the buckling of the steel sheet protruding by the tension of the transverse tension member. Accordingly welded.

In addition, it can be seen that the steel wires of two directions in the saddle 30 is fixed and installed in one saddle 30, and the size of the saddle 30 is canceled by canceling the forces in different directions of the two wires. It can be reduced.

Meanwhile, the shapes of the saddle 30 according to various slab shapes can be seen in FIGS. 8A, 8B, 8C, 8D, 8E, 8F, 8G, and 8H. First, in FIG. 8A, it can be seen that the basic saddle 30 is connected to the fixing device 20 and the right side of the slab, and is fixed to the saddle 30 through the fixing unit 18 on the lower surface of the slab.

In addition, 8b, 8c, and 8d are figures in which the reinforcement board was provided according to the shape of the lower surface of the slab. 8e, 8f, 8g, and 8h are the shapes of the saddle 30 when the slab lower surface is vertically cut. In 8e is a form of reinforcement with the support plate 100 in the two vertical saddle. In 8f, the steel plate 101 is attached along the cut surface, and the steel plate 101 is connected to the vertical saddle. In 8g, the end fixing device 20 is a shape provided below the cut surface. In 8h, the end fixing device is installed on the top of the slab 1, and the tension member 10 penetrates the slab 1 and is installed in the center saddle 30.

On the other hand, Figure 4 is a view showing a net slab external steel wire reinforcement device of the present invention applied to a continuous bridge. In FIG. 4 and FIG. 7, the divider 40 is installed on the slab including the continuous portion 21 so that the steel wire can be installed by the present method even in the continuous bridge.

Here, as shown in FIG. 7, the divider 40 is bent in a "-" shape and installed as an anchor bolt 6 in the continuous portion 21 of the slab 1. Is provided on the side of the fixing plate 102 and the fixing plate 102, and the side brace plate 19 provided with a vertical reinforcement plate 103 is installed to smoothly bend and change the direction of the longitudinal tension member.

On the other hand, the top view of the slab is shown in FIG. 2, the longitudinal tension member 10 is shown in FIG. 2 as the bottom view of the lower surface of the slab, and the transverse tension member 8 is shown in FIG. 3.

Therefore, when explaining the net slab external steel wire reinforcement method using the net-type slab external steel wire reinforcement device of the present invention, the end fixing device having anchorages are provided at both outer ends of the bridge slab, the side of the center of the bridge slab Install the saddle on both sides of the lower side, and between the one end fixing device and the other end fixing device to install a longitudinal tension member which is tensioned in the longitudinal direction so that the side of the slab is reinforced via the saddle, In the lower side, it is made by installing a transverse tension member which is installed between the birds of one piece and the birds of the other side and is laterally tensioned to reinforce the lower part of the slab.

At this time, when the bridge is a continuous bridge, it is also possible to provide a divider in the continuous portion of the bridge, and to tension the longitudinal tension member.

The present invention is not limited to the above-described embodiments, and of course, modifications may be made by those skilled in the art without departing from the spirit of the present invention.

For example, in the exemplary embodiment of the present invention, components such as an end fixing device, a saddle, a divider, etc. may be limited to the drawings, but the design and shape of each component of the present invention may be made without departing from the technical spirit of the present invention. Can be modified and changed by those skilled in the art.

Therefore, the scope of the claims in the present invention will not be defined within the scope of the detailed description, but will be defined by the following claims and the technical spirit thereof.

As described above, according to the net slab external steel wire reinforcement device and reinforcement method of the present invention, since it is constructed through the longitudinal tension member and the transverse tension member, the installation and maintenance of the bridge is simple, economical, and the appearance is beautiful, Since the bridge can be inspected from the outside after reinforcement, it is possible to check the reinforcement effect or the progress of the damage on the damaged part, and reinforcement while generating the upward rise of the center part through the transverse tension member. In addition to the longitudinal reinforcement, the reinforcement in the lateral direction is more effective than other construction methods, and the existing external prestress method is difficult to reinforce in the continuous slab bridge, but the divider is used in the continuous part. It can be reinforced even in continuous slab bridges. In the case of side and continuous bridges, a small fixing device is installed on the upper part of the continuous slab, and there is no damage to the main member, and it is possible to reduce the problems caused by the attachment or the dead weight.In the case of the center saddle, the stress through the longitudinal and transverse steel wires Due to the dispersion, birds can be applied more efficiently than conventional fixing devices.

Claims (6)

End fixing devices provided at both outer end portions of the bridge slab and having a fixing unit; Saddles which are installed on both sides in the side lower portion of the middle section of the bridge slab; A longitudinal tension member installed between the one end fixing apparatus and the other end fixing apparatus via the saddle and tensioned in the longitudinal direction to reinforce the side surface of the slab; And A transverse tension member installed between one side birds and the other side birds installed in the side lower portion of the center of the bridge slab so as to be transversely tensioned to reinforce the lower portion of the slab; Net type slab external steel wire reinforcement device comprising a. The method of claim 1, The end fixing device, An upper reinforcing plate fixed to an anchor bolt on an upper surface of the bridge slab end portion; An end reinforcing plate fixed to an end surface of the bridge slab end with an anchor bolt; Side reinforcing plate is fixed to the side of the bridge slab end anchor bolt; And A vertical / horizontal bracing plate welded to the upper reinforcing plate, the end reinforcing plate, and the side reinforcing plate to be connected to each other to prevent buckling and dropping, and to which the fixing device of the longitudinal tension member is fixed; Net type slab external steel wire reinforcement device comprising a. The method of claim 1, The birds, Fixed plate bent in the form of "L" is installed as an anchor bolt in the lower slab; A side bracing plate installed on a side of the fixing plate and provided with a vertical reinforcement plate for smoothly changing and bending the stretched longitudinal tension member; And A lower brace plate installed on a lower surface of the fixing plate and fixed to the fixing device of the transverse tension member; Net type slab external steel wire reinforcement device comprising a. The method of claim 1, In the case of a continuous bridge, a net-shaped slab external steel wire reinforcement device, characterized in that a divider is installed on the top of the slab including the continuity portion, the longitudinal tension member is installed via the divider. The method of claim 4, wherein The divider, Fixed plate bent in the form of "b" is installed as an anchor bolt in the sequential portion of the slab; And A side bracing plate installed on a side of the fixing plate and provided with a vertical reinforcement plate for smoothly changing and bending the stretched longitudinal tension member; Net type slab external steel wire reinforcement device comprising a. An end fixing device having anchorages is provided at both outer ends of the bridge slab, and saddles are installed at both sides of the lower side of the center of the bridge slab, and the saddle is disposed between the one end fixing device and the other end fixing device. A longitudinal tension member that is tensioned in the longitudinal direction is installed to reinforce the side of the slab, and is installed between the birds of one side and the birds of the other side in the side lower part of the middle of the span of the bridge slab so that the lower side of the slab is reinforced. A method of reinforcing a net steel slab outer steel wire, comprising a transverse tension member.

Images