KR101139357B1 - Reinforcement apparatus for reinforcing load carrying capacity of beam in a bridge - Google Patents

Abstract

The present invention when the prestressing force through the external tensioning material to reinforce the load capacity of the bridge beam, by adjusting the distance between the lower surface of the bridge beam and the external tensioning material to easily adjust the tension of the external liver material and friction generated when adjusting the tension The present invention relates to a reinforcement apparatus for reinforcing load-bearing capacity of a bridge beam that increases durability by attenuation. The reinforcing device for load-bearing reinforcement of the bridge beam according to the invention, the fixing plate is mounted on the lower surface of the bridge beam, the lower bracket is installed to face the interval and the upper bracket is installed on the lower portion of the fixing plate, the upper bracket A height adjuster including a pair of arms linked between the lower and lower brackets and a screw shaft rotatably coupled to the pair of arms so that the pair of arms are lifted, and a lower center of the lower adjuster And a pressurizing portion disposed in the center of the supporting plate and the supporting plate which is removed and equipped with a roller for pressing the external tension material.

Bridge, load capacity, tension force, height adjustment part, roller, pressurization part

Description

Reinforcement device for load bearing reinforcement of bridge beams {REINFORCEMENT APPARATUS FOR REINFORCING LOAD CARRYING CAPACITY OF BEAM IN A BRIDGE}

The present invention relates to a reinforcing device for load-bearing reinforcement of a bridge beam, and more particularly, when the prestressing force is applied through an external tensioning material to reinforce the load-bearing capacity of the bridge beam, the distance between the lower surface of the bridge beam and the external tensioning material is adjusted. The present invention relates to a reinforcement device for reinforcing load-bearing capacity of a bridge beam by increasing the durability by easily adjusting the tension force of the external liver material and reducing friction generated when the tension force is adjusted.

In general, bridges are constructed in a variety of ways depending on the type, material and purpose of the bridge that allows people or vehicles to cross the city or river. Bridge beams such as steel boxes and concrete PC girders, which are structures on the top of the bridge, age as time passes and the bridge beam sags or cracks due to the vehicle load repeatedly acting as traffic increases. There is a problem that is lost. The reinforcement method of introducing prestress to the bridge beam using an external tensioning material has been applied to prevent the bridge beam from sagging or cracking and to restore the bridge function.

In general, in the method of reinforcing a bridge beam using an external tension member such as a PC steel wire or a stranded wire, a fixing unit is installed near the end of the bridge beam, and the external tension member is settled in parallel with the lower surface of the bridge beam. Tension force is introduced, which gives more tension than necessary to the external tension material, which reduces the durability of the entire bridge.

In order to solve such a problem, a maintenance reinforcing operation of increasing load capacity by using a curved line arrangement method when introducing prestress into a conventional bridge beam is disclosed in Korean Patent Publication No. 0637849. In the beam reinforcement method and the reinforcement device using the beam lower steel curve arrangement method of this patent document, fixing brackets are respectively provided at the lower ends of the beam, and between the fixing brackets, PC steel wire is mounted as an external tension member and acts on the beam end. It includes a variable saddle that is installed between the PC steel wire and the lower beam to fine tune the tension of the PC steel wire while reducing the negative moment. The variable saddle has a pair of side plates and a bottom plate surrounding the bottom of the beam, and a saddle housing with slide rods formed at four corners, and a PC steel seat recess formed under the saddle housing and slidable along the slide rod, respectively. It includes a flow plate formed with a slide hole, and the variable means is provided between the flow plate and the saddle housing and adjusts the tension strength of the PC steel wire.

Therefore, in the event of deflection, cracking, or damage to the bridge beam, prestress is introduced to the beam to provide a tensile force to the PC steel installed in the beam to increase the load capacity. That is, after mounting the hydraulic jack between the saddle housing and the flow plate of the reinforcement device installed between the beam and the PC steel wire, when the hydraulic jack is operated, the flow plate moves downward along the slide rod and the PC steel wire is tensioned. When the tension of the PC steel wire is completed, the saddle housing and the fluid plate are spaced apart by the hydraulic jack, and the rotating member screwed to the fixing member in one direction to make the bottom of the saddle housing firmly adhered to the upper surface. Even if the hydraulic jack is removed, the fixing member and the rotating member serve as the support material, thereby maintaining the separation distance between the saddle housing and the flow plate.

However, in order to adjust the tension of the PC steel wire installed in the bridge beam, a separate hydraulic jack must be installed, and the repair work is cumbersome because a lot of other accessories are required for mounting the hydraulic jack. In addition, the hydraulic jack must be reinstalled in the lower part of the bridge beam for further reinforcement and the hydraulic jack must be dismantled after the work. In addition, there is a problem in that the work of fastening the four corners of the fixing member and the rotating member to maintain the tensioned state after the tension of the PC steel wire by operating the hydraulic jack is complicated and the work time is delayed.

The four corners of the fixing member and the rotating member should be evenly and sequentially tightened to maintain a uniform tension in a plurality of PC steel wires. If you do not fasten even one place or do not fasten due to the operator's mistake, the tension of the PC wire is loosened, there is a problem that the deflection of the beam or cracks and damage proceeds quickly. When the variable type saddle presses the PC steel wire by the hydraulic jack, there is a problem in that the durability of the PC steel wire decreases due to friction between the saddle and the PC steel wire.

The present invention has been made to solve the above problems, the present invention when the prestressing force through the external tension material for reinforcement of the load capacity of the bridge beam, the external tension material by adjusting the distance between the lower surface of the bridge beam and the external tension material It is an object of the present invention to provide a reinforcement apparatus for easily reinforcing load capacity of a bridge beam that increases the durability by easily adjusting the tension force and reducing friction generated when adjusting the tension force.

Another object of the present invention is to provide a reinforcement apparatus for reinforcing load capacity of a bridge beam, which is simple in structure and easy to operate.

Features of the present invention for achieving the above object, the fixing plate is mounted to the lower surface of the bridge beam, the upper bracket is installed on the lower portion of the fixing plate and the lower bracket is installed facing the interval with the upper bracket, A height adjusting part including a pair of arms linked between an upper bracket and the lower bracket and a screw shaft rotatably coupled to the pair of arms so that the pair of arms are lifted and lower brackets of the height adjusting part; Disclosed is a reinforcement apparatus for reinforcing load capacity of a bridge beam, comprising: a supporting plate installed at a lower center and a lower plate, and a pressing unit mounted at a center of the supporting plate and equipped with a roller for pressing an external tension member.

In addition, the present invention is characterized in that the upper socket is installed at the bottom and is mounted on the lower surface of the bridge beam, the upper bolt fastened to the upper socket and the handle fixed to the lower portion of the upper bolt, the handle lower A height adjusting part having a lower bolt fixed to the upper bolt and having a male screw formed in a direction opposite to the rotational direction of the male screw of the upper bolt, and a supporting plate on which the lower socket engaged with the lower bolt is installed on the upper part and the lower center is removed. And, and the reinforcement device for load-bearing reinforcement of the bridge beam, characterized in that it comprises a pressing portion mounted in the center of the support plate and the roller for pressing the external tension material.

According to the present invention, since the reinforcing device is installed between the bridge beam and the external tensioning material, when the bridge beam sag or cracks and damage occurs, the reinforcing device is quickly adjusted to adjust the tension of the external tensioning material. In the reinforcing device, the pressurizing unit for pressing the external tension member is rotatably installed, thereby reducing the frictional force with the external tension member generated when working, thereby increasing durability. In addition, since the structure is simple and easy to operate, there is an effect that the work efficiency is improved.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments in conjunction with the accompanying drawings.

1 is a side view showing a state in which a reinforcement device for load capacity reinforcement of the bridge beam according to the present invention is installed on the bridge, the first shift 10 and the second shift 20 is constructed at regular intervals, the first shift The bridge beam 30 is mounted on the upper part of the 10 and the second shift 20. The first and second alternating devices 40 and 50 are installed between the first and second shifts 10 and 20 and the bridge beam 30, respectively. In order to increase preload stress by introducing prestress to the bridge beam 30, an external tension material 80 is mounted to the lower portion of the bridge beam 30. Both ends of the external tensioning material 80 are fixed to the first mounting portion 60 and the second mounting portion 70 respectively provided at the lower ends of the bridge beam 30. The lower center of the bridge beam 30 is provided with a reinforcement device 100 for adjusting the tension of the external tensioning material (80).

2 to 5, the first reinforcement device 100 according to the embodiment of the present invention has a first fixing plate 110. The first fixing plate 110 is a plate having a predetermined thickness and is detachably fixed to the lower portion of the bridge beam 30 by fastening means. The first fixing plate 110 has a plurality of holes 111 penetrating toward the upper surface at regular intervals on the lower surface thereof, and an anchor bolt (not shown) is inserted through the holes 111 to fix the first fixing plate. Fix 110 to bridge beam 30. In the present exemplary embodiment, the first fixing plate 110 is fixed to the bridge beam 30 by anchor bolts, but if necessary, the first fixing plate 110 may be riveted or welded to improve work efficiency and reduce cost.

The first height adjusting part 120 includes an upper bracket 121, a pair of arms 122 and 123, a lower bracket 124, and a screw shaft 125. The upper bracket 121 has a c-shape bent so that both ends face downward. The upper bracket 121 is installed on the lower surface of the first fixing plate 110 by welding or fastening means. The lower bracket 124 has the same shape as the upper bracket 121 and is disposed so that both ends of the lower bracket 124 face upwards. At this time, the upper bracket 121 and the lower bracket 124 are installed facing each other at a predetermined interval. The first arm 122 and the second arm 123 are connected between the upper bracket 121 and the lower bracket 124. The first arm 122 and the second arm 123 each have a one-section link structure, each end of which is fixed to the upper bracket 121 to be rotatable, and the other end to the lower bracket 124 to be rotatable. It is fixed to

The screw shaft 125 is rotatably coupled to the first arm 122 and the second arm 123, and adjusts the height of the first arm 122 and the second arm 123. When the screw shaft 125 is rotated forward or reverse, the first arm 122 and the second arm 123 are opened in the inward direction at the same time according to the rotational direction of the screw shaft 125 to increase the spacing or move outward. For smaller intervals. An auxiliary plate 126 having a protruding portion 126a protruding toward the first pressing portion 130 is provided at the lower end of the lower bracket 124, and the protruding portion 126a has a female screw 126b formed on the inner circumferential surface of the end. . The auxiliary plate 126 is attached to facilitate the fastening with the support plate, and may be provided as long as the lower bracket 124 is fastened with the support plate to rotate.

The first pressing part 130 is installed on the lower bracket 124 of the first height adjusting part 120. A part of the center of the first support plate 131 of the first pressing part 130 is removed at a lower portion thereof, and through holes 131a are formed on the same line on both sides. The first roller 132 is mounted at the lower center of the first support plate 131, and the bolt 133 is inserted into the through hole 131a of the first support plate 131 at both ends of the first roller 132. Is fastened. In the present embodiment, the first roller 132 is mounted to the first support plate 131 to be rotatable by being fastened by bolts 133, but the shaft is inserted into the first roller 132 and the outer side of the first support plate 131. It can also be fixed to each end of the exposed shaft with a fixing pin. The first roller 132 is formed with a curved portion 132a along the periphery of the center outer circumference of the outer tension material 80. The curved portion 132a preferably has a concave shape inwardly in order to stably close and press the external tension member 80.

3 shows an operating state of the first reinforcing device 100, the first reinforcing device 100 is installed between the lower portion of the bridge beam 30 and the external tensioning material (80). At this time, the first fixing plate 110 is fixed to the lower portion of the bridge beam 30, the external tension member 80 is disposed below the first roller 132 of the first pressing portion 130. The bridge beam 30 ages with time, and the bridge beam 30 sags, cracks, and damages due to the vehicle load repeatedly acting as the traffic volume increases. As described above, when deflection, cracking, and damage occur, the handle 128 is fitted to the end of the screw shaft 125 of the first height adjusting part 120 to operate.

As the screw shaft 125 rotates, both ends of the first arm 122 and the second arm 123 rotatably coupled to the screw shaft 125 are opened inward, respectively, and the first arm 122 is rotated. And the lower bracket 124 installed at the other end of the second arm 123 moves downward. That is, the distance between the first fixing plate 110 and the first roller 132 is increased. On the contrary, when the screw shaft 125 is operated in the reverse rotation direction, both ends of the first arm 122 and the second arm 123 rotatably coupled to the screw shaft 125 are opened in the outward directions, respectively. Therefore, the gap between the first fixing plate 110 and the first roller 132 is reduced.

The first pressing unit 130 is simultaneously moved in the downward direction by the pressing force of the lower bracket 124 and pressurizes the external tension member 80 disposed below the first roller 132. Prestress is introduced into the bridge beam 30 by the pressurized external tension member 80 to prevent sagging, cracking, and damage of the bridge beam 30. The first reinforcement device 100 is characterized in that the first pressing unit 130 by the operation of the first height adjustment unit 120 is simply moved in the vertical direction while pressing the external tension member 80. Since the first reinforcement device 100 moves the first roller 132 of the first pressing part 130 in the vertical direction when adjusting the tension of the external tension member 80 by the first height adjusting part 120, the first reinforcing device 100 1 The friction between the rollers 132 and the external tension member 80 is generated.

5 is characterized in that the first pressing unit 130 is rotated based on the axis of the first height adjusting unit 120 to reduce the friction of the first reinforcing device 100 to increase the durability. That is, the auxiliary plate 126 having the protrusion 126a protruding toward the first pressing part 130 is installed at the lower end of the lower bracket 124, and the protrusion 126a has a female screw 126b formed on the inner circumferential surface of the end. have. The first support plate 131 is formed with a protrusion hole 131b to accommodate the protrusion 126a. The first support plate 131 accommodates a portion of the lower surface of the auxiliary plate 126, so that the first seating groove 131d is preferably provided on the upper surface so as to transmit a uniform force and to operate smoothly when moving in the vertical direction. Formed.

The auxiliary plate 126 and the first support plate 131 are fixed by the bolt 128 installed in the lower direction of the first support plate 131. The bolt 128 is fastened to the female screw 126b of the auxiliary plate 126, and a washer 127 is installed on the lower surface between the bolt 128 and the first support plate 131. The washer 127 is installed in the second mounting groove 131c formed on the lower surface of the first support plate 131, but is not limited thereto. As described above, since the first pressing part 130 rotates based on the up and down axis of the first height adjusting part 120, the first roller 132 of the first pressing part 130 is the external tension member 80. Since the first support plate 131 rotates at the same time as the first roller 132 when the pressure is twisted, the friction can be effectively prevented.

6 is a front view of another embodiment of the reinforcing device for load-bearing reinforcement of the bridge beam according to the present invention, Figure 7 is an exploded perspective view of FIG. The second reinforcement device 200 of the second embodiment according to the present invention includes a second fixing plate 210. The second fixing plate 210 has a plurality of holes 211 formed therein and an upper socket 212 at the bottom thereof. A female screw 212a is formed on the lower inner circumferential surface of the upper socket 212. The second height adjusting unit 220 includes a handle 221 and a lower bolt 223 fixed to the upper portion of the handle 221 and fixed to the lower portion of the handle 221. The upper bolt 222 has a male screw formed on the outer circumferential surface of the upper bolt 222 so as to be engaged with the female screw 212a of the upper socket 212. The lower bolt 223 has a male screw formed in a direction opposite to the rotational direction of the male screw of the upper bolt 222. The second pressing part 230 includes a lower socket 235 having a female screw 235a formed on an inner circumferential surface thereof in order to be fastened with the male screw of the lower bolt 223. The second pressing part 230 is provided with the second supporting plate 231 and the second roller 232 is the same as the configuration of the first pressing part 130, but in this embodiment, unlike the above-described embodiment The socket 235 is formed.

Referring to the operating state of the second reinforcement device 200 of the second embodiment according to the present invention in detail, the handle 221 of the second height adjustment unit 220 operates in the forward rotation direction. The second height adjusting unit 220 is the upper bolt 222 and the lower bolt 223, the rotational direction of the male screw is formed in the opposite direction is released from the upper socket 212 and the lower socket 235, the second pressing portion The 230 is moved downward, and at this time, the external tension member 80 is pressed by the second roller 232. That is, the distance between the second fixing plate 210 and the second roller 232 is increased. On the contrary, when the handle 221 is operated in the reverse rotation direction, the second height adjusting part 220 has the upper bolt 222 and the lower bolt 223 formed with the opposite direction of rotation of the male screw, and the upper socket 212. And the second pressing part 230 moves upward while being fastened to the lower socket 235, and the gap between the second fixing plate 210 and the second roller 232 is reduced. The second reinforcement device 200 of the present invention is structurally simpler than the first reinforcement device 100, the manufacturing cost is low, and the operation is easy.

Embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

Figure 1 is a side view showing a state in which the reinforcement device for the load capacity reinforcement of the bridge beam according to the present invention is installed on the bridge

FIG. 2 is a perspective view of one embodiment of the reinforcing device for load-bearing reinforcement of the bridge beam shown in FIG.

3 is a front view of FIG. 2

4 is a front view showing the operating state of the reinforcing device for the load bearing reinforcement of the bridge beam shown in FIG.

5 is an exploded perspective view showing a coupling state of the height adjustment unit and the pressing unit shown in FIG.

Figure 6 is a front view of another embodiment of the reinforcement device for load bearing reinforcement of the bridge beam according to the present invention

7 is an exploded perspective view of FIG.

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

100: first reinforcing device 110: first fixing plate

120: first height adjusting unit 130: first pressing unit

200: second reinforcing device 210: second fixing plate

220: second height adjusting unit 230: second pressing unit

Claims (7)

A fixed plate mounted to the lower surface of the bridge beam; An upper bracket installed below the fixing plate, a lower bracket installed to face the upper bracket at intervals, a pair of arms linked between the upper bracket and the lower bracket, and the pair of arms A height adjusting part including a screw shaft rotatably coupled to the pair of arms so as to be elevated; A pressing plate installed on the lower bracket of the height adjusting unit and having a lower center thereof removed, and a pressing unit disposed at the center of the supporting plate and equipped with a roller for pressing the external tension member, The reinforcement device for reinforcing load capacity of the bridge beam, characterized in that the pressing unit is rotated based on the vertical axis of the height adjustment unit. The method of claim 1, The roller of the pressing unit has a concave shape curved portion along the outer circumference of the outer tension material is in close contact with the reinforcement for reinforcement of the load capacity of the bridge beam, characterized in that. The method of claim 1,  Reinforcement device for load-bearing reinforcement of the bridge beam, characterized in that it comprises an auxiliary plate installed on the lower bracket of the height adjustment. The method of claim 3, Reinforcement device for reinforcing load capacity of the bridge beam, characterized in that the support plate of the pressing portion is fastened to the auxiliary plate of the height adjustment unit. A fixing plate having an upper socket installed at a lower portion thereof and mounted to a lower surface of the bridge beam; An upper bolt fastened to the upper socket, a handle fixed to the lower portion of the upper bolt, and a lower bolt fixed to the lower portion of the handle and having a male screw formed in a direction opposite to the rotational direction of the male screw of the upper bolt. A height adjusting unit; A lower plate coupled to the lower bolt is installed at an upper portion thereof, and a lower portion of the lower plate is removed, and a pressing portion disposed at the center of the supporting plate and equipped with a roller for pressing an external tension member, The reinforcement device for reinforcing load capacity of the bridge beam, characterized in that the pressing unit rotates based on the vertical axis of the lower socket. The method of claim 5, The roller of the pressing unit has a concave shape curved portion along the outer circumference of the outer tension material is in close contact with the reinforcement for reinforcement of the load capacity of the bridge beam, characterized in that. The method according to claim 5 or 6, The support plate of the pressing portion is reinforced to reinforce the load capacity of the bridge beam, characterized in that fastened to the lower socket.

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