KR101977193B1 - Arch-Truss type Aqueduct - Google Patents

Abstract

According to an aspect of the present invention, an arch-truss type aqueduct comprises: a connection unit provide on an external surface of a steel pipe to be coupled to the steel pipe; a support unit having a pier connected to the connection unit to support the steel pipe, and an arch type member placed between a pair of adjacent piers and connected to the connection unit to support the steel pipe; and a base unit fixated to the ground, and enabling the pier and the arch type member to be connected for the pier and the arch type member to be fixated and supported on the ground.

Description

Arch-Truss type Aqueduct}

[0001] The present invention relates to an arched truss passenger bridge, and more particularly to an arched truss passenger bridge having an arched structure and a truss structure.

Generally, a waterway bridge is a structure installed to adjust the level appropriately to guide the flow of water from a raw water pond to a predetermined place.

These aqueduct bridges are made up of concrete piers and a pier supported by piers. The piers and the hydrographic lines that form the bridge are generally made of concrete.

On the other hand, when the water pipe is formed on the upper part of the pier, a plurality of water pipes are continuously connected by being coupled with each other. And the connecting portion of the pipe is generally joined at the top of the pier.

However, in the case of a water pipe constructed of concrete, as in "Korean Registered Patent No. 10-1223667 (20130111)", since the weight of the water pipe is large, the interval between the piers must be shortened. Accordingly, there is a problem that the consumed amount of the material is large.

In addition, since the interval between piers is as short as 10 meters, formation of a river or a road in the lower part of a suspension bridge obstructs the flow of water or traffic.

In order to overcome the problems of the concrete aqueduct, the construction of the aqueduct using the steel structure has been studied. However, the construction of the aqueduct using the steel structure is difficult due to the problems such as corrosion,

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an arched truss rod canopy which can minimize the consumption of material.

In addition, the present invention provides a light weight long arch-type truss aqueduct which can improve the workability of the waterway bridge, reduce the construction period, and reduce the construction cost.

According to an aspect of the present invention, there is provided an arch-type truss cannon bridge including a connecting portion provided on an outer surface of a steel pipe and coupled with a steel pipe; A support portion connected to the connection portion to support the steel pipe, and an arcuate member disposed between the pair of adjacent piers and connected to the connection portion to support the steel pipe; And a base fixed to the ground and connected to the bridge pier and the arcuate member to fix and support the bridge pier and the arcuate member to the ground; .

The base portion includes a buried portion embedded in the ground; An exposed portion having a horizontal surface located at an upper portion of the buried portion and horizontally aligned with the steel pipe, and a pair of inclined surfaces provided at both sides of the horizontal surface, And a second base fixed to the upper surface of the inclined surface integrally with the inclined surface and coupled with the arcuate member, wherein the first base is integrally fixed to the upper surface of the horizontal surface, .

The integrated base plate portion may be provided with a height adjusting plate portion which is fixed to the upper portion of the integral base plate portion so as to be in contact with the integrated base plate portion and adjusts the height of the base portion.

The connection unit may include a connection member connected to the bridge.

The connecting body includes a pair of cover plates spaced apart from each other by a predetermined distance, a rubber plate material positioned between the pair of cover plates, and a rubber plate member provided on the rubber plate member and fixed by the pair of cover plates A support plate provided on the upper part of the pipe support plate to support a part of the steel pipe; a band plate provided on the outer side of the steel pipe to surround and fix the remaining part of the steel pipe; And a rubber plate provided between the steel pipe and the band plate to reduce frictional force.

Wherein the arcuate members are provided in a pair and are coupled to the base portion; a plurality of auxiliary tubes provided between the pair of main tubes to connect the pair of main tubes; And a rolling device for moving the steel pipe easily.

Wherein the rolling device comprises a pair of reinforcing plates surrounding the outside of the main pipe, a roller vertically provided on the pair of reinforcing plates and rotating in the longitudinal direction of the steel pipe, A pair of retaining rings for minimizing the flow of the steel pipe can be provided.

According to the present invention, it is possible to minimize the consumption of material by using a steel pipe as the water pipe and supporting the water pipe through the arch-truss joint structure.

In addition, through the arch-truss joint structure, it is possible to improve the workability of the waterway bridge, reduce the construction period, reduce the construction cost, and enable the lightweight long-distance waterway bridge.

1 is a front view of an arcuate truss canal bridge according to an embodiment of the present invention;
2 is a plan view of the arched member of the arched truss rod.
3 is an enlarged view of a portion A shown in Fig.
4 is a cross-sectional view of part B shown in Fig.
5 is a view showing a modified example of the arched truss canal bridge shown in Fig. 1;
Fig. 6 is a front view showing still another modification of the arched truss canal bridge shown in Fig. 1; Fig.

FIG. 1 is a front view of an arched truss canal bridge according to an embodiment of the present invention, and FIG. 2 is a plan view showing an arcuate member of the arched truss bridge.

1 and 2, the arcuate truss rod according to an embodiment of the present invention may include a connecting portion 100, a receiving portion 200, and a base portion 300.

The connection part 100 is provided on the outer surface of the steel pipe 20 and may be connected to the support part 200 to be described later in connection with the steel pipe 20. [ The connection unit 100 will be described later in detail.

The support portion 200 is connected to the connection portion 100 and can support the steel pipe 20 coupled with the connection portion 100. To this end, the pedestal 200 may include an arch member 220 positioned between the piers 210 and a pair of piers 210 adjacent to each other in the longitudinal direction of the steel pipe 20.

The piers 210 are provided in pairs in the width direction of the steel pipe 20 and a pi-pier bridge connecting member 212 for connecting a pair of piers 210 is provided between the pair of piers 210 . Therefore, the pair of bridge piers 210 can be integrated by the pi-pier bridge connecting member 212 to improve the binding force and the fixing force.

The arcuate member 220 includes a main pipe 221 and a pair of main pipes 221 which are provided in pairs in the width direction of the steel pipe 20 as in the pier 210, And may include a plurality of auxiliary pipes 222 for connecting the pair of main pipes 221. A plurality of auxiliary pipes 222 may be provided between the pair of main pipes 221 in the form of a thrust structure to enhance the overall rigidity of the arcuate member 220. A rolling device 224 may be provided between the pair of main pipes 221. The rolling device 224 not only facilitates the movement of the steel pipe 20 but also responds to the minute expansion and contraction of the steel pipe 20 according to the temperature change. When the steel pipe 20 moves finely due to expansion and contraction, It is possible to prevent the influence of the stress on the main structural portion from being exerted through the through hole 224.

The rolling device 224 may include a reinforcing plate 2241, a roller 2242, and a stationary ring 2243. [ The reinforcing plate 2241 may be formed as a pair to cover the outside of the main tube 221 and the rotation axis of the roller 2242 may be fixed to the reinforcing plate 2241. The roller 2242 is vertically provided between the pair of reinforcement plates 2241 and can rotate in the longitudinal direction of the steel pipe 20. The pair of fixing rings 2243 are provided on the outer side of the roller 2242 to minimize the flow of the steel pipe 20 when the steel pipe 20 is rolled by the roller 2242, Rolled.

The truss structure horizontal member 230 can be coupled with the arcuate member 220 to support the lower surface of the steel pipe 20. The truss structure horizontal member 230 is fixed in position by the arcuate member 220 and a load applied to the truss structure horizontal member 230 can be transmitted to the base portion 300.

A plurality of truss structure vertical members 240 may be provided to connect the arcuate member 220 and the truss structure horizontal member 230 to improve the coupling force between the arcuate member 220 and the truss structure horizontal member 230 have.

The bridge arch connecting member 250 is connected at both ends to the bridge pier 210 and the arcuate member 220 to directly connect the bridge pier 210 and the arcuate member 220 to the bridge pier 210 or the arcuate member 220 The effect of dispersing the load of the delivered steel pipe 20 can be exhibited.

The foundation 300 may be fixed to the ground 30 and the bridge 210 of the support 200 and the arcuate member 220 may be directly connected. The bridge pier 210 and the arcuate member 220 which are respectively connected to the base part 300 can be fixed and supported on the ground surface 30 through the base part 300. The base unit 300 will be described later in detail.

Since the arcuate truss cannon bridge 10 is formed in a much lighter arcuate structure than the concrete structure, the thickness of the bridge bridge 210 can be reduced and the interval between the adjacent bridge bridge 210 can be widened. Therefore, when a river or a road is formed in the lower part of a waterway bridge, construction can be carried out without disturbing the flow of water or traffic.

In addition, since the arcuate truss cannon bridge 10 has a relatively small amount of waste to be generated and can be recycled later than concrete by using a steel structure, environmentally friendly construction can be achieved.

The base portion 300 of the arched truss cannon bridge 10 according to an embodiment of the present invention will now be described in detail. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

3 is an enlarged view of a portion A shown in Fig.

1 to 3, an arcuate truss rod canopy 10 according to an embodiment of the present invention includes a connecting portion 100, a connecting portion 100, and a connecting portion 100, which are provided on an outer surface of a steel pipe 20 and join with a steel pipe 20, Which is located between a pier 210 supporting a steel pipe 20 and a pair of piercings 210 adjacent to each other and connected to the connection part 100 to support the steel pipe 20, A portion 200 fixed to the ground 30 and connected to the bridge 210 and the arcuate member 220 such that the bridge 210 and the arcuate member 220 are secured to and supported by the ground 30 300).

The base portion 300 may include a buried portion 310, an exposed portion 320, and an integrated base plate portion 330.

The buried portion 310 is buried in the ground and can support the exposed portion 320 such that a part of the exposed portion 320 to be described later is buried in the ground and the remaining portion is exposed to the ground.

The exposed portion 320 is located on the upper portion of the buried portion 310 and may include a plurality of anchor bolts (not shown) inserted therein. The exposed portion 320 may include a horizontal surface 321 and an inclined surface 322. The horizontal plane 321 is provided to be parallel to the steel pipe 20 and may be located on the same line as the bridge pier 210. The inclined surfaces 322 are located on both sides of the horizontal surface 321 and can be inclined in a downward direction. The pair of inclined surfaces 322 may be positioned on the same line as one end of the pair of arcuate members 220 which are adjacent to each other in the longitudinal direction of the steel pipe 20 around the bridge pier 210.

The integrated base plate 330 is integrally formed with the exposed portion 320 and may include a first base 331 and a second base 332. The first base 331 is integrally fixed to the upper surface of the horizontal surface 321, and one end of the piercing hole 210 can be abutted. The pierced hole 210 facing the first base 331 can engage with the base 300 by fastening a nut (not shown) to the anchor bolt (not shown). The second base 332 is integrally fixed to the upper surface of the inclined surface 322, and one end of the arcuate member 220 can be abutted. The arcuate member 220 abutting the second base 332 can engage with the base 300 by fastening a nut (not shown) to the anchor bolt (not shown) as in the pier 210. The other end of the arcuate member 220 may be fixed to another base portion 300 adjacent to the base portion 300 to which one end of the arcuate member 220 is fixed.

In this way, the bridge pier 210 supporting the steel pipe 20 and the arcuate member 220 are individually connected to the base portion 300, and the load transmitted through the arcuate member 220 to the pair of adjacent bases So that it is possible to exhibit the effect of evenly distributing and supporting the load of the steel pipe 20 without concentrating the load on any one place.

The base part 300 may include a height adjusting plate part 340 on the integrated base plate part 330. The use of the integral type base plate portion 330 eliminates the need for filling the non-shrinkage mortar, and can be easily used when it is necessary to adjust the minute slope using various thicknesses. Also, since the upper load is transferred to the steel plate without any shrinkage mortar, it is possible to improve the quality of the corner portion.

Hereinafter, the connection unit 100 according to an embodiment of the present invention will be described in detail. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

4 is a sectional view of part B shown in Fig.

1 to 4, an arcuate truss rod canopy 10 according to an embodiment of the present invention includes a connecting portion 100 provided on an outer surface of a steel pipe 20 and engaged with a steel pipe 20, a connecting portion 100, And an arcuate member 220 disposed between the pier 210 supporting the steel pipe 20 and the pair of piercings 210 adjacent to each other and connected to the connecting portion 100 to support the steel pipe 20, (200) and a base (300) secured to the ground (30) and connected to the bridge (210) and the arcuate member (220) to allow the bridge (210) and the arcuate member ).

The connection unit 100 may include a connection unit 101.

4 (a), the connector 101 includes a pierce fixing plate 180, a cover plate 120, a rubber plate 130, a pipe support plate 140, a support member 150, a band plate 160 And a rubber plate 170.

The cover plates 120 may be formed to be spaced apart from each other by a predetermined distance, and may be formed along the longitudinal direction of the steel pipe 20 at the upper portion of the pierce fixing plate 180. The upper portion of the cover plate 120 may be protruded toward the spaced space side of the pair of cover plates 120.

The rubber plate member 130 may be positioned between the pair of cover plates 120 so as to be positioned on the upper surface of the pierce fixing plate 180.

The pipe support plate 140 is provided on the upper portion of the rubber plate member 130 so that both ends of the pipe support plate 140 are caught by the pair of cover plates 120 and can be guided by the cover plate 120, The position can be moved. Accordingly, the position of the steel pipe 20 coupled to the connection part 100 can be finely adjusted in the longitudinal direction, thereby improving the workability of the arcuate truss cannabis bridge 10.

The support member 150 may be provided at an upper portion of the pipe support plate 140 to support a part of the steel pipe 20. [

The band plate 160 is provided on the outer side of the steel pipe 20 and may wrap the remaining portion of the steel pipe 20 not supported by the support member 150.

The rubber plate 170 may be provided between the steel pipe 20 and the support member 150 to reduce the frictional force generated in the steel pipe 20 and the support member 150.

Referring to FIG. 4 (b), the connecting device 101 may be provided with a rolling device 224. When a plurality of bridge columns 210 are continuous, a combination of the bridge 101 shown in FIG. 4 (a) and the bridge 101 shown in FIG. 4 (b) 20 can be accommodated.

Next, a modified example of the arcuate truss roent shield 10 according to the embodiment of the present invention will be described. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

FIG. 5 is a view showing a modified example of the arched truss grooving bridge shown in FIG. 1, and FIG. 6 is a front view showing another modified example of the arched truss grooving bridge shown in FIG.

1 through 5, an arcuate truss rod canopy 10 according to an embodiment of the present invention is capable of coupling an arcuate member 220 to a middle height of a pier 210.

When the arcuate member 220 is coupled to the pier 210, it is used when the height of the base 300 supporting the adjacent pier 210 is not the same, Can be installed.

5A, when the material of the pier 210 is a steel material, there is provided a point reinforcing plate 40 for easily coupling the pier 210 and the arcuate member 220, a concrete joint plate 500 may be provided to allow the bridge pier 210 and the arcuate member 220 to be easily engaged when the bridge pier 210 is made of concrete as shown in FIG.

1 to 6, the arcuate member 220 of the arcuate truss rod canopy 10 according to an embodiment of the present invention may be combined with an alternation 40 that transmits a load to the ground. The alternation 40 can be used when the arcuate truss cannon bridge 10 traverses the river 50 and the start and end portions of the arcuate truss canal bridge 10 as shown in the figure and the arcuate member 220 May be directly coupled to the alternation 40 so that the load transferred to the arcuate member 220 is dispersed through the alternation 40 so that the steel pipe 20 can be easily supported.

Although the present invention has been described with respect to the arched truss studs according to the present invention, the spirit of the present invention is not limited to the embodiments shown in the present specification. Those skilled in the art, who understands the spirit of the present invention, can readily suggest another embodiment by adding, changing, deleting, or adding elements within the scope of the same idea, but this is also within the spirit of the present invention something to do.

10: Arched truss aqueduct bridge 20: Steel pipe
30: floor 40: shift
50: Stream 100: Connection
101: connector 120: cover plate
130: Rubber plate 140: Tubular plate
150: support member 160: band plate
170: rigid plate 180: piercing plate
200: receiving part 210: pier
212: pi-type bridge connecting member 220: arcuate member
221: main pipe 222: auxiliary pipe
224 rolling device 2241: reinforcing plate
2242: roller 2243: retaining ring
230: truss structure horizontal member 240: truss structure vertical member
250: bridge arch connecting member 300: base portion
310: buried portion 320: exposed portion
321: horizontal plane 322:
330: integral type base plate portion 331: first base
332: second base 340: height adjusting plate portion
400: Point reinforcement plate 500: Concrete joint plate

Claims (7)

A connection portion provided on the outer surface of the steel pipe and coupled with the steel pipe;
A support portion connected to the connection portion to support the steel pipe, and an arcuate member disposed between the pair of adjacent piers and connected to the connection portion to support the steel pipe; And
A base fixed to the ground and connected to the bridge pier and the arcuate member to fix and support the bridge pier and the arcuate member to the ground; And,
The base portion includes a buried portion embedded in the ground; An exposed portion having a horizontal surface located at an upper portion of the buried portion and horizontally aligned with the steel pipe, and a pair of inclined surfaces provided at both sides of the horizontal surface, And a second base fixed to the upper surface of the inclined surface integrally with the inclined surface and coupled with the arcuate member, wherein the first base is integrally fixed to the upper surface of the horizontal surface, And,
The integrated base plate portion is provided at its upper portion with a height adjusting plate portion fixed to the integrated base plate portion so as to be in contact with the base plate portion,
Wherein the connecting portion has a connecting body connected to the pier,
The connecting body includes a pair of cover plates spaced apart from each other by a predetermined distance, a rubber plate material positioned between the pair of cover plates, and a rubber plate member provided on the rubber plate member and fixed by the pair of cover plates A support plate provided on the upper part of the pipe support plate to support a part of the steel pipe; a band plate provided on the outer side of the steel pipe to surround and fix the remaining part of the steel pipe; And a rubber plate provided between the steel pipe and the band plate to reduce frictional force between the steel plate and the band plate.
delete delete delete delete The method according to claim 1,
Wherein the arcuate members are provided in a pair and are coupled to the base portion,
A plurality of auxiliary tubes provided between the pair of main tubes to connect the pair of main tubes,
And a rolling device provided between the pair of main pipes to allow the steel pipe to be easily moved.
The method according to claim 6,
The rolling device includes a pair of reinforcing plates surrounding the outside of the main tube,
A roller vertically provided on the pair of reinforcing plates and rotating in the longitudinal direction of the steel pipe,
And a pair of retaining rings provided outside the rollers and minimizing the flow of the steel pipe when rolling.

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