KR101847902B1 - Steel type aqueduct bridge - Google Patents

Abstract

The present invention relates to a structure of an aqueduct bridge capable of enhancing a landscape, excellent in workability and durability, and capable of long-span, comprising: a plurality of continuous columns installed on the ground; a girder portion placed on the top of the column; and a water channel supported by the girder portion, wherein a support is fixedly installed on an upper end of the column. The girder portion comprises: one pair of left and right I-type girders; and a lower plate connecting each of lower flanges of the I-shaped girder at least to correspond to the support. The support disposed at an upper end of one of the columns is bolted to be integrated with a lower plate of the girder, and a sliding means is provided between each of the supports and the lower plate located at the upper end of the remaining columns.

Description

STEEL TYPE AQUEDUCT BRIDGE

The present invention relates to a waterfall bridge which is installed in the form of a bridge in order to pass a waterway or a canal such as power generation, irrigation, water supply, etc. More specifically, the waterfall bridge is improved in viewability and has excellent workability and durability, It is about the structure of the waterway bridge.

In Korea, in the 1970s, a waterway bridge for the supply of agricultural water was installed all over the country and contributed greatly to the improvement of crop cultivation. However, this kind of waterway bridge is constructed of reinforced concrete. It is aged with aged 30 ~ 40 years and acts as an obstacle to the landscape of the countryside. In addition to this, water leakage is caused by damages, There are few cases where it can not be demonstrated properly, but it also causes the complaints of local residents.

The abovementioned waterway bridge is composed of the upper structure which is a channel for supplying agricultural water and the lower structure such as a pier which transmits various loads acting on the upper structure to the ground and is connected between the upper structure and the lower structure through a water channel support. In addition, a channel having a certain length is structurally separated and functionally connected through expansion and contraction.

However, it is reported that the above damage is mainly caused by leakage from the expansion joint, supporting device of the pier, etc., which is caused by continuous accumulation of expansion and contraction of the waterway along the longitudinal direction due to the temperature change.

Usually, the expansion joint is made by using a PVC material. When the temperature of the air is lowered, the water channel of the concrete material shrinks, and the PVC of the waterproof plate hardens hardly It can not cope with the change of one gap and it is destroyed.

To solve these problems, various expansion joint devices have been proposed. One example of such an expansion joint device is disclosed in Korean Patent Registration No. 10-0868930 entitled " Expansion joint device of a waterway bridge ".

1 and 2, the expansion joint 12 includes a variable portion 12 disposed along an interval between the variable lift portions 200 to allow the movement of the variable lift portion 200, (10) having a pair of wing portions (14) extending from the upper portion to both sides and being spaced apart from one surface of the water channel (200); A pair of slats 20 having a tread 24 stacked on each wing 14 and a vertical portion 26 extending upward from the inside of the tread 24; A waterproof plate 30 made of synthetic resin or rubber and interposed between the fixing plate 10 and the bottom plate 20; A fastening member 40 which integrally joins the fixing plate 10, the bottom plate 20 and the waterproof plate 30; And anchor bolts (50) fixed to one surface of the water channel (200) to fix the rudder (24) of the ridge (20).

The above-described stretch joint device having the above-described configuration is fixed to the two support frames 200 through the mortar 60 and the anchor bolts 50 inserted into the tread 24 of the wing portion 14, The fixing plate 10 is expanded and contracted in the longitudinal direction together with the watertight plate 30 through the U-shaped variable portion 12 of the fixing plate 10 so as to correspond to the displacement.

In the above-described prior art, there is a possibility that there is a gap between the mortar 60 for installation of the expansion joint device and the main concrete of the aqueduct bridge 200, and the construction itself is troublesome, so that it is difficult to perform precise construction. Further, the expansion joint device can protect the waterproofing plate 30 from being detached and damaged by protecting the waterproofing plate 30 with the fixing plate 10 and the laminating board 20, and the fixing plate 10 made of a plate- The U-shaped variable portion 12 must continuously move in accordance with the change of temperature and correspond to the elongation and contraction in the longitudinal direction of the channel 200. Such repetitive movement acts as a fatigue load at the bent portion, There is a problem of dropping.

In addition, as in the above-described conventional art, the water-canal bridge, which is designed mainly by functions and is constructed by continuously laying U-shaped concrete channel on a pier, is not easy to partly replace and monotonous in appearance.

KR 10-0868930 B1

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a steel structure capable of improving durability without requiring a separate expansion joint, The present invention has been made in view of the above problems.

Another object of the present invention is to provide a steel-type water-canal structure having a structure capable of changing its outer shape so as to be suitable for the surrounding environment, and on the other hand having a reinforcing effect and having a long span.

According to a most preferred embodiment of the present invention for solving the above problems, there is provided a waterway bridge comprising a plurality of continuous columns provided on a ground, a girder portion placed on the upper portion of the column, and a channel tube supported by the girder, Wherein the girder portion is composed of a pair of left and right I-type girders and a bottom plate connecting at least the lower flanges of the I-shaped girder so as to correspond to the pedestal, Wherein a pedestal located at one upper end is bolted to be integral with the lower plate of the girder and a sliding means is provided between each pedestal and the lower plate located at the upper end of the remaining column.

In this case, the upper and lower widths of the I-shaped girders placed at the positions where the columns are located can be made larger than the upper and lower widths of the I-shaped girders located at the transversely portions, and openings can be formed in the I-

In addition, a plurality of water tube supporting portions are provided in the girder portion, and sliding pads are provided between the supporting portions of the water tube supporting portion and the lower surface of the water tube, so that expansion and contraction can be freely performed without interference between the water tube and the girder portion.

In addition, in the girder portion, a plurality of upper plates for connecting the upper flanges of the I-shaped girders and a safety guardrail may be provided to form a gait passage. At this time, the upper plate can open and close the inside of the girder portion, It is possible to facilitate the inspection and maintenance work on the vehicle.

Since the present invention has a shape in which a steel pipe is inserted between a pair of I-type girders, the cross-sectional shape of the channel can be freely selected, and the long-span can be achieved by changing the cross- And to harmonize with the surrounding environment.

In addition, since the present invention does not include a stretch joint in the water pipe, there is no room for leaking phenomenon due to breakage of the expansion joint, and construction becomes very simple. In addition, since the parts are assembled at the factory, construction of the canal bridge is completed only by the assembling work in the field, and the air is greatly shortened.

Further, according to the present invention, not only the expansion and contraction of the girder itself but also the expansion and contraction due to the relative temperature difference between the girder portion and the channel of the waterway taking account of the specificity of the waterway bridge are taken into consideration, thereby effectively preventing structural deformation and improving durability.

Further, the present invention enables safe access to the inside of a waterway bridge and facilitates inspection and repair work, thereby reducing maintenance cost.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view of a joint portion corresponding to a stretch deformation of a waterway bridge according to the prior art; Fig.
2 is a perspective view of a telescopic joint applied to the joint.
3 is a perspective view illustrating the entire structure of a waterway bridge according to an embodiment of the present invention.
4 is a front view of a waterway bridge according to the embodiment of FIG. 3;
Figs. 5 and 6 are cross-sectional views for explaining a relationship in which a girder is joined to a column at each point of a waterfall bridge of the present invention. Fig.
Fig. 7 is a cross-sectional view of a water-canal bridge in which a water pipe having a circular steel pipe cross-sectional shape is installed.
Fig. 8 is a cross-sectional view of a water-canal bridge in which a pipe having a box-shaped cross-sectional shape is installed.
Fig. 9 is a cross-sectional view of a waterfall bridge having a U-shaped water passage.
10 and 11 are detailed views of respective embodiments of the lifting preventing means of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in order to obscure or obscure the technical idea of the present invention due to the detailed description of the known structure in describing the present invention, the description of the structure of the above known structure will be omitted.

4 is a front view of the waterway bridge, and Figs. 5 and 6 are a side elevation of the waterway bridge pillar 110 and the girder part 120 in which the waterway tube 120 is installed (Fig. 3) 130). ≪ / RTI > 7 to 9 show cross-sectional views of the fulcrum portion (portion A-A) and the portions of the fulcrum portion (portions B-B and C-C), respectively, in accordance with the shape of the water pipe 120.

As shown in FIG. 3, the water suspension bridge of the present invention includes a plurality of continuous columns 110 installed on the ground, a water pipe 120 for guiding the flow of water, And a girder portion 130 for supporting the upper portion 120.

A pedestal 111 is fixed to the upper end of the column 110 and a lower plate 133 is provided to correspond to the pedestal 111 in the girder part 130. As shown in FIGS. 5 and 6, between the pedestal 111 and the lower plate 133, the coupling methods are different from each other depending on the type of the supporting structure. 5, a bolt 111a is fastened to the lower plate 133 of the girder 130 so as to be integral with the lower plate 133 of the girder 130, 6, a sliding unit is provided between each of the pedestals 111 and the lower plate 133 located at the upper end of the remaining column 110 to freely expand and contract the girder 130 according to the change in temperature So that unnecessary stress is not generated between itself and the column 110.

The sliding means may be configured to allow the pedestal 111 and the lower plate 133 to freely move without restraining each other, and is preferably made of any one of a roller, a bearing 151 and a sliding pad.

The water pipe 120, which is a flow passage of the water, is made of a steel material and may be configured in the form of a circular steel pipe shown in Fig. 7 or a closed cross-section of a box pipe shown in Fig. 8, It may be formed in a U-shape in which an upper portion is opened.

When the water pipe 120 is formed of a round steel pipe or a box pipe, it is preferable that at least one internal inspection port 123 is provided on the upper surface thereof so that the inside thereof can be inspected and cleaned.

The girder 130 of the present invention is basically constructed such that a pair of I-shaped girders 131 composed of an upper flange 131a and a lower flange 131b and a web 131c are arranged side by side in parallel, Type girders 131. The I-shaped girders 131 are arranged in the middle of the girders. In addition, as described above, it further includes a lower plate 133 connecting the lower flanges 131b of the pair of I-type girders 131.

The lower plate 133 is not necessarily installed along the entire length of the girder 130, but it is installed at least on the scale of the length corresponding to the pedestal 111.

In the girder portion 130 constructed as described above, a plurality of the pipe supporting portions 140 are installed to be spaced apart from each other in the longitudinal direction so that the water pipe 120 can be supported and supported.

The water pipe 120 is installed in the girder 130 so as to be supported by at least the upper flange 131a of the I-shaped girder 131 and the water pipe support 140 of the water pipe support 140. [

For example, the water pipe 120 made of a round steel pipe is supported only by the water pipe supporting part 140, but a box pipe or U-shaped water pipe 120 has a horizontal padding 121 on its upper part, The bed 121 is placed over the upper flange 131a of the I-shaped girder 131 so that the load of the channel 120 is shared with the channel support 140 and supported.

The upper and lower widths of the I-shaped girder 131 can be configured differently with respect to the fulcrum portion where the column 110 is located and the transversal portion. More specifically, the upper and lower widths of the I-shaped girder 131 placed at the fulcrum portion are configured to be longer than the upper and lower widths of the I-shaped girder 131 located at the fulcrum portion, It is possible to change the appearance of the waterway bridge viewed from the front and to harmonize with the surrounding environment.

At this time, the openings 135 passing through the right and left sides are formed on the web 131c of the I-shaped girder 131 having a long width placed on the fulcrum where the column 110 is located, so that the aisle bridge can have a more beautiful appearance.

On the other hand, when the specification of the I-shaped girder 131 is different from that of the fulcrum portion and the transversal portion as described above, as shown in Figs. 7 to 9, the supporter 140, in which the water channel 120 is installed, Shaped girder 131 at the fulcrum portion and at the lower portion of the I-shaped girder 131 at the tangential portion.

More specifically, the supporter 140 has a shape of an upright plate having a predetermined thickness, and an upper portion of the lower portion of the supporter 140 is provided with a notch 141 on which the supporter 120 is disposed to correspond to the outer shape of the supporter 120 And both side ends are attached to the web 131c of the I-shaped girder 131 or the lower flange 131b.

At this time, the supporter 140 provided on the web 131c of the I-shaped girder 131 also acts as a buckling preventing means for the long web 131c, thereby reducing the thickness of the web 131c .

The water pipe 120 may have a fixing structure that can move integrally with the girder 130. The upper flange 131a of the I-shaped girder 131 and the horizontal girder bed 121 on the upper side of the channel 120 are welded or bolted together by integrating them by welding, for example, between the channel 120 and the channel support 140, , All of which can be made to act together.

However, a large temperature difference is generated between the water pipe 120, which allows the flowing water to serve as a refrigerant, and the girder 130, which is exposed to the hot heat of summer in summer. Thereby causing a problem that the fixing part between them is damaged.

Therefore, preferably, the water channel 120 and the girder portion 130 are slid with respect to each other, so that the elastic expansion and contraction of one side does not affect the other side. For example, if the sliding means provided between the column 110 and the girder 130 described above prevents temperature stress from being generated in the column 110 due to expansion and contraction of the girder portion 130, To prevent the generation of temperature stress due to a relative expansion and contraction change between the water tube 120 and the girder 130 supporting the same.

A sliding pad 152 may be further disposed between the supporter 140 and the lower surface of the water pipe 120 so that the sliding movement can be efficiently performed.

If the sliding pads 152 are provided between the lower surface of the water pipe support part 140 and the water pipe support part 140 as described above, they can freely expand and contract without constraining each other, , The difference in the elongation and contraction lengths is caused to exacerbate either side, which hinders the appearance and, in addition, causes a decrease in durability.

In order to solve such a problem, the present invention is characterized in that an anti-lifting means is additionally provided between the supporter 131a of the I-type girder 131 and the water pipe 120 between the supporter 140 and the water pipe 120 .

10 and 11 are views for explaining each lifting preventing means according to the shape of the water pipe 120. FIG. 10 shows a case where the water pipe 120 is formed of a round steel pipe, and FIG. 11 is a view showing a box pipe or U- And a horizontal girdle 121 is provided on the upper part as shown in FIG.

According to the embodiment of FIG. 10, the lifting prevention means includes a horizontal plate 153 installed at the upper end of the supporter 140, and a hook-shaped locking protrusion 122 provided at the lower surface of the channel 120. The pawl-type locking protrusion 122 is provided with a locking piece 122a at a lower portion thereof.

The horizontal plate 153 is formed with a guide groove 153a in the longitudinal direction so that the stopper protrusion 122 is inserted into the guide groove 153a so that the stopper 122a allows the channel tube 120 To be able to accommodate displacement in the longitudinal direction due to elongation and shrinkage while preventing it from separating from the body 140.

At this time, if the bolt 111b is attached to the end of the bolt 122 so that the threaded portion is positioned at the end of the bolt 111, The bolt 111b is inserted into the guide groove 153a of the horizontal plate 153 and then the nut 112b is fastened so that the connection between the channel 120 and the channel support 140 can be easily achieved.

11, the horizontal girder bed 121 provided at the upper portion of the channel 120 extends over the upper flange 131a of the I-shaped girder 131. By providing the float prevention means at this portion, (120) is not separated from the girder (130).

In other words, the lifting prevention means in this embodiment is composed of a T-shaped locking protrusion 132 provided on the upper flange 131a of the I-shaped girder 131 and a horizontal girder bed 121 provided on the upper portion of the channel 120 And the horizontal girdle bed 121 is provided with a longitudinal guide groove 121a into which the T-shaped locking protrusion 132 is inserted. Thus, the T-shaped locking protrusion 132 prevents the extension of the channel 120 from the upper flange 131a of the I-shaped girder 131 while permitting expansion and contraction of the channel 120 in the longitudinal direction. The T-shaped locking protrusion 132 is provided with a locking piece 132a at an upper portion thereof.

10, the bolt 111c is inserted into the horizontal girder bed 121 in a state where only the bolt 111c is attached to the upper flange 131 of the I-shaped girder 131 so that the screw portion is located at the end side, The water tube 120 and the I-shaped girder 131 can be easily coupled by fastening the nut 112c so as to function as the retaining piece 132a after being inserted into the guide groove 121a of the I- Although not shown, a bolt hole is provided in the upper flange 131a of the I-shaped girder 131 and one of the bolt head and the nut is bolted between the bolt hole and the guide groove 121a, (132a).

A walkway for moving people may be further provided on the upper portion of the girder 130. The walkway is an access road for inspection and repair of the entire suspension bridge including the water pipe 120.

A plurality of upper plates 134 connecting the upper flanges 131a of the I-shaped girders 131 may be installed on the girders 130. Each of the upper plates 134 may be opened / closed with respect to the inside of the girders 130 . For example, one surface of the upper plate 134 is hinged to the upper flange 131a of the I-shaped girder 131 to form a bottom plate capable of hinged doors. Also, preferably, the upper plate 134 is formed with a steel grating structure so that the inner condition of the girder 130 can be checked without lifting the upper plate 134.

It is preferable to provide a safety guardrail 136 at each of the outer ends of the upper flange 131a of the I-shaped girder 131 provided with the upper plate 134 to ensure safe passage of the pedestrian.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious that it will be possible to carry out various modifications thereof. It is therefore intended that such modifications are within the scope of the invention as set forth in the claims.

110; Pillars 111; Pedestal
111a, 111b, 111c; Bolts 112b and 112c; nut
120; A channel 121; Horizontal Girls Bed
121a, 153a; A guide groove 122; ㅗ type locking device
122a, 132a; A locking piece 123; Internal check
130; A girder portion 131; I girder
131a; An upper flange 131b; Bottom flange
131c; Web 132; T-shaped stopper
133; Lower plate 134; Top plate
135; Opening 136; Safety railing
140; A channel support 141; Anchui
151; A bearing 152; Sliding Pads
153; Horizontal plate

Claims (11)

A plurality of continuous columns 110 installed on the ground, a girder portion 130 placed on the upper portion of the column 110, and a water pipe 120 supported by the girder portion 130,
A pedestal 111 is fixed to the upper end of the column 110,
The girder portion 130 is composed of a pair of left and right I-type girders 131 and a lower plate 133 connecting the lower flanges 131b of the I-shaped girder 131, Shaped girder 131 placed at the fulcrum portion located at the location of the base 111 is larger than the vertical width of the I-shaped girder 131 located at the transversal portion and the lower plate 133 has a length Scale installation,
The girder portion 130 is provided with a plurality of channel support portions 140 having an inner guide portion 141. The support portion 140 is positioned inside the I-shaped girder 131 at the fulcrum portion, Type girders 131 are attached to the web 131c of the I-shaped girder 131. Both end portions of the I-shaped girder 131 are attached to the lower flange 131b of the I- It is configured to be installed,
The water pipe 120 is placed between the pair of I-type girders 131 on the inner surface 141 of the water pipe supporting part 140 and between the water pipe supporting part 140 and the lower surface of the water pipe 120 A sliding pad 152 is provided,
The pedestal 111 located at the upper end of one of the plurality of columns 110 is fastened with a bolt 111a to be integrated with the lower plate 133 of the girder 130, Characterized in that a sliding means is provided between the pedestal (111) and the lower plate (133). delete delete The method according to claim 1,
And a lifting preventing member is provided between the upper flange 131a of the I-shaped girder 131 and the water pipe 120 between the water pipe support 140 and the water pipe 120. [ 5. The method of claim 4,
The lifting prevention means includes a horizontal plate 153 provided at an upper end of the supporter 140 and formed with a guide groove 153a in the longitudinal direction and a guide groove 153a provided at the lower surface of the channel 120, And a pawl-shaped locking protrusion (122) inserted into the pawl-shaped locking pawl (122). 5. The method of claim 4,
The lifting prevention means includes a T-shaped locking protrusion 132 provided on the upper flange 131a of the I-shaped girder 131 and an upper flange 131a provided on the upper side of the channel tube 120, , And a horizontal girder bed (121) having a guide groove (121a) in the longitudinal direction through which the T-shaped locking protrusion (132) is inserted. The method according to claim 1,
The girders 130 are provided with a plurality of upper plates 134 for connecting the upper flanges 131a of the I-shaped girders 131. The upper plates 134 are opened / closed with respect to the inside of the girders 130 Wherein the first and second support members are installed so as to be capable of supporting the first and second support members. 8. The method of claim 7,
And a safety guardrail (136) is provided at an outer end of each of the upper flanges (131a). 8. The method of claim 7,
Wherein the upper plate (134) has a steel grating structure. The method according to claim 1,
The water channel (120) is formed of a round steel pipe or a box pipe, and an inner check hole (123) is provided on the upper surface. The method according to claim 1,
Wherein an opening (135) is formed through the web (131c) of the I-shaped girder (131) placed at the fulcrum where the column (110) is located.

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