KR101523634B1 - Environment friendly arch structure of long-span steel composite earth works - Google Patents

Abstract

The present invention is an environment friendly arch structure of a long-span steel composite for earth work, in which an upper part of the arch structure of steel composite is covered by soil through earth working to form a filled up part for constructing a road, and the arch structure of composite steels can be constructed to have a long span by applying additional embedded cables of PC steel members. An environment friendly arch structure of a long-span steel composite for an earth work according to an embodiment of the present invention includes: at least two concrete foundation parts arranged spacing from each other with a predetermined distance; a steel arch rib, which is manufactured by steels with an arch-shape and is installed between the concrete foundation parts neighboring each other; precast concrete panels installed at an upper surface of the steel arch rib to support a filled up layer; a waterproof layer installed an upper surface of the precast concrete panels to shut off influent water to be absorbed inside; the filled up layer providing a foundation pavement surface where an upper surface of the waterproof layer is covered by soil through earth working to be used as an ecological passage or a road is paved; a concrete pillar installed at the concrete foundation part to support load applied to the steel arch rib; and PS steels, which are installed at space between the concrete pillar and the steel arch rib and are pre-stressed.

Description

[0001] The present invention relates to an environmentally friendly long-span steel composite earth arch structure,

The present invention relates to an arched structure that is well suited to the surrounding environment. In particular, the arch structure is formed by covering the arch structure with the earth as the earth, and arch structure is additionally applied with the PS steel material, Friendly long-span steel composite arch arch structure that can be constructed.

Generally, when constructing roads and railways, there are cases where the roads and railroad tracks are formed by embankment as earthworks. In this case, there are a lot of cases in which both sides are disconnected due to earthenware or obstructed the view, and many complaints are generated from the local people in the construction area, and the construction is changed to a general and universal bridge structure type. However, even in this case, all of the bridges are constructed with concrete structures and are not in harmony with the surrounding area, and there are many cases in which the bridge structure hurts aesthetics rather. In addition, construction costs for the construction of bridges are also considerably wasted, resulting in economical waste. Therefore, it is required to develop eco - friendly structures that are in harmony with the surrounding environment and low in construction cost.

As a background of the present invention, Korean Patent Laid-Open Publication No. 10-2014-0088741 entitled "Arched precast structure and its construction method" has been proposed. This is the basic concrete; A ventilation segment installed in the foundation concrete and having a ventilation hole; And a reinforcing member provided on the ventilation segment to form an arched precast structure.

In the above background art, it is possible to stably form the segment (including the vent segment) to form the segment stably, minimize the cost required for manufacturing the segment, and install the strut bar and / or the stiffening member on the segment, It is possible to prevent displacement and bending cracks in the width direction which may occur in transportation, installation, and the like. However, the above background art fails to secure the stability of the segment against live load when the road is constructed on the upper surface after forming the embankment layer on the upper part of the segment, and such a structure has a problem that it is difficult to apply the structure to a structure having a long diameter.

As another background art of the present invention, "Arch type bridge structure using high strength concrete block" as Korean Registered Patent Registration No. 10-1428510 has been proposed. The concrete block is formed by connecting concrete blocks formed by a concrete material in an arch shape, and both sides of the concrete block are formed with coupling grooves and coupling projections so that mutual coupling is possible. On the upper side of the concrete block, And a fiber layer for increasing the bonding strength between the blocks is attached.

The background art uses a concrete block made of a reinforced poly-m concrete to prevent the breakage of the bridge structure and also has an advantage of easy construction into an arched structure using a fiber layer. However, since the background art is not a steel composite arch structure, the embankment layer is formed on the upper part and the stability is poor when the road is constructed. In addition, it is difficult to apply the present invention to bridges between long bridges because the rigidity of arch type bridge structures can not be increased.

Korean Unexamined Patent Application Publication No. 10-2004-0088741 (Arched precast structure and its construction method) Korean Registered Patent No. 10-1428510 (Arched Bridge Structure Using High Strength Concrete Block)

The present invention is to provide an environmentally friendly long-span steel composite arch arch structure that is well matched to the surrounding environment by making the steel composite arch structure an arch structure.

Also, it is intended to provide an eco-friendly long-span steel composite articulated arch structure in which the upper part of the steel composite arch structure is made of the earth rather than concrete, thereby reducing the construction cost and having a beautiful appearance.

In addition, to provide an eco-friendly long-span steel composite arch arch structure that has a steel composite arch structure as an arch structure, a steel material as its material, and a long steel cable as a PS steel material, do.

In addition, the present invention provides an environmentally friendly long-span steel composite arch arch structure capable of preventing the deformation of the arch structure due to the deformation of the soft ground during use by tying the concrete base portions of the steel composite arch structure with the PS steel.

Also, it is intended to provide an environmentally friendly long-span steel composite arch arch structure capable of checking and maintaining the tension of PS steel by installing a maintenance tunnel for the PS steel fusing part on the back surface of the concrete foundation of the steel composite arch structure.

According to an embodiment of the present invention, an environmentally friendly long-span steel composite arch arch structure includes:

A plurality of concrete bases spaced apart from each other at a predetermined distance on the ground; A steel material arch rib which is made of a steel material and is installed in an arched shape between adjacent concrete bases; A precast concrete panel installed on the upper surface of the steel arch rib to support the embankment layer; A waterproof layer provided on an upper surface of the precast concrete panel to block infiltration water permeated into the precast concrete panel; An embankment layer provided on an upper surface of the waterproof layer to provide a base pavement surface covered with earthwork and used as an ecological passage or a road; A concrete pillar installed in the concrete foundation to support a load acting on the steel arch rib; And a PS stiffener installed between the concrete strut and the steel arch rib.

A PS steel material which is fixed and installed between the neighboring concrete bases; And a PS steel maintenance tunnel provided in the concrete foundation to check the tensional force of the PS steel.

In addition, the concrete may be replaced with the precast concrete panel and placed on the site.

In addition, eco - friendly long - span steel composite arch arch structures can be applied to ecological bridges, ecological aquaducts, ecological parks, ecological soundproofing walls, and detachable ecological tunnels.

In addition, the concrete pillar may be one stock located at the center of the concrete base portion, two stocks provided at both ends of the concrete foundation portion, or three stocks provided respectively at the center and both ends of the concrete foundation portion.

The present invention can provide an effect of providing a landscape well suited to the surrounding environment by making the steel composite arch structure an arch structure.

In addition, the upper part of the steel composite arch structure is made of earth rather than concrete, thereby reducing the construction cost and providing a beautiful appearance.

In addition, the steel composite arch structure is made into an arch structure, and its material is made of a steel material, and a twisted cable made of PS steel is additionally applied.

Also, since the concrete base portions of the steel composite arch structure are tied and tied with the PS steel, the effect of preventing the deformation of the arch structure due to the deformation of the soft ground during use can be provided.

Also, it is possible to provide an effect of checking and maintaining the tension of the PS steel by installing a maintenance tunnel of the PS steel fusing unit on the back surface of the concrete foundation of the steel composite arch structure.

In addition, it is possible to utilize the embankment in various directions such as a bridge, an ecological passage and an ecological park, and to control the rigidity of the steel composite arch structure by controlling the size of the concrete pillar.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a perspective view of an eco-friendly long-span steel composite arch arch structure according to the present invention in the form of a single stock.
2 is a perspective view of an eco-friendly long-span steel composite arch arch structure according to the present invention in the form of two stocks.
FIG. 3 is a perspective view of an eco-friendly long-span steel composite articulated arch structure according to the present invention in the form of three stocks. FIG.
Fig. 4 is a sectional view of an environmentally friendly long span steel composite articulated arch structure in the case of Figs. 1, 2, and 3;
Figure 5 is a perspective view of an environmentally friendly long-span steel composite articulated arch structure with PS steel in the concrete base of Figure 1;
6 is a perspective view of an eco-friendly long-span steel composite articulated arch structure with PS steel in the concrete base of FIG. 2;
FIG. 7 is a perspective view of an environmentally friendly long-span steel composite articulated arch structure with PS steel in the concrete base of FIG.
8 is a sectional view of an environmentally friendly long span steel composite articulated arch structure in the case of Figs.
Fig. 9 is a perspective view showing a embankment layer formed on an upper part of a steel arch structure and a road constructed on the upper surface thereof; Fig.
Figure 10 is a cross-sectional view of Figure 9;
11 is a cross-sectional view of an environmentally friendly long span steel composite articulated arch structure in three spans.

Arch structures in bridge structures are basically well suited to the surrounding environment.

Accordingly, the present invention is configured so that the embankment portion is constructed in an arch-overhauled form, the upper part of the arch structure is covered with the earth rather than the concrete, and the upper surface thereof is made into the road structure, so that the construction cost can be reduced and the beautiful earth arch structure can be constructed. In this case, if the arch structure is made of steel, a long span can be formed, and if a twisted cable made of PS steel is additionally applied to the arch structure, the arch structure can be constructed to have a longer span, It is possible.

That is, the present invention is characterized in that the concrete foundation portions of the steel composite arch structure to which the steel material arch ribs are to be jointed and fixed are formed, the concrete foundation is formed on the intermediate foundation portion to fix the PS steel cables to each other, A pre-cast concrete panel is installed on the upper surface of the steel arch rib to form a composite joint, a waterproof sheet is attached to the upper surface of the precast concrete panel, a waterproof protective layer is formed on the upper surface of the waterproof sheet to form a steel composite arch structure After the PS steel material is tied up by connecting the steel composite arch structure and the PS steel material in the concrete pillar in the middle foundation, the soil is formed on the upper part of the steel composite arch structure and the pavement is formed on the top of the composite arch structure. .

In this case, the stiffness of the steel arch rib is increased by tentering the steel arch rib from the concrete strut to the PS steel, so that the stiffness of the steel arch rib can be increased to form a long span and the beauty can be further increased.

In addition, the present invention can control the stiffness of the steel arch rib according to the height of the concrete strut, and when the ground is soft ground, the concrete base of the steel composite arch structure tends to be tied with the PS steel, It is possible to prevent the deformation of the steel composite arch structure due to the deformation and to construct a maintenance tunnel of the PS steel fixing unit on the back surface of the concrete foundation of the steel composite arch structure so that the tension of the PS steel can be always checked and maintained .

This structure is very eco-friendly and can form long arch spans of steel composite arch structures. The precast concrete panel joined to the upper surface of the steel arch rib may be replaced with a cast concrete placed in the field. The environmentally friendly long-span steel composite arch arch structure may have various structures such as an ecological passage and an ecological park in addition to the bridge structure Of course.

In the present invention, the concrete strands to be strained in the PS steel material in the present invention may be composed of two stocks at both ends of the intermediate foundation part of the steel composite arch structure, or one stock at the center part of the intermediate foundation part, . This can be applied flexibly according to the amount of soil to be filled with the steel composite arch structure.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

As shown in Figs. 1 to 4, the eco-friendly long-span steel composite arch arch structure of the present embodiment is provided with a plurality of concrete base portions 12 spaced apart from each other on the ground. The concrete foundation 12 supports the steel composite arch structure 10. The concrete base part 12 can be installed on site or manufactured in a factory and can be installed on site. When three or more concrete bases 12 are installed, it may be referred to as an intermediate foundation to be provided between both outermost concrete bases 12. The concrete base portion 12 may form an inclined surface on the upper side or both sides so that the end portion of the steel arch rib 14 is joined to the upper portion. Thus, the intermediate base portion has a symmetrical inclined surface and both outermost concrete base portions 12 have inclined surfaces to either side.

Between adjacent concrete bases 12 and 12 there are provided a steel arch rib 14 and a precast concrete panel 16 provided on the upper surface of each of the steel arch ribs 14 and a precast concrete panel 16 And a waterproof layer 18 provided on the upper surface.

The steel arch ribs 14 are joined to each other through an arcuate H-shaped steel or an I-shaped steel through cross members not shown mutually to form an arched rib structure. The precast concrete panels 16 are formed in a rectangular shape and are disposed on the upper surface of the steel arch ribs 14 and joined together. The waterproof layer 18 is formed by attaching a waterproof sheet and then constructing a waterproof protective layer on the upper surface of the waterproof sheet. For example, the waterproof sheet may be an adhesive waterproof sheet, and the waterproof protective layer may be a liquid waterproof film.

On the upper surface of the waterproof layer 18, an embankment layer 20 is provided and covered with the earth as shown in Figs. The embankment layer 20 has a flat upper surface. The embankment layer 20 is packed on the upper surface, and roads are installed.

Alternatively, the pre-cast concrete panel 16 may be replaced with a concrete that is laid in place using a form.

Concrete pillars 22 are installed in the middle base portion among the concrete base portions 12. In consideration of buckling, it is preferable that the concrete column 22 has a cross-section in which the lowermost portion has the widest cross-section and becomes smaller as it goes upward.

PS steel 24 is installed between the concrete struts 22 and the steel arch ribs 14 in tension. Therefore, the rigidity of the steel arch ribs 14 is increased to form a long span, and the aesthetic appearance is further increased. Also, the rigidity of the steel arch rib 14 can be adjusted according to the height of the concrete column 22. [

5 to 8, when the ground is a soft ground or the like, the PS steel material 26 may be installed between the neighboring concrete bases 12 and 12 in a strained state. At this time, the intermediate base portion is provided with the fusing portion on both sides, and the fusing portion is provided on the other side thereof. The PS steel material 26 is connected to the concrete foundation 12 and the steel composite arch structure 10 is installed on the concrete foundation 12. The PS steel maintenance tunnel 13 is installed on the backside of the concrete foundation 12 .

Since the concrete base portions 12 of the steel composite arch structure 10 are tied and tied by the PS steel 26 in this manner, the movement or deformation of the concrete base portions 12 due to the deformation of the ground during use is suppressed, Deformation of the composite arch structure 10 can be prevented. Also, the PS steel material maintenance tunnel 13 can always check the tensile strength of the PS steel material 26.

In the eco-friendly long-span intergranular steel composite arch arch structure constructed as described above, the concrete strut 22 is a single stock provided at the center of the concrete foundation 12 as shown in Figs. 1 and 5, And three stocks provided at the center and both ends of the base portion 12, respectively.

2 and 6, the concrete struts 22 may be composed of two stocks each provided at both ends of the concrete foundation 12.

The long-span steel composite arch arch structure constructed as described above can be applied to ecological bridges, ecological aisles, ecological parks, ecological soundproof walls, and open type ecological tunnels with an environmentally friendly structure.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

12: Concrete foundation
14: Steel arch rib
16: Concrete panel
18: Waterproof layer
20: buried layer
22: Concrete holding
24, 26: PS steel

Claims (5)

Three or more concrete bases 12 spaced apart from each other with a certain distance on the ground;
A steel material arch rib (14) made of a steel material and arcuately installed between adjacent concrete bases (12 and 12);
A precast concrete panel (16) installed on the upper surface of the steel arch rib (14) and supporting the embankment layer (20);
A waterproof layer 18 installed on an upper surface of the precast concrete panel 16 to block infiltration water permeated into the precast concrete panel 16;
An embankment layer (20) provided on the upper surface of the waterproof layer (18) to provide a base pavement surface covered with earthwork and used as an ecological passage or roads;
A concrete strut 22 installed on the concrete foundation 12 to support a load acting on the steel arch rib 14;
A PS stiffener 24 installed between the concrete struts 22 and the steel arch ribs 14 and tense;
A PS steel material 26 which is fixed and installed between adjacent concrete bases 12 and 12;
And a PS steel material maintenance management tunnel (13) provided in the concrete foundation part (12) for checking the tensional force of the PS material (26)
The concrete base portion 12 is formed with an inclined surface on one side or both sides of an end of the steel arch rib 14 to be joined,
The concrete pillar 22 is composed of one stock located at the center of the concrete base 12, two stocks each provided at both ends of the concrete base 12, Wherein the three joints are provided at the end portions of the joints.
delete The method according to claim 1,
Wherein the pre-cast concrete panel (16) is a concrete that is placed in place in place of the precast concrete panel (16).
The method according to claim 1,
Environmentally friendly long-span steel composite arch arch structure is an eco-friendly long-span steel composite arch arch structure that is applied to ecological bridges, ecological aisles, ecological parks, ecological soundproof walls, and open type ecological tunnels.
delete

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