KR101050718B1 - Arch construction - Google Patents

Abstract

PURPOSE: An arch structure is provided to reduce working time using blocked steel frames and precast concrete panels and to simplify the coupling process of panels. CONSTITUTION: An arch structure comprises one or more concrete footings(110), steel frames(120), and precast concrete panels(130). The concrete footings are installed on the ground. The steel frames are composed of molds(121) and horizontal beams(122) arranged in a latticed shape. The molds are coupled to the concrete footings. The horizontal beams connect the molds. The precast concrete panels are arranged on the top of the steel frames and are installed in the latticed space of the steel frames.

Description

Arch Construction

The present invention relates to an arch structure installed in an ecological connection path, more particularly, to an arch structure provided on an ecological connection path, comprising at least one foundation concrete to be installed on the ground, a template to be coupled to the foundation concrete, The present invention relates to an arch structure having a frame and a precaster concrete panel disposed on the upper side of the steel frame and mounted in the lattice-shaped space.

Ecological connection channel means the ecological space of artificial structure that is installed in order to prevent the habitat of wild animals and plants from being disconnected, damaged or destroyed due to roads, dams, underwater and harbor, and to help the movement of wild animals and plants.

Such ecological connection channels are generally installed in a tunnel type or a bridge type, and the width of the movement passage is constructed on a scale suitable for moving or living animals.

As regards the conventional tunnel type structure, Japanese Patent Application No. 10-0532248 entitled " Arch type composite structure using PS seed panel and steel girder and its construction method " is known.

Here, the tunnel-like structure comprises a steel girder made of at least one arch shape and arranged in a line in the longitudinal and longitudinal direction and having a fastening plate coupled to the leftmost end and the rightmost end respectively, A PSC panel, and a foundation concrete block in which a plurality of anchors are embedded and the left and right sides of the girder are respectively fixed.

However, it should be noted that the PSC panel is mutually coupled by forming a mortar filled hole for coupling with the stud formed on the upper part of the steel girder.

However, since the steel girder and the fixed portion are relatively small compared to the non-fixed portion of the steel girder, the PSC panel hardly seats properly, resulting in a problem that the entire process time is long.

In addition, although the tensioner is used for fixing between the PSC panel and the panel, since the fixing work is performed at a fairly high position on the ground, the risk of the operator is further increased.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to simplify a joining process of large panels to minimize a construction time and ensure stability in a joining process thereof.

According to an aspect of the present invention, there is provided an arch structure including at least one foundation concrete disposed on the ground, a steel frame coupled to the foundation concrete and a crossbar for connecting adjacent molds, 1. An arch structure having a precast concrete panel mounted on a space of a grid, the precast concrete panel being disposed on a top of a frame, the precast concrete panel comprising: a concrete block in which a reinforcing bar is embedded; A concave groove formed on an upper surface of the concrete block; and at least one protrusion formed on each of the side surfaces of the concave groove, And a hook which is formed in the concrete block and is coupled to the reinforcing bars inside the concrete block Characterized in that eojineun.

In the arch structure of the present invention, a concave space portion gradually decreasing from the edge to the center is formed in the lower portion of the concrete block.

The hook provided on the precaster concrete panel of the arch structure of the present invention is twisted with a reinforcing bar formed in the concrete block.

According to the present invention, the working time can be shortened by using the block steel frame and the precaster concrete panel.

According to the present invention, it is possible to secure mutual coupling between the steel frame and the precaster concrete panel with simple fastening structures.

According to the present invention, it is possible to appropriately disperse the load on the upper part of the arch structure by forming the cutout part and the space part in the precaster concrete panel.

1 (a) is a front view of an arch structure according to an embodiment of the present invention.
FIG. 1 (b) is a view illustrating a coupling between a foundation concrete and a steel frame of an arch structure according to an embodiment of the present invention.
1 (c) is a layout diagram of a steel frame of an arch structure and a precaster concrete panel according to an embodiment of the present invention.
2 (a) is a perspective view of a precaster concrete panel of an arch structure according to an embodiment of the present invention.
2 (b) is a bottom view of a precaster concrete panel of an arch structure according to an embodiment of the present invention.
2 (c) is a front view showing protrusions of a precaster concrete panel of an arch structure according to an embodiment of the present invention.
FIG. 2 (d) is a twisted-pair view of a reinforcing bar and a hook of an arch structure according to an embodiment of the present invention.
3 (a) is a front view of a precast concrete panel of an arch structure according to an embodiment of the present invention, which is disposed on the upper side of a steel frame.
3 (b) is a view showing a connection between a steel frame of an arch structure and a precaster concrete panel according to an embodiment of the present invention.
3 (c) is a side view of a steel frame of an arch structure according to an embodiment of the present invention.
FIG. 3 (d) is a view showing interconnected states of precaster concrete panels of an arch structure according to an embodiment of the present invention.
4 is a view illustrating an installation method of an arch structure according to an embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may properly define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

Hereinafter, an arch structure according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The arch structure 100 according to an embodiment of the present invention includes at least one foundation concrete 110 installed on the ground and a mold 121 coupled to the foundation concrete 110 and an adjacent mold 121 And a precaster concrete panel 130 disposed on the upper side of the steel frame and mounted in the grid-shaped space.

FIG. 1 (a) is a front view of an arch structure according to an embodiment of the present invention. FIG. 1 (b) is a view showing a coupling between a foundation concrete and a steel frame of an arch structure, And a precaster concrete panel.

In order to install the arch structure 100, a plurality of foundation concrete 110 are installed on the ground so as to face opposite sides of the foundation concrete 110, and a mold 121 and a beam 122 are formed on the foundation concrete 110 in a lattice form The precast concrete panel 130 mounted on the empty space between the joined steel frame 120 and the grid form of the steel frame 120 is raised.

The foundation concrete 110 installed on the ground is for supporting and supporting the loads of the steel frame 120 and the precaster concrete panel 130 located at the upper part. The foundation 121, which is coupled with the foundation concrete 110, A plurality of anchors 111 for engaging with the bottom portion 123 of the main body 100 are formed.

(Not shown) through which the anchor 111 is passed is formed in the bottom part 123 of the mold 121 to be coupled with the foundation concrete 110 in order to engage with the anchor 111 formed on the foundation concrete 110. [ And the bottom part 123 is brought into surface contact with the base concrete 110 and the nut is screwed and fixed to the anchor 111 coupled to the fastening hole.

The mold 120 of the steel frame 120 arranged and fixed on the foundation concrete 110 may be curved or straight and in the case of a straight line, a straight line and a straight line should be combined to form an arch structure.

Preferably, the mold 121 and the crossbeam 122 of this steel frame 120 are made of steel in an "engineering" cross-section and can be welded together or bolted together with a nut.

In order to make the steel frame 120 into an arcuate tunnel shape, it is preferable that the steel frame 120 is formed in one piece according to its size and weight, or may be manufactured by dividing it into several blocks.

That is, two first steel frame parts located on the upper portions of both foundation concrete 110, one third steel frame part located on the uppermost position of the arch shape, and a second steel frame part located between the first steel frame part and the third steel frame part And a plurality of second steel frame parts interposed between the first steel frame part and the second steel frame part.

The steel frame 120 is arranged and connected to the mold 121 in the form of a lattice between the cross beams 122 so that an empty space is formed between the mold 121 and the cross beams 122.

In this empty space, a precaster concrete panel 130 is formed on the upper portion of the steel frame 120 to prevent the entrance of the gravel 200 located above the arch structure 100 and to disperse the load .

The precursor concrete panel 130 may be installed in a square hollow space formed by the mold 121 and the side beams 122. The precursor concrete panel 130 may be provided at the edge of the precaster concrete panel 130, ).

Also, depending on the design conditions, another cross beam 122 may be added between the mold 121 and the beam 122 to further secure the precaster concrete panel 130.

FIG. 2 (a) is a perspective view of a precaster concrete panel of an arch structure according to an embodiment of the present invention, FIG. 2 (b) is a lower side view of a precaster concrete panel, And FIG. 2 (d) is a view showing the twist of the reinforcing bars and the hooks.

The precaster concrete panel 130 according to an embodiment of the present invention includes a square concrete block 131, a reinforcing bar 132 for reinforcing the strength of the concrete block 131, And a notch 135 for step-joining the upper part of the steel frame 120 are formed.

A notch 135 is formed at the lower edge of the precast concrete panel 130 to be fixed to the upper portion of the steel frame 120. The notch 135 is formed on the upper surface of the mold 121, So that precise positioning of the precaster concrete panel 130 is achieved.

In addition, when the notched portion 135 is formed on the lower edge of the precaster concrete panel 130, precise positioning with respect to the steel frame 100, as well as the weight from the upper portion of the arch structure 100, So that it can be supported and absorbed sufficiently.

In this case, at least one protrusion 137 formed by extending the notch 135 may be added to the outside of the square of the precaster concrete panel 130 so that the panel is easily fixed in the lattice space of the steel frame But also to prevent insertion into the lattice space.

Here, the recessed space portion 136, which gradually becomes deeper from the edge to the center, is formed in the lower portion of the precaster concrete panel 130, thereby reducing the weight of the precast concrete panel 130 and further dispersing the load.

The hook 133 is used to transport the precaster concrete panel 130 one by one using equipment such as a crane to move the precast concrete panel 130 to the upper part of the steel frame 120. The precast concrete panel 130, In consideration of the size, the weight, and the center of gravity.

A concave groove 134 is formed in a portion where the hook 133 is formed and a portion of the concrete is removed. The hook 133 protrudes from a central portion of the concave groove 134.

It is needless to say that the concave groove 134 must be formed to have a size sufficient to allow the operator to carry the precaster concrete panel 130 by inserting a hook or a wire provided in the crane into the hook 133.

Also, the hook 133 is made to be twisted with the reinforcing bar 132 formed inside the concrete block 131 to support the weight during the transportation work by the crane.

That is, for the twist coupling, the hook 133 is provided with a fastening portion 133a fastened to a ring of a crane or a steel wire, an intermediate portion 133b embedded in the concrete block, And a spiral-shaped twisted portion 133c coupled thereto.

Preferably, when the twisted portion 133c of the hook 133 and the reinforcing bar 132 are engaged with each other, they are fixed by a thin coupling line so that the position of the concrete block 131 is firmly fixed during the curing process of the concrete block 131. [

It is needless to say that the precast concrete panel 130 may be formed in a rectangular parallelepiped shape by forming the notches 135 and the space portions 136 without the projecting portions 137 according to the design conditions.

3 (a) is a front view of a precast concrete panel of an arch structure according to an embodiment of the present invention, which is disposed on the upper side of a steel frame, and FIG. 3 (b) is a view showing a connection between a steel frame and a precaster concrete panel Fig. 3 (c) is a side view of the steel frame, and Fig. 3 (d) is a view showing the interconnection state of the precaster concrete panels.

One or more studs 124 are installed on the mold 121 and the beam 122 to couple the steel frame 120 and the precaster concrete panel 130 together.

A concrete coupler (not shown) is attached to an end of the inner reinforcing bar 132 of the concrete block 131 at a portion where the protrusion 137 is not formed so that the precaster concrete panels 130 and the steel frame 120 are not separated from each other. 138 so that the precaster concrete panels 130 are coupled to each other.

It goes without saying that the coupler 138 can be formed on the portion where the projecting portion 137 is formed and the number of the coupler 138 can also be adjusted depending on the design conditions.

If a precast concrete panel 130 is disposed on the upper part of the steel frame 120 with a crane, a certain space may be formed between the precaster concrete panels 130, The concrete shrinkage mortar 140 is poured and filled to tighten the concrete panels 130.

The upper part of the arch structure thus formed can be protected by waterproofing protection for waterproofing, sheet waterproofing and / or asphalt waterproofing, and corrosion of the structure and the environment inside the structure.

4 is a view illustrating an installation method of an arch structure according to an embodiment of the present invention.

(S10) In order to construct the foundation concrete 110 of the arch structure 100, the road surface is selected, and the foundation concrete 110 is installed on both sides of a certain distance. The foundation concrete 110 may be previously manufactured and installed on the road surface or may be formed by placing concrete directly on site.

(S20) In order to lay the steel frame 120 of the arch structure 100, the sidewall S is installed between the steel frames 120 or at the connection point for convenience of construction.

 (S30) In order to fix the foundation concrete 110 and the steel frame 120, a bottom part 123 provided at the lower part of the steel frame 120 is fastened with an anchor 111 of the foundation concrete 110 and a nut Fixed. And the other end portion is supported on the swivel (S).

(S40) A steel frame 120 on the upper side is disposed between the steel frames 120 on the lower side by using a crane, and the steel frame 120 is connected by welding or fastening in the field.

(S50) When the fastening between the steel frames 120 is completed, the installed sidewall S is removed.

(S60) The precaster concrete panel 130 is placed and fixed on the steel frame 120 installed.

(S70) The non-shrinkage mortar 140 is filled in a space between the precaster concrete panels 130 formed on the upper part of the steel frame 120. [

(S80) A waterproof protection material, a sheet waterproofing material and an asphalt waterproofing material are applied to the upper part of the completed arch structure 100, and the soil is finely ground.

1 to 4 describe only the main points of the present invention. As far as various designs can be made within the technical scope thereof, the present invention is not limited to the configurations and methods of Figs. 1 to 4 It is self-evident that it is not limited.

100: arch structure 110: foundation concrete
111: anchor 120: steel frame
121: mold 122:
130: Precast concrete panel
131: concrete block 132: reinforcing bar
133: hook 133a:
133b: intermediate portion 133c: twist portion
134: concave groove 135:
136: space portion 137: protrusion
138: coupler 140: non-shrink mortar
200: Tosa S: Hornberry

Claims (3)

At least one foundation concrete 110 installed on the ground,
A steel frame 120 having a grid 121 and a beam 122 for connecting the adjacent molds 121 to each other in a lattice form;
An arch structure having a precast concrete panel (130) disposed on the upper side of the steel frame (120) and mounted in the grid-like space,
The precaster concrete panel (130)
A concrete block 131 in which reinforcing bars 132 are embedded;
At least one protrusion 137 formed on each of the square outer sides of the concrete block 131;
A cutout portion 135 which is in contact with the mold 121 and the beam 122 and is formed at the edge of the lower side of the concrete block 131;
A lower portion of the concrete block 131 has a hollow portion 136 formed in a concave shape gradually deeper from an edge to a central portion;
A concave groove 134 located on the upper side of the concrete block 131;
And a hook (133) protruding from the concave groove (134) and twisted to the reinforcing bar (132) inside the concrete block (131).

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