KR101022249B1 - Manufacturing method of wall type rahmen bridge - Google Patents

Abstract

PURPOSE: A wall type rigid frame bridge having strong installation structure and a construction method thereof are provided to enable the formation of stable structure, since moment focusing on a corner site is decentralized. CONSTITUTION: A wall type rigid frame bridge having strong installation structure comprises a foundation block(110), a wall skeleton portion(120), a leaf spring member(130), a slab skeleton portion(140), a concrete(150), and a surface wall(160). The foundation block is installed on the ground. The wall skeleton portion is installed on the top of the foundation block. The leaf spring member is installed between the wall skeleton portions which are contiguous to each other. The slab skeleton portion is installed in the leaf spring member. The concrete is placed and cured in the wall skeleton portion and the slab skeleton portion. The surface wall is installed between a wall(1) and an upper slab(2).

Description

Face wall type ramen bridge with solid installation structure and its construction method {Manufacturing method of wall type rahmen bridge}

The present invention relates to a surface wall type ramen bridge, and more particularly, by installing a plate spring member having both ends connected to an upper end of a wall frame part in a half arc shape curved upwards in an upper slab forming a ramen bridge. By improving the resistance to the load acting as the upper slab and by installing a separate face wall between the wall and the upper sleeve to support all sides of the slab through the wall and face wall, the right angle of the ramen bridge The present invention provides a surface wall type ramen bridge and a method of construction thereof having a solid installation structure that can further improve the stability of the ramen bridge by dispersing moments acting on the site.

In general, a ramen bridge is a bridge in which a ramen structure is constructed in a main bridge, and an ordinary bridge is composed of an upper structure and a substructure supporting the same, but a ramen bridge is bound to form a door. The mechanical constellation is similar to an arch bridge. There are various types depending on the structure of the branch, and there are special ones such as a continuous ramen bridge connecting several spans together.

Such a ramen bridge is a structure in which steel bars or steel frames are firmly solidified at the joints of materials, and is used as a bridge that connects both sides of the road with underground.

This conventional ramen bridge will be described in detail with reference to the drawings.

1 is a process chart showing a construction process of a general reinforced concrete ramen bridge.

Referring to Figure 1, when explaining the construction process of reinforced concrete ramen bridge, the step of constructing the foundation (10); When the wall 11 is high, constructing a part of the wall first; Installing formwork 40 and clubbing 50 to pour the upper slab; Pouring the upper and upper slab concrete 20 on the wall 11; When curing of the poured concrete is completed, removing the club (50) and constructing a protective wall, pavement, etc. consists of completing the bridge.

The existing conventional reinforced concrete ramen bridge is constructed by connecting the upper and lower structures of the bridge with steel to increase the rigidity of the entire structure and to reduce the magnitude of the bending moment occurring in the ground. The burdensome method applies.

However, the existing ramen bridge having the above technical features has the following problems.

The existing ramen bridge has a problem in that the corner portion where the upper structure and the wall meet is vulnerable to fatigue, and when the predetermined period passes after construction, the corner portion is destroyed due to the accumulation of fatigue.

In addition, as the right angle part of the ramen bridge receives the highest moment over the entire member, the cross section of the part is increased during the construction process to compensate for this. In this process, the moment is concentrated on both ends of the relatively large cross section. There was a problem that cracks occur.

The present invention has been made in order to solve the general problems of the conventional ramen bridge described above, the object is a leaf spring that is connected to the upper end of the wall frame in the shape of a half arc curved upwards on the inside of the upper slab constituting the ramen bridge By installing the member, the surface wall type ramen bridge has a solid installation structure that not only improves the resistance to the load acting on the upper slab of the ramen bridge but also disperses the moment concentrated in the right angled part so that the ramen bridge has a stable structure. And a construction method thereof.

Another object of the present invention is to install a face wall between the wall and the upper sleeve of the ramen bridge to support all sides of the slab through the wall and face wall, face wall type having a solid installation structure to further improve the stability of the ramen bridge Provide ramen bridge and its construction method.

The present invention for achieving the above object

A plurality of basic blocks installed on the ground;

A wall frame portion formed through the reinforcement of the plurality of first horizontal rebars and the plurality of first vertical rebars at the top of each foundation block;

A plurality is connected between the wall frame and the wall frame, the support plate having a half arc shape curved upwards is formed on the inside, and the connection plate is provided on both ends of the support plate seated on the upper end of the wall frame, Plate spring members having a lower end of each connection plate protruding from a connector forming a locking connection with the first horizontal rebar;

A slab skeleton portion comprising a plurality of second horizontal rebars and a plurality of second vertical rebars arranged to surround the leaf spring member;

Concrete that is poured into the wall frame and the slab frame to form a wall and the upper slab and

It comprises a face wall installed between the two sides of the wall and the upper slab.

On the other hand, the above-mentioned surface wall type ramen bridge

Installing foundation blocks by pouring and curing concrete in the ground of the section where the ramen bridge is installed;

Installing a wall frame through the reinforcement work using the plurality of first horizontal rebars and the plurality of vertical rebars on the base block;

After placing the leaf spring member between the first horizontal reinforcement located at the top end of the wall frame portion and the first horizontal reinforcement located at the top end of the adjacent wall frame part, the leaf spring member in the first horizontal reinforcement through the connector formed in the leaf spring member Connecting the;

Installing a slab frame portion surrounding the leaf spring member through reinforcement using a plurality of second horizontal rebars and a plurality of second vertical rebars;

Placing and curing concrete in the wall frame and the slab frame to form a wall and the upper slab and

The concrete is installed between the two sides of the wall and the upper slab is constructed through the step of installing a face wall.

According to the present invention, by installing a plate spring member whose both ends are connected to the upper end of the wall frame in a half arc shape curved upward in the upper slab constituting the ramen bridge, to improve the resistance to the load acting on the upper slab of the ramen bridge Of course, by dispersing the moment concentrated in the right corner portion has the effect that can achieve a stable structure ramen bridge.

In addition, by installing a face wall between the wall and the upper sleeve of the ramen bridge to support all sides of the slab through the wall and face wall, there is an effect that can further improve the stability of the ramen bridge.

1 is a process chart showing a construction process of a general reinforced concrete ramen bridge.
Figure 2 is a sectional view showing the main part of the wall wall ramen bridge having a solid installation structure according to a preferred embodiment of the present invention.
Figure 3 is a perspective view showing a leaf spring member of the face wall type ramen bridge having a solid installation structure according to an embodiment of the present invention.
Figures 4a to 4f is a process diagram showing the construction process of the surface wall type ramen bridge having a solid installation structure according to a preferred embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings it will be described in detail the face wall type ramen bridge having a rigid installation structure according to an embodiment of the present invention.

2 is a cross-sectional view showing a main portion of the wall wall ramen bridge having a solid installation structure according to a preferred embodiment of the present invention, Figure 3 is a plate spring member of the face wall type ramen bridge having a solid installation structure according to a preferred embodiment of the present invention Is a perspective view.

2 and 3, the face wall type ramen bridge 100 having a structure for improving the cross-sectional force of the present invention is a base block 110 is installed on the ground, and the wall is installed on the top of the base block 110 Frame spring member 130 is installed between the frame portion 120, the wall frame portion 120 and the wall frame portion 120 adjacent to the wall frame portion 120, and the slab frame portion is installed on the leaf spring member (130) And a concrete wall 150 which is placed and cured in the wall frame part 120 and the slab frame part 140 and a face wall 160 installed between the wall 1 and the upper slab 2. do.

On the other hand, the base block 110 is a constituent means for performing a basic role supporting the ramen bridge.

At this time, the base block 110 is a structure of a weight body is installed on the ground of the section where the ramen bridge is installed, the interval is preferably made of the same distance as the span of the ramen bridge.

On the other hand, the wall frame portion 120 is a component means that the wall (1) is installed to support the load of the upper slab (2) and at the same time have a resistance to external forces.

At this time, the wall frame portion 120 is formed through the reinforcement of the plurality of first horizontal reinforcement 121 and the plurality of first vertical reinforcement 123 in the upper portion of each of the foundation blocks (110).

On the other hand, the leaf spring member 130 is a configuration means that is installed to improve the resistance to the load acting on the upper slab (2).

At this time, the leaf spring member 130 is both ends of the first horizontal reinforcing rod 121 at the top of the first horizontal reinforcing rod 121 forming the wall frame 120 and the wall frame portion 120 of the adjacent position Is connected, the support plate 131 having a half arc shape curved upwards on the inside is formed, the connection plate 133 is provided on both ends of the support plate 131 seated on the upper end of the wall frame 120 In addition, a lower end of each connection plate 133 is formed with a connector 135 forming a engaging connection with the first horizontal reinforcing bar 121.

On the other hand, the slab frame portion 140 is a component that is installed to have a resistance to the external force acting on the upper slab (2).

At this time, the slab frame portion 140 is composed of a plurality of second horizontal reinforcement 141 and a plurality of second vertical reinforcement 143 is arranged to surround the leaf spring member 130.

On the other hand, the concrete 150 is placed on the wall frame 120 and the slab frame 140 so that they have the shape of the wall (1) and the upper slab (2) and at the same time the wall (1) and the upper slab To withstand the stress acting on (2).

On the other hand, the face wall 160 is a constituent means for dispersing the moment acting on the right corner of the ramen bridge 100 of the present invention.

In this case, the face wall 160 is installed between the two sides of the wall (1) and the upper slab (2), one side of which is in surface contact from the bottom end to the top of the outer side of the wall 120, the upper portion of the upper It is in surface contact with the bottom edge of the slab 2.

In addition, the face wall 160 is installed between the wall (1) and the upper slab (2) through concrete pouring and curing to be integrated with them.

Next, the construction method of the ramen bridge 100 having a solid installation structure of the present invention made of the above configuration will be described in detail with reference to the drawings.

Figures 4a to 4f is a process diagram showing the construction process of the surface wall type ramen bridge having a solid installation structure according to a preferred embodiment of the present invention.

4a to 4f, in order to construct the surface wall type ramen bridge 100 having a solid installation structure of the present invention, first, by placing and curing concrete on the ground of the section where the ramen bridge 100 is installed, the foundation block ( 110). (S10)

Thereafter, the wall frame unit 120 is installed on the upper portion of the base block 110 through the reinforcement work using the plurality of first horizontal rebars 121 and the plurality of vertical rebars 123.

At this time, the plurality of first vertical reinforcement 123 is buried in the bottom of the base block 110 to form a vertical, the horizontal reinforcement 121 is positioned to surround the outer surface of the first vertical reinforcement (123) After connecting to the first vertical rebar 123 through a wire.

Thereafter, the plate spring member 130 is positioned between the first horizontal reinforcement 121 located at the top of the wall frame 120 and the first horizontal reinforcement 121 located at the top of the adjacent wall frame 120. Afterwards, the plate spring member 130 is connected to the first horizontal rebar 121 through the connector 135 formed at the plate spring member 130. (S30)

At this time, the connecting plate 133 provided in the leaf spring member 130 is seated on the upper end of the wall frame portion 120, the first horizontal reinforcement forming the wall frame portion 120 inside the connector 135 The first horizontal reinforcing bars 121 located at the uppermost end of the 121 are inserted into and connected to each other. In this process, the leaf spring member 130 acts as an elastic force to be opened so that the first horizontal reinforcing bars 121 and the connector ( 135) has a stronger connection structure.

In addition, by improving the resistance to the load acting on the ramen bridge 100 through the leaf spring member 130 so that the ramen bridge can achieve a stable structure after construction.

Subsequently, the slab framework 140 surrounding the leaf spring member 130 is installed through the reinforcement work using the plurality of second horizontal rebars 141 and the plurality of second vertical rebars 143.

Thereafter, concrete is poured into the wall frame part 120 and the slab frame part 140 to form the wall 1 and the upper slab 2 (S50).

Thereafter, concrete is poured between the two sides of the wall 1 and the upper slab 2 to install a face wall. (S60)

At this time, the face wall 160 is located between the two sides of the wall (1) and the upper slab (2) to distribute the moment acting intensively to the right corner portion of the ramen bridge (100).

Accordingly, the ramen bridge of the present invention increases the resistance to the load acting on it, and at the same time to distribute the moment concentrated on the right angle portion to make the ramen bridge more stable structure.

1: wall 2: upper slab
110: basic block 120: wall frame
121: first horizontal rebar 123: first vertical rebar
130: leaf spring member 131: support plate
133: connecting plate 135: connector
140: slab frame part 141: second horizontal rebar
143: second vertical rebar 150: concrete
160: face wall

Claims (2)

A plurality of basic blocks (110) installed on the ground; A wall frame part 120 formed through the reinforcement of the plurality of first horizontal reinforcing bars 121 and the plurality of first vertical reinforcing bars 123 on the upper portions of the respective basic blocks 110; A leaf spring member 130 in which a plurality of connection parts are installed between the wall frame part 120 and the wall frame part 120; A slab frame portion 140 including a plurality of second horizontal rebars 141 and a plurality of second vertical rebars 143 arranged to surround the leaf spring member 130; Concrete 150 that is placed on the wall frame portion 120 and the slab frame portion 140 to form the wall 1 and the upper slab 2 and between two sides of the wall 1 and the upper slab 2. In the face wall type ramen bridge comprising a face wall 160 is installed;
The plate spring member 130 has a support plate 131 having a half arc shape curved upwards inward, and is connected to the upper end of the wall frame 120 at both ends of the support plate 131 ( 133 is provided, the lower surface of each connection plate 133 has a wall wall type ramen bridge having a solid installation structure, characterized in that the connector 135 forming a locking connection with the first horizontal reinforcing bar 121 is formed. delete

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