KR101153779B1 - Device for bridge dismantle using the strand jack and its methode - Google Patents

Abstract

PURPOSE: A bridge dismantling apparatus using a strand jack and a construction method thereof are provided to reduce construction time by easily lifting up a deck and moving the lifted deck to land using a strand jack. CONSTITUTION: A bridge dismantling apparatus(100) using a strand jack comprises a barge(110), multiple lift towers(120), jack bases(130), lift frames(140), and lifting units(150). The lift towers are installed on the barge at uniform intervals. The jack bases connect the lift towers. The lift frames are placed on the top of the barge to be vertical to the jack bases. The lifting units are installed on the jack bases and lift up the lift frames to lift up a deck of a bridge.

Description

Device for bridge dismantle using the strand jack and its methode}

The present invention relates to a structure for dismantling a bridge installed across a river and a method thereof, and more particularly, after lifting a top plate of a bridge installed in a deep river using a strand jack installed in a barge lift tower. The present invention relates to a bridge dismantling apparatus using a strand jack and a method of dismantling the top plate of a bridge by moving it to a land storage station along a rolling line.

In general, a bridge is an elevated roadway bridge that is installed in a city center when opening a road, but it is recognized as a civil structure such as a bridge that crosses a river or a bridge that runs across a deep mountainous terrain. The bridge consists of a substructure consisting of alternating and pier and an upper structure of the upper plate constructed over the upper portion of the upper structure, wherein the upper structure of the upper plate is expanded or contracted according to the stretching stress and the contracting stress applied to the upper structure after construction. Install and install to enable operation.

As described above, the bridges are damaged due to natural factors such as natural disasters or loads or vibrations caused by traffic during the passage of time after construction, resulting in damage to the upper structures such as the top plate and the lower structures of the bridges and bridges. In the event of impossibility of traffic, the existing decks, bridges and shifts of bridges were replaced, newly established or repaired according to the degree of damage, so that vehicles and pedestrians could use them.

In order to dismantle the bridge, in order to provide a working space of the dismantling equipment for dismantling the upper structure, a method of performing demolition work by inserting demolition equipment by installing a highway or bridge on the side of the bridge is applied.

However, in the case where the bridge crosses the stream as described above, there was a problem that the construction period and construction cost for installing highways and bridges in the deep rivers were excessively input, and the streams were contaminated by the occurrence of turbidity caused by the soil. There was a problem of polluting the environment.

In addition, there is a problem in that the construction cost for installing the temporary installation increases as the installation of the temporary installation, such as the prevention of falling objects in the lower portion of the bridge, there was a problem that can not guarantee the safety of the worker according to the height.

In view of the above-described conventional defects, the object of the present invention is to install a temporary facility such as preventing falling objects in the lower part of the bridge without installing the roadway and bridge for dismantling the bridge on the side of the existing bridge. Not to provide a bridge dismantling device using a strand jack and its construction method that can reduce the construction cost.

In addition, another object of the present invention, while lifting the lift frame to the strand jack in the lift tower installed on the barge to easily lift the top plate of the bridge to move to the loading station of the land along the Mooring line to dismantle the top plate of the bridge, The purpose of the present invention is to provide a bridge dismantling device using the strand jack and its construction method, which can shorten the construction period by improving the work efficiency while improving the safety of the system.

Bridge dismantling apparatus using the strand jack of the present invention,

Barge;

A plurality of lift towers facing the barge to accommodate the width of the top plate of the bridge and spaced apart at regular intervals in the longitudinal direction of the bridge top plate;

A jack base connecting the lift tower;

A lift frame seated on a barge upper surface in a line perpendicular to the jack base;

It is characterized in that it is configured to include a lifting portion mounted to the jack base to lift the lift frame to lift the upper plate of the bridge.

According to the present invention, without installing the provisions such as fall prevention at the bottom of the bridge without installing roads and bridges for dismantling bridges on the side of the existing bridges, the construction cost can be reduced to improve the economic efficiency You can have

In addition, according to the present invention, while lifting the lift frame to the strand jack in the lift tower installed on the barge, the upper plate of the bridge is easily lifted and moved to the land storage area along the Mooring line to dismantle the top plate of the bridge, safety of the workers It is possible to have the advantage of shortening the construction period by improving the work efficiency while promoting.

1 is a perspective view of the present invention
2 to 12 is an operating state diagram of the present invention

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of the present invention.

In the bridge dismantling apparatus 100 using the strand jack of the present invention, a barge 110 is configured, and the barge 110 is opposed to the barge 110 so as to accommodate the width of the top plate 10 of the bridge in the longitudinal direction of the bridge top plate 10. A plurality of lift towers 120 are installed to be spaced apart at regular intervals, the jack base 130 connecting the lift tower 120 is configured, the barge 110 in a vertical line with the jack base 130. Lift frame 140 is mounted on the upper surface, the lifting portion is mounted to the jack base 130 to lift the lift frame 140 to lift the lift frame 140 to lift the top plate 10 of the bridge ( 150), which will be described in more detail as follows.

A space 141 in which the strand wire 152 of the lifting part 150 is mounted is formed in the lift frame 140 to face each other.

The lifting part 150 is provided with a strand jack 151 mounted on the jack base 130, and is pulled by the operation of the strand jack 151, and an end portion of the lift jack 140 is space 141. Strand wire 152 is provided to protrude, and is provided with a fixing fixture 153 is fixed to the end of the strand wire 152 by a wedge (not shown) in close contact with the bottom surface of the lift frame 140.

It further includes a wire guide member 154 fixed to the jack base 130 to guide the strand wire 152 drawn out to the strand jack 151 to be discharged to the outside of the lift tower 120.

Next will be described the process of dismantling the top plate of the bridge using the present invention configured as described above.

First, the bridge dismantling apparatus 100 of the present invention should have strength, tension, and shear force that can be moved while guiding and supporting the rising and falling of the upper plate 10 of the bridge.

After the bridge dismantling device 100 is seated on the barge 110, the barge 110 is moved to move the bridge top plate 10 to be lowered, and the barge 110 is the top plate 10 of the bridge. Move to the ship, noting collision with the piers or wells supporting the bridge.

When the barge 110 is positioned below the bridge top plate 10 to be lifted, as shown in FIGS. 2 to 4, the tower frame may accommodate the width of the bridge top plate 10 in the barge 110. The lift towers 120 are formed by stacking the 121s, and the lift towers 120 are formed in plural numbers spaced apart from each other by a predetermined distance in the longitudinal direction of the bridge top plate 10.

Here, the upper end of the lift tower 120 is formed higher than the upper plate 10 of the bridge so that the lower end of the bridge top plate 10 to be lifted can prevent the upper end of the adjacent bridge top plate from hitting.

In addition, after fixing the jack base 130 to the upper end of the plurality of lift towers 120, after fixing the strand jack 151 of the lifting unit 150 on the upper surface of the jack base 130, the strand jack Couple one end of the strand wire 152 to 151.

The lift frame 140 is positioned in a vertical line with the jack base 130, and the other end of the strand wire 152 having one end coupled to the strand jack 151 is space 141 of the lift frame 140. Protruding into a fixing hole (not shown) of the fixing unit 153 in the state of protruding into a state, and after coupling the wedge (not shown) to the end of the strand wire 152 protruding into the fixing hole (not shown), the strand jack 151 By operating the strand wire 152 is pulled as the wedge (not shown) is coupled to the fixing hole (not shown) to prevent the strand wire 152 from falling out.

In the above-described method, the lifting parts 150 are respectively installed on the opposite jack bases 130.

When the lifting unit 150 is installed on the jack base 130 by the above process, as shown in FIGS. 5 to 6 under the control of a controller (not shown), the strand jack 151 is operated to operate the strand wire. At the same time as lifting the 152 is fixed to the other end of the strand wire 152 to raise the lift frame 140 in which the fixing unit 153 is in close contact.

After the upper surface of the lift frame 140 rising by the operation of the strand jack 151 is in close contact with the bottom surface of the bridge top plate 10, the strand jack 151 is adjusted to distribute the load evenly, and then the strand jack. 151 is activated.

The strand wire 152 is lifted by the operation of the strand jack 151 and the lift plate 140 is lifted by the lift of the strand wire 152 to lift the upper plate 10 of the bridge that is in close contact. The lower end of (10) shall be lifted higher than the upper end of the adjacent bridge deck.

Here, the strand wire 152 rising by the operation of the strand jack 151 is located outside the lift tower 120 in accordance with the guide of the wire guide member 154 fixed to the jack base 130, the bridge top plate ( It does not interfere with the lifting operation of 10).

When the lower end of the bridge top plate 10 is lifted higher than the upper end of the adjacent bridge top plate, as shown in FIGS. 7 to 8, the bridge top plate 10 lifted by moving the barge 110 is an adjacent bridge. Under the control of a controller (not shown) while moving to a position where no interference with the top plate is made, the lift frame 140 is lowered by the operation of the strand jack 151 to be shipped to the barge 110.

As shown in FIG. 9, the bridge top plate 10 shipped to the barge 110 is fixed to the rope 160 to prevent the bridge top plate 10 from falling when the barge 110 moves. The bridge top plate 10 is dismantled by moving the barge 110 loaded with the bridge top plate 10 fixed in the state in which the bridge top plate 10 is positioned in front of the mooring line 170.

The barge 110 is moved as shown in FIG. 10 so that both sides of the bridge top plate 10 in which the rope 160 is dismantled enter the MOORING LINE 170, and the mooring line 170. When the barge 110 is higher than the barge 110, when the upper plate 10 of the bridge enters the mooring line 170 by the operation of the strand jack 151 under the control of a controller (not shown), the barge is lifted to a height considering the interference, and then the barge When the 110 moves and the upper plate 10 of the bridge is located on the upper portion of the mooring line 170, the upper plate 10 of the bridge descends by the operation of the strand jack 151 under the control of a controller (not shown). The mooring line 170 may be seated on the installed moving member 171.

At this time, when the upper plate 10 of the bridge is seated on the moving member 171 of the mooring line 170, as shown in Figure 11, the barge dismantling device in the bow direction to move the barge 110 is dismantled state As shown in FIG. 12, by pulling the moving member 171 to a separate heavy equipment, the top plate 10 of the bridge is moved to the mooring line 170, the bridge is located on the land of the storage, the bridge top plate located in the storage (10) can be easily dismantled on land, it is possible to dismantle the plurality of bridge top plate 10 installed in the bridge by repeating the process.

As described above, the present invention, although described by the limited embodiments and drawings, terms or words used in the present specification and claims are not limited to the ordinary or dictionary meanings and should not be interpreted, the technical spirit of the present invention It must be interpreted to mean meanings and concepts. Therefore, the configuration shown in the embodiments and drawings described herein are only one embodiment of the present invention, and do not represent all of the technical spirit of the present invention, various changes within the scope of the claims of the present invention It should be understood that there may be equivalents and variations.

100: bridge dismantling device 110: barge
120: lift tower 130: jack base
140: lift frame 150: lifting part
151: strand jack 152: strand wire
153: anchorage

Claims (9)

Barge;
A plurality of lift towers which are arranged to be spaced apart at regular intervals in the longitudinal direction of the bridge deck while facing the barge to accommodate the width of the bridge deck;
A jack base connecting the lift tower;
A lift frame seated on a barge upper surface in a vertical line with the jack base, and having a space in which a strand wire of a lifting part is mounted to face the jack base;
A strand jack is mounted on the jack base and mounted on the jack base to lift the lift frame while the lift frame lifts the bridge deck, and is pulled by the actuation of the strand jack, the end protruding into the space of the lift frame. Is provided with a strand wire is fixed to the end of the strand wire is fixed to the jack base to be guided to the wedge fixed to the bottom of the lift frame, the strand wire drawn out to the strand jack is discharged to the outside of the lift tower Bridge dismantling device using a strand jack, characterized in that it comprises a lifting portion provided with a wire guide member.
delete delete delete Mounting a bridge dismantling device according to claim 1 on a barge and moving the barge to a lower portion of the bridge top plate to be lifted;
Installing a plurality of tower frames spaced apart from each other at a predetermined interval so as to stack a plurality of tower frames on a barge to accommodate the width of the bridge deck;
Connecting and fixing a jack base to an upper end of the lift tower;
Fixing a strand jack to an upper surface of the jack base;
Fixing a wire guide member to the jack base to guide the strand wire rising by the operation of the strand jack;
Positioning the lift frame perpendicular to the jack base;
Projecting the other end of the strand wire having one end coupled to the strand jack into the space of the lift frame, and then fixing it with a fixture using a wedge;
Lifting the upper plate of the bridge while the lift frame is lifted by the strand jack to be in close contact with the bottom surface of the bridge top plate;
When the top plate of the bridge is lifted, after moving the barge, the lift frame is lowered by the operation of the strand jack so that the top plate of the bridge is shipped on the top of the barge;
Moving the barge on which the bridge top plate is shipped so that both sides of the bridge top plate enter a MOORING LINE;
According to the height of the mooring line, the upper plate of the bridge is lifted to be positioned higher than the mooring line by the operation of the strand jack, and when the upper plate of the bridge is located above the mooring line, the upper plate of the bridge is lowered by the operation of the strand jack to the mooring line To be seated on the top of the bridge;
When the bridge top plate enters the mooring line, disconnecting the jack base, dismantling the strand jack and the lift tower in the heading direction, and moving the top plate of the bridge to the land storage area through the mooring line;
Bridge dismantling method using a strand jack, characterized in that comprising the step of dismantling the top plate of the bridge moved to the volume field.
delete The method according to claim 5,
Bridge dismantling method using a strand jack, characterized in that further comprising the step of fixing the top plate of the bridge shipped on the barge with a rope.
The method according to claim 5,
The bridge dismantling method using a strand jack, characterized in that further comprising the step of dismantling the fixed rope when the top plate of the bridge enters the mooring line.
delete

Images