JP2018066227A - Method of decomposition of elevated concrete structure and method of decomposition of wall balustrade concrete - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce lane regulation as possible to make it possible to decompose wall balustrade concrete.SOLUTION: A crane truck 11 for cutting wall balustrade concrete in which an elevated work stage 16 provided with a waterless wire saw 21 and a dust collector 22 mounted thereon is provided on the tip end of a multistage telescopic boom 14 is arranged on the ground below a bridge 1. Next, the multistage telescopic boom 14 is extended to bring the elevated work stage 16 closer to the outside of a wall balustrade concrete 3 and fix it thereto. Then, the wall balustrade concrete 3 is cut horizontally and vertically along a floor slab 2 by the waterless wire saw 21 mounted to the elevated work stage 16, and dust generated by the cutting is collected by a dust collector 22 mounted to the elevated work stage 16. Furthermore, the wall balustrade concrete 3 cut from the floor slab 2 by the waterless wire saw 21 is pulled up and recovered by a crane truck arranged on the ground below the bridge 1 other than the crane truck 11 for cutting wall balustrade concrete.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a method for demolishing a high-rise concrete structure and a method for demolishing a wall railing concrete.

In patent document 1, the construction method of a wall rail which can be constructed simply and easily, and a self-propelled scaffold vehicle used for the construction method are proposed.
This means that a self-propelled scaffolding vehicle equipped with a telescopic arm, tiltable and swivel arm, and a gondola scaffolding attached to the tip of the armature can be seen on the elevated road where construction is performed, and the gondola scaffolding projects from the side edge of the elevated road. Deploy in a state that has been completed. Then, an operator rides on a gondola scaffold, and if necessary, runs a self-propelled scaffold vehicle to construct a wall rail for an elevated road.

JP-A-8-608553

However, it is necessary to replace bridge deck and wall railing concrete due to damages caused by large-sized and aged deterioration of passing vehicles.
At that time, a special self-propelled scaffolding vehicle equipped with an arm capable of expansion, contraction, tilting and turning, and a gondola scaffolding attached to the tip thereof is used for dismantling the wall railing concrete, for example. Will be costly.
In addition, it is not preferable that a special self-propelled scaffolding vehicle such as Patent Document 1 occupies the traveling lane, and it is desirable to dismantle the wall railing with as few lane restrictions as possible.

An object of the present invention is to enable the dismantling of wall railing concrete with the lane restrictions being reduced as much as possible.
Another object of the present invention is to enable dismantling of high-rise concrete structures such as tower structures.

In order to solve the above problems, the invention described in claim 1
A method for dismantling a high-altitude concrete structure using a crane vehicle for cutting a high-altitude concrete structure, in which an aerial work stage equipped with an anhydrous wire saw and a dust collector is provided at the tip of a multistage telescopic boom,
The crane for cutting the concrete structure at high place is placed on the ground below the bridge,
Extending the multi-stage telescopic boom and fixing the high-altitude work stage close to the outside of the high-altitude concrete structure,
The high-rise concrete structure is horizontally cut and vertically cut by the anhydrous wire saw mounted on the high-altitude work stage, and dust generated by the cutting is removed by the dust collector mounted on the high-altitude work stage. It is characterized by collecting dust.

The invention according to claim 2
A method of dismantling the wall railing of a bridge using a crane rail for cutting a wall railing concrete equipped with an anhydrous wire saw and a dust collector on the tip of a multistage telescopic boom,
Place the wall railing concrete crane truck on the ground below the bridge,
Extending the multi-stage telescopic boom and fixing the work place at a height close to the outside of the wall railing concrete,
The wall railing is horizontally cut and vertically cut along the floor slab with the anhydrous wire saw mounted on the aerial work stage, and the dust generated by the cutting is mounted on the aerial work stage. It is characterized by collecting dust with a dust device.

The invention according to claim 3
A method for disassembling wall railing concrete according to claim 2,
The wall railing concrete to be cut from the floor slab by the anhydrous wire saw is collected by being lifted by a crane vehicle disposed on the ground below the bridge separately from the crane rail for cutting the wall railing concrete. .

The invention according to claim 4
A method for dismantling the wall railing concrete according to claim 2 or 3,
The high-altitude work stage is covered with a soundproof / dustproof cover.

According to the present invention, it is possible to dismantle the wall railing concrete with lane restrictions as much as possible.
In addition, a high-rise concrete structure such as a tower structure can be dismantled.

It is the schematic which shows the structure of one Embodiment to which the dismantling method of wall railing concrete of this invention is applied. FIG. 2A is a side view of a bridge and an aerial work stage portion in FIG. 1, and FIG. 2A is a diagram showing horizontal cutting of wall railing concrete, and FIG. It is the top view of the bridge of FIG. 1 and an aerial work stage part, (a) which showed horizontal cutting of wall railing concrete, and (b) which showed vertical cutting similarly.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings.
(Overview)
There is a general road directly under the city expressway, and the roadside zone of the general road is regulated. An anhydrous wire saw and a dust collector are installed on the work place integrated with the crane truck. By carrying out concrete demolition work, the lane regulation width on the expressway can be reduced.
Furthermore, by using an anhydrous wire saw and a powerful dust collector mounted on a work place at a high place, the processing of cutting powder can be performed easily.
In addition, work scaffolds on the underside of the bridge girder are not required, and work efficiency can be improved.

(Embodiment)
1 to 3 show a schematic configuration of an embodiment to which the method for dismantling wall railing of the present invention is applied. 1 is a bridge, 2 is a floor slab, 3 is wall railing concrete, 4 is an entry prevention member, 5 is a fall prevention member, 11 is a crane car for cutting a wall railing, 12 is an outrigger, 13 is a swivel base, 14 is a multistage telescopic boom, 15 is a horizontal swivel member, 16 is an aerial work stage, 17 is a protective fence, 18 is a soundproof / dustproof cover, 19 is a wire saw protection net, 21 is an anhydrous wire saw, 22 is a dust collector, 31 is a truck, 32 is a generator, and 33 is a power wiring cord.

As shown in the drawing, wall railing concrete 3 is provided along both end portions on the floor slab 2 of the bridge 1, and a wall railing concrete cutting crane 11 is disposed on the ground below the bridge 1.
The crane 11 for cutting a wall railing concrete is provided with outriggers 12 at the four corners of the vehicle body, and a multistage telescopic boom 14 is provided on a swivel base 13 that can be horizontally swung on the vehicle body, and at the tip of the multistage telescopic boom 14. A horizontal revolving member 15 capable of a horizontal revolving operation is provided, and a high-altitude work stage 16 is provided on the horizontal revolving member 15.

Here, the crane 11 for cutting the wall railing concrete uses the crane apparatus with an aerial work platform of Japanese Patent No. 2647975.
The crane device with an aerial work platform of Japanese Patent No. 2647975 includes an equilibration device that allows the aerial work platform to be adjusted to a substantially horizontal posture while being provided with a high work platform connected to the boom tip of the crane. To detect the contact from above and around the swiveling device that enables the aerial work platform to swivel, the automatic balance control device that automatically adjusts the almost horizontal posture of the aerial work platform by driving the balancing device A contact detection frame, and a notification device for informing and warning of the limit state and the contact detection state by detecting the attitude of the work platform at a high altitude and the limit state of turning and the contact state of the contact detection frame. It is a configuration.
The aerial work platform corresponds to the aerial work stage 16 of the embodiment.

  The above-described high-altitude work stage 16 is equipped with an anhydrous wire saw 21 and three powerful dust collectors 22 arranged in the illustrated example, and is provided with a protective fence 17 around the four sides, A soundproof / dustproof cover 18 that covers the entire periphery is provided, and a wire saw-specific protective net 19 is provided.

And the crane rail 11 for a wall railing concrete cut | disconnects the outrigger 12 of the vehicle body four corners, and is being fixed to the ground horizontally.
Further, a truck 31 is arranged so as to be adjacent to the wall railing concrete cutting crane 11, and a generator 32 is mounted on the truck 31. An electric power wiring cord 33 is led out from the generator 32, and the electric power wiring cord 33 is wired along the multistage telescopic boom 14 of the crane rail 11 for cutting the wall railing concrete so The wire saw 21 and the dust collector 22 are electrically connected.
In addition, the normal crane vehicle which is not shown in figure is arrange | positioned in the vicinity of the crane rail 11 for wall railing concrete cutting. This crane vehicle is used for lifting and collecting wall railing concrete 3 cut from the floor slab 2.

  In the dismantling work of the wall railing 3 for the replacement work of the floor slab 2 and the wall railing 3 of the bridge 1, as shown in the figure, the entry prevention member 4 is placed along the roadside belt on the floor slab 2. While being arranged in the order of 3 to 1,500 mm, the fall prevention member 5 is attached along the inside of the wall railing concrete 3 to be demolished.

Then, the swivel 13 of the wall railing concrete cutting crane vehicle 11 is swiveled and the multistage telescopic boom 14 is extended so as to be close to the outside of the wall railing concrete 3 for dismantling the high place work stage 16 on which the worker has entered. Hold it in place.
Thereafter, the worker cuts and dismantles the wall railing concrete 3 with the anhydrous wire saw 21 on the high-altitude work stage 16.

2 (a) and 3 (a) show the horizontal cutting of the wall railing concrete 3. As shown in the drawing, the wall railing concrete 3 is horizontally cut along the floor slab 2 with an anhydrous wire saw 21. FIG. The dust generated by the cutting is collected by three powerful dust collectors 22 arranged side by side.
At this time, the wall balustrade concrete 3 cut | disconnected from the floor slab 2 is hold | maintained in the state which can be lifted with a wire with the crane vehicle which is previously arrange | positioned on the ground.

2 (b) and 3 (b) show the vertical cutting of the wall railing concrete 3, and the wall railing concrete 3 is vertically cut along the floor slab 2 with an anhydrous wire saw 21 as shown in the figure. The dust generated by the cutting is collected by three powerful dust collectors.
The horizontal cutting and vertical cutting operations of the above-mentioned wall railing concrete 3 are performed in the soundproof / dustproof cover 18 and the wire saw dedicated protection net 19 on the high-altitude work stage 16, so that the outside of the high-altitude work stage 16 is soundproofed.・ Dust-proof state is maintained.

  In this way, the wall railing concrete 3 that is horizontally cut and vertically cut from the floor slab 2 is lifted by a crane truck and collected.

As described above, according to the dismantling method of the wall railing concrete 3 of the embodiment, the high-altitude work stage 16 on which the anhydrous wire saw 21 and the dust collector 22 are mounted on the ground below the bridge 1 is at the tip of the multistage telescopic boom 14. An aisle mounted on an aerial work stage 16 is installed, and a crane car 11 for cutting a wall balustrade provided is extended and a multistage telescopic boom 14 is extended to fix an aerial work stage 16 close to the outside of the wall balustrade concrete 3. The wall railing concrete 3 is horizontally cut and vertically cut along the floor slab 2 by the type wire saw 21, and the dust generated by the cutting is collected by the dust collector 22 mounted on the work place 16 at the high place.
Therefore, it is only necessary to arrange the entry prevention member 4 on the roadside belt on the floor slab 2 and to install the fall prevention member 5 along the inside of the wall railing concrete 3 to be dismantled. Concrete 3 can be dismantled.

  Further, since no work scaffold is required on the lower surface of the bridge girder, work efficiency can be improved.

(Modification)
In the above embodiment, the object is a highway, but the present invention is not limited to this, and may be a bridge such as a general road having wall railing concrete.
In the embodiment, the method for dismantling the wall railing concrete is used. However, the present invention also includes a method for dismantling a high-rise concrete structure such as a tower structure. In that case, a crane truck for cutting a concrete structure at a high location similar to a crane car for cutting a wall railing concrete is used.
Furthermore, it is needless to say that the specific detailed structure of the high-altitude work stage can be changed as appropriate.

DESCRIPTION OF SYMBOLS 1 Bridge 2 Floor slab 3 Wall railing concrete 4 Intrusion prevention member 5 Fall prevention member 11 Crane vehicle 12 for wall railing concrete cutting Outrigger 13 Pivoting stand 14 Multistage telescopic boom 15 Horizontal turning member 16 Work place in high place 17 Guard fence 18 Soundproofing Dust cover 19 Protective net for wire saw 21 Anhydrous wire saw 22 Dust collector 31 Truck 32 Generator 33 Power wiring cord

In order to solve the above problems, the invention described in claim 1
A method for dismantling a high-altitude concrete structure using a crane vehicle for cutting a high-altitude concrete structure, in which an aerial work stage equipped with an anhydrous wire saw and a dust collector is provided at the tip of a multistage telescopic boom,
The altitude concrete structure cutting cranes placed on the ground of the high place concrete structure below,
Extending the multi-stage telescopic boom and fixing the high-altitude work stage close to the outside of the high-altitude concrete structure,
The high-rise concrete structure is horizontally cut and vertically cut by the anhydrous wire saw mounted on the high-altitude work stage, and dust generated by the cutting is removed by the dust collector mounted on the high-altitude work stage. It is characterized by collecting dust.

Claims (4)

A method for dismantling a high-altitude concrete structure using a crane vehicle for cutting a high-altitude concrete structure, in which an aerial work stage equipped with an anhydrous wire saw and a dust collector is provided at the tip of a multistage telescopic boom,
The crane for cutting the concrete structure at high place is placed on the ground below the bridge,
Extending the multi-stage telescopic boom and fixing the high-altitude work stage close to the outside of the high-altitude concrete structure,
The high-rise concrete structure is horizontally cut and vertically cut by the anhydrous wire saw mounted on the high-altitude work stage, and dust generated by the cutting is removed by the dust collector mounted on the high-altitude work stage. A method for dismantling a high-rise concrete structure characterized by collecting dust. A method of dismantling the wall railing of a bridge using a crane rail for cutting a wall railing concrete equipped with an anhydrous wire saw and a dust collector on the tip of a multistage telescopic boom,
Place the wall railing concrete crane truck on the ground below the bridge,
Extending the multi-stage telescopic boom and fixing the work place at a height close to the outside of the wall railing concrete,
The wall railing is horizontally cut and vertically cut along the floor slab with the anhydrous wire saw mounted on the aerial work stage, and the dust generated by the cutting is mounted on the aerial work stage. A method for dismantling wall railing, wherein dust is collected by a dust device.   The wall railing concrete to be cut from the floor slab by the anhydrous wire saw is collected by being lifted by a crane vehicle disposed on the ground below the bridge separately from the crane rail for cutting the wall railing concrete. The method for dismantling the wall railing concrete according to claim 2.   The method for disassembling wall railing according to claim 2 or 3, wherein the periphery of the work place at high place is covered with a soundproof / dustproof cover.

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