JPH06272401A - Construction method for horizontally cutting and demolishing underwater columnar reinforced concrete structure - Google Patents

Abstract

PURPOSE:To horizontally cut an underwater columnar reinforced concrete structure for demolition with the reinforcement inside thereof safely at a remarkably high cutting speed with the excellent workability without exerting the adverse effect such as vibration and noise on the external environment regardless of the cutting cross sectional area and a depth of the cutting position. CONSTITUTION:A cutting cable 17, which is obtained by giving the cutting ability to a wire rope, is wrapped around of an underwater part of an underwater columnar reinforced concrete structure 1, and made to cut into the underwater reinforced concrete structure 1 by a cable driving device 10 provided on the ground through a vertical and horizontal guide pulley base 2 provided with a horizontal pair of guide pulleys 3, 3 provided in the underwater columnar reinforced concrete structure and a vertical pair of guide pulleys 4, 4 adjacent to the pulleys 3, 3. Wedge-like spacers are placed in order into cutting spaces generated with the cutting, and the cutting cable 17 is made to travel under the condition that the traveling speed and the tension thereof are controlled. The underwater columnar reinforced concrete structure 1 is thereby cut horizontally for demolition.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a horizontal cutting and demolishing method for a bridge pier or other columnar reinforced concrete structure (hereinafter simply referred to as an underwater columnar reinforced concrete structure) partially or wholly immersed in water.

[0002]

2. Description of the Related Art Conventional methods for dismantling reinforced concrete structures include, on the ground, a method of destroying explosives or chemicals by utilizing the expansion pressure or gas pressure, steel balls,
A method of crushing with a vibration hammer, hydraulic pressure, etc., and a method of cutting and disassembling with a disc blade or water jet are known. Furthermore, a wire sawing method for cutting out stone materials is also known.

Further, when dismantling an underwater reinforced concrete structure, conventionally, an operator soaks his body in water,
Furthermore, the method of operating a compressed air type breaker while diving or crushing from the ground with an impact type crusher is used.

[0004]

However, in dismantling the above-mentioned underwater reinforced concrete structure, the dismantling method utilizing the expansion pressure and gas pressure of explosives etc., which is performed on the ground, completely destroys and dismantles the target structure. However, it was extremely difficult to control the expansion pressure and gas pressure in water, and therefore, it was not possible to use it for the partial decomposition product of the structure, especially for the partial decomposition product at the exact size or position. . In addition, these dismantling methods have a problem that the place of use and the use conditions are severely limited because the influence of the blast, vibration, impact noise, noise, etc. on the surrounding environment is great. Also, the method of crushing with steel balls, vibration hammers, hydraulic pressure, etc., and the method of cutting and dismantling with disk blades and water jets are suitable for cutting and dismantling rebar concrete structures on the ground, but in water. The application of was technically incomplete.

Further, the wire sawing method for cutting out stone materials is capable of performing only vertical and horizontal cutting with a cutting drive installed and its horizontal position, and horizontal underwater cutting with a height difference from underwater to the ground is possible. There wasn't.

On the other hand, it is not efficient for a diver to wear a diving equipment, walk on the bottom of the water or use a pneumatic breaker while swimming in the water, and operate it by hand, resulting in poor work efficiency and for a long time. There is a problem that diving work is extremely dangerous. In addition, the transparency is poor due to pollution of seawater in ports and rivers around the city, and it is the actual situation that the work is done with the intuition of a diver. Further, the work efficiency becomes poor in proportion to the working water depth, and it is extremely dangerous to work for a long time especially in water exceeding a water depth of 10 m, which is a heavy physical and mental burden on the worker, and the construction period is prolonged. It was Further, the breaker has a problem that it is inferior in crushing ability because it is small in size and light in weight for convenience in handling and handling.

Therefore, the object of the present invention is to provide an underwater reinforced concrete structure, including internal reinforcing bars, without being restricted by the cutting cross-sectional area or the depth of the cutting position, at a very high cutting speed, with good workability and safety. Moreover, it is another object of the present invention to provide a construction method capable of horizontally cutting and dismantling in a state in which adverse effects such as vibration and noise are hardly exerted on the external environment.

[0008]

The horizontal cutting and dismantling method of an underwater columnar reinforced concrete structure according to the present invention is a method of winding a cutting cable, which is a wire rope having a cutting ability, around the underwater portion of the underwater columnar reinforced concrete structure. To the underwater reinforced concrete structure by a cable drive device installed on the ground via a vertical and horizontal guide pulley stand equipped with a pair of horizontal guide pulleys installed in the underwater columnar reinforced concrete structure and a pair of vertical guide pulleys adjacent to them It is characterized by including a step of making a cut, successively driving a wedge-shaped spacer into a cutting gap generated as the cutting progresses, and causing the wedge-shaped spacer to travel while adjusting the traveling speed and tension.

In the above, the cutting cable adopts a known structure in which beads having a diamond abrasive grain layer are arranged on a wire rope at an appropriate pitch, with or without a spacer such as a coil spring interposed therebetween. be able to. Further, the cutting cable is provided by a cable drive device installed on the ground via a vertical and horizontal guide pulley base provided with a pair of horizontal guide pulleys and a pair of vertical guide pulleys adjacent to them. Make a cut into an underwater reinforced concrete structure.

The cable drive device has, for example, a structure provided with a cable drive pulley for running a wound cutting cable, a hydraulic motor for rotating the cable drive pulley, an electric motor or other prime mover, and other accessory mechanisms. It is possible to appropriately use a unit in which the drive pulleys and the like are integrally moved on the rail by the drive wheels, or a unit integrally moved on the rack by the drive pinion.

[0011]

In the above, the cable driving device is operated on the ground, and the cutting cable is provided with a pair of lateral guide pulleys installed in the underwater columnar reinforced concrete structure and a pair of longitudinal guide pulleys adjacent to the lateral guide pulleys. Precise horizontal cutting is possible by cutting into the underwater columnar reinforced concrete structure through the guide pulley stand. As a result, the underwater work of the diver is only required to install the guide pulley base and wind the cutting cable around the cutting position of the columnar reinforced concrete structure, and thereafter, the cutting cable is installed by the cable drive installed on the ground. And the cable drive device is retracted while applying tension at the same time. This allows
Accurate horizontal cutting proceeds by cutting a cutting cable into an underwater columnar reinforced concrete structure.

At that time, wedge-shaped spacers are successively driven into the cutting gaps generated as the cutting progresses, the cutting cable runs while being urged to the required tension, and horizontal cutting of the underwater portion of the underwater columnar reinforced concrete structure is performed. Done. The maintenance or adjustment of the tension of the cutting cable with the progress of cutting and disassembling can be performed, for example, by gradually moving the above cable drive pulley along with its accessories and the like rearward along rails, racks, and the like. Alternatively, the cable drive pulley may be fixed and another tension pulley may be gradually moved. Furthermore, it is also possible to mount the rack on a dolly and move the cable drive pulley and the like along the rack while moving the dolly along the rails.

The running speed and tension of the cutting cable are appropriately selected depending on the type of the object to be cut and other cutting conditions. Normally, the running speed is about 20 to 30 m / sec and the tension on the tension side is 50 to 50 m. It is about 100 kgf, and in water, the running speed of the cutting cable is 15 to 20 m / sec and the tension is 150 to 20 because the water resistance is proportional to the running speed.
Under these cutting conditions, the underwater columnar reinforced concrete structure is completely cut including the internal reinforcing bars.

According to the cutting comparative test example according to the present invention, the underwater crushing work by a conventional diver was carried out on the underwater portion of the underwater columnar reinforced concrete structure having a diameter of 180 cm in which the reinforcing bars having a diameter of 16 to 25 mm were arranged in a usual manner. If you do
The average crushing capacity of ^two divers is 0.10 m ³ per day, so the crushing capacity is 0.9 ² × 3.14 × 0.5 = 1.2.
It will be 7 m ³ . To cut and dismantle the above columnar reinforced concrete structure by crushing it in water, 1.27 ÷ 0.1
0 = 13 days, which means it takes about 13 days.

On the other hand, according to the horizontal cutting and dismantling method of the present invention, an area of 1 m ² can be cut in about 30 minutes, so a submerged columnar reinforced concrete structure having a diameter of 180 cm can be cut in about 45 minutes. it can. Moreover, in that case, there is no restriction on the cutting depth and the cutting cross-sectional area, and therefore, a marked difference in working efficiency between the two is recognized.

When cutting the above-water portion, cooling, lubrication,
Water is poured into the cutting point for cleaning or the like, but such cutting is not necessary when cutting the underwater portion because the cutting point is just in the water.

In such an underwater wire sawing, after the cutting cable is once arranged between the cutting point and the cable drive pulley, the cutting work including the internal reinforcing bars is performed until the cutting cable is completely cut. Since all are controlled remotely by the drive unit, there is no situation where a worker operates a disk blade type cutting machine or breaker in the state of being constantly in contact with or close to a cutting site in water or above water as in the past. It is different and easy to introduce automatic driving.

The cable driving device is installed on land or on a vehicle on the land, and the change in the load received by the cutting cable during traveling during cutting is, for example, the tension on the tension side being caused to rotate the cable driving pulley. It can be grasped quantitatively to some extent by detecting the strain in the axis in the direction perpendicular to it, which makes it easy to distinguish between cutting of concrete layers and cutting of reinforcing bars during cutting progress, for cutting, etc. It is possible to prevent breakage of the cable in advance.

On the other hand, in the cable drive device, a hydraulic control unit including at least a hydraulic pump for supplying hydraulic pressure may be installed outside the water. Further, the arrangement of the cutting cable between the cable driving pulley and the underwater columnar reinforced concrete structure is performed by using a vertical and horizontal guide pulley stand including a pair of horizontal guide pulleys and a pair of vertical guide pulleys adjacent to them. Since it can be easily bent at each bending point and can be done at any length by erection, the cutting cable can be passed through a narrow place in water or squeezed into a narrow space to reduce the resistance in the water. Obstacles can be easily bypassed and the underwater portion of underwater columnar reinforced concrete structures of all shapes and conditions can be easily horizontally cut at the required position and angle.

Further, since the wedge-shaped spacers are sequentially driven into the cutting gap generated as the cutting of the underwater columnar reinforced concrete structure progresses, the columnar columnar reinforced concrete structure at the upper part of the cutting is prevented from sinking, so that the cutting cable is broken. And its running is not hindered.

[0021]

EXAMPLES Next, the present invention will be explained based on examples. FIG. 1 is a front view of an essential part for explaining an example of a cutting and dismantling method for an underwater columnar reinforced concrete structure according to the present invention, and FIG. 2 is a plan view of an essential part for underwater cutting in the cutting and dismantling method.

First, in FIG. 1, a vertical columnar ferroconcrete structure 1 to be used for cutting and dismantling is built in water, and vertical and horizontal guide pulley bases 2 and anchors are provided in front of the underwater cutting structure. Is erected on the columnar ferroconcrete structure 1. The vertical and horizontal guide pulley bases 2 are a pair of horizontal guide pulleys 3 and 3.
And a pair of longitudinal guide pulleys 4, 4 adjacent to them
And are provided respectively.

Further, the columnar reinforced concrete structure 1
A vertical guide pulley stand 7 and a rail 8 are removably installed on the quay 6 in front of. The vertical guide pulley base 7 is provided with a pair of vertical guide pulleys 9, 9, and drive wheels 11 supporting a cable drive device 10 are fitted on rails 8. The cable drive device 10 includes a cable drive pulley 12, a tension side tension pulley 13 and a slack side tension pulley 14 adjacent to the cable drive pulley 12, a rotation drive mechanism (not shown) of the cable drive pulley 12, and a rotation of the drive wheel 11. A drive mechanism (not shown) is installed.

Columnar reinforced concrete construction 1 in water
As a procedure for horizontally cutting and dismantling, the cutting cable 17 is first wound around the columnar reinforced concrete structure 1, guided by the vertical and horizontal guide pulley bases 2 installed in the underwater columnar reinforced concrete structure 1, and further vertically on the quay 6. Guided by the guide pulley stand 7, the cable drive device 1
0 through the tension side tension pulley 13 and the slack side tension pulley 14 inside and the cable drive pulley 1
It is hung endlessly on 2.

The vertical / horizontal guide pulley stand 2 has a pair of horizontal guide pulleys 3, 3 for narrowing a cutting cable 17 wound around a columnar reinforced concrete structure 1 to a narrow space, and a pair of adjacent vertical guide pulleys 4, 4. 4 guides the water from above the water to the pair of vertical guide pulleys 9, 9 of the vertical guide pulley stand 7 on the quay 6. Further, the vertical guide pulley stand 7 guides the cutting cable 17 guided by the vertical and horizontal guide pulley stand 2 in water to the cable drive device 10 on the rail 8.

In the above structure, the cable driving device 10
When each of the cable drive pulley 12 and the rotation driving mechanism of the drive wheel 11 is operated, the cable drive pulley 12 moves rearward along the rail 8 while rotating, and the load received by the cutting cable during traveling while cutting is in progress. Change is detected by detecting the tension on the tension side by the strain in the direction perpendicular to the rotation axis of the cable drive pulley, so that the cutting cable 17 circulates endlessly with the required tension and the underwater columnar reinforced concrete structure 1 Be disconnected. In addition, since the wedge-shaped spacers are sequentially driven into the cutting gap generated as the cutting progresses, the columnar reinforced concrete structure 1 at the upper part of the cutting is prevented from sinking,
The breaking and running of the cutting cable 17 are not hindered.

After the columnar reinforced concrete structure 1 in water is completely cut as described above, a cutting cable 17 is provided on the upper portion of the columnar reinforced concrete structure 1 in the same manner as above.
And the cable for cutting 17 is run by the cable drive device 10 through the vertical and horizontal guide pulley bases installed on the upper part of the columnar reinforced concrete structure and the vertical guide pulley bases 7 on the quay 6, and the upper part of the columnar reinforced concrete structure 1 is cut. To do.

If necessary in the above cutting, known guide pulleys may be used in various places in order to arrange the cutting cable 17 more smoothly.

[0029]

INDUSTRIAL APPLICABILITY As described above, the horizontal cutting and demolition method for the underwater columnar reinforced concrete structure according to the present invention has the following effects. 1. The cutting work is shortened, and in particular, the human working time in water is short. That is, in the present invention, the guide pulley base is installed in an appropriate place in water, and the wedge-shaped spacer is sequentially driven into the cutting gap generated by the work of winding the cutting cable around the columnar reinforced concrete structure in water and the cutting work. The work is only performed underwater, and thereafter, only by driving the cutting cable with the driving device installed on the ground, the columnar reinforced concrete structure in water can be automatically cut and disassembled at high speed.

2. In the cutting and demolition method of the above-mentioned columnar reinforced concrete structure using the cable for cutting, heat is generated due to the large friction between the cable for cutting and the columnar reinforced concrete structure, so cooling water is required, and for lubrication, cleaning, etc. Although the water is injected into the cutting site, such a water injection is unnecessary and no need to use cooling water, as in the case of the present invention, the site for cutting the columnar reinforced concrete structure in water is just under water.

3. In the cutting and dismantling method using the cable for cutting the columnar reinforced concrete structure on the ground, when the cutting cable is cut, the long cutting cable splashes far, and the beads attached to the cable may scatter, When the columnar reinforced concrete structure in water of the present invention is cut, due to the great resistance of water, the above-mentioned troubles are eliminated and the work can be performed safely.

4. The columnar reinforced concrete structure is accurately cut into a predetermined shape, and due to the large resistance of water, fragments and the like do not scatter after cutting, and the work of removing the fragments is also unnecessary.

5. The cutting speed is high, the construction period can be greatly shortened, and no special skill is required for the work.

6. A large columnar reinforced concrete structure can be easily cut without any change from a small one and can be cut with a large block.When dismantling and removing after cutting, even a large block is light in the water due to buoyancy, so swim with a floating bag etc. Since it can be removed and transported in the state, it is optimal as a cutting and dismantling method for large underwater objects.

7. If the cut surface of the columnar reinforced concrete structure is horizontal and smooth, and if the opening is to be used after cutting, such as when forming a predetermined opening in the wall surface, after cutting, do not perform any finishing work as it is. Can be used.

8. Since the columnar reinforced concrete structure is cut and disassembled in water, vibration and noise are less likely to occur, and the method of the present invention can be adopted even in urban areas.

9. Since the cutting cable drive mechanism is installed on the ground, regardless of underwater cutting work, all the main mechanisms can be installed on the ground, and special consideration is given to the waterproofing of these electric and hydraulic devices. No need to
The cutting and dismantling work can be performed as easily as the work on the ground.

10. The underwater columnar reinforced concrete structure is provided with a pair of horizontal guide pulleys and a pair of vertical guide pulleys adjacent to the horizontal guide pulleys, and the vertical and horizontal guide pulley stands are installed to dispose the cutting cables. , It can be easily bent at each bending point and can be done at any length.In particular, pass the cutting cable through a narrow place in water or squeeze it at a narrow interval to reduce the resistance in the water. Obstacles can be easily bypassed and the underwater portion of underwater columnar reinforced concrete structures of all shapes and conditions can be easily horizontally cut at the required location. In particular, since a pair of lateral guide pulleys and vertical guide pulleys adjacent to the lateral guide pulleys are provided, it is possible to minimize the opening or twisting between the tension side and the slack side in the cutting cable, and to cut underwater. The running resistance of the cable can be minimized.

11. By sequentially driving the wedge-shaped spacers into the cutting gap that occurs with the progress of cutting of the columnar reinforced concrete structure in water, the settling of the columnar columnar reinforced concrete structure at the upper part of the cut is prevented, so the breakage of the cutting cable is prevented, The running can be promoted.

12. The fluctuation of the load received by the cutting cable during traveling while cutting is in progress does not cause the operator to continuously circulate under the required tension and constantly monitor the cutting state of the columnar reinforced concrete structure in water underwater.

[Brief description of drawings]

FIG. 1 is a front view of essential parts for explaining an example of a cutting and dismantling method of an underwater reinforcing bar concrete construct according to the present invention.

FIG. 2 is a plan view of an essential part at the time of cutting the upper part in the cutting and dismantling method.

[Explanation of symbols]

 1 Columnar rebar concrete construction 2 Vertical / horizontal guide pulley stand 3 Horizontal guide pulley 4 Vertical guide pulley 7 Vertical guide pulley stand 8 Rail 10 Cable drive device 11 Drive wheel 12 Cable drive pulley 17 Cutting cable

Claims (1)

[Claims] 1. A pair of lateral guide pulleys installed on the underwater columnar reinforced concrete structure, and a pair of adjacent lateral guide pulleys, which are wound around the underwater portion of the underwater columnar reinforced concrete structure, and in which a cutting cable formed by imparting cutting ability to a wire rope is wound around the underwater part. The vertical guide pulley and the vertical and horizontal guide pulleys respectively equipped with a cable drive installed on the ground to cut into the underwater columnar reinforced concrete structure, and wedge-shaped spacers in the cutting gap generated as the cutting progresses. A horizontal cutting and dismantling method for a submerged columnar reinforced concrete structure, which comprises a step of sequentially driving and traveling under the control of traveling speed and tension.