JP4651857B2 - Building demolition method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a building demolition method that can be applied when demolishing a building, particularly a high-rise building.
[0002]
[Prior art]
Usually, when a building is demolished, a method is adopted in which a scaffold is assembled around the building to be demolished to cover the entire building and then demolished sequentially from the upper floor.
However, especially when the building to be demolished is a high-rise building, a large amount of scaffolding material is required and the work position is high, so there is a demerit that it takes a lot of work and time for the work. It was.
In addition, consideration must be given so as not to cause pollution problems due to noise and dust scattering during building demolition work.
Therefore, a method of blocking and sealing the periphery of the demolition work floor can be considered, but conventionally, a roof is covered on the top floor itself of the building to be demolished, a demolition machine is attached to it, and soundproof and dustproof is attached to its end A method of hanging a shielding device has been proposed.
[0003]
[Problems to be solved by the invention]
The above-mentioned conventionally proposed construction method is to initially cover an open / close roof on the top floor of the building itself to be demolished, and attach a demolishing machine to the roof. In order to achieve this, heavy machinery such as large cranes are required, and the higher the demolished building, the more difficult and time-consuming it is to perform. Arise. Furthermore, since the floor surface to be worked is a floor to be demolished, the floor surface space to be worked becomes narrower as the demolishing work proceeds, and the workability becomes extremely poor. Therefore, it is conceivable to install a demolition machine on the lower floor next to the floor to be demolished to always secure a scaffolding necessary for the demolition work of the building.
[0004]
An object of the present invention is to provide a building demolition method that does not require a large heavy machine for the construction of a shield, and that a scaffold necessary for building demolition work is always secured and the demolition work can proceed smoothly. That is.
[0005]
[Means for Solving the Problems]
In order to solve the above problems, the building demolition method according to claim 1 is, for example, as shown in FIG. 1 (FIG. 8).
Guide struts 2 (102) are erected at predetermined intervals on the side periphery of the building a (c) to be demolished, and the shield 1 (101), which is guided by the guide struts 2 (102) and can slide up and down, At the height of the lower floor of the building a (c), it is assembled so as to surround the side circumference of the building a (c),
The shield 1 (101) has a storage space 1c (101c) for storing a dismantling machine (glass adsorption robot 8 (108), small lifting work platform 9 (109), cutting machine 10 (110), slab cutting machine 110a). Is provided close to the side periphery of the building a (c), and the demolition machine (glass adsorption robot 8 (108), small lifting platform 9 (109), cutting) is provided in the storage space 1c (101c). Machine 10 (110), slab cutting machine 110a),
The guide column 2a (102a) is lifted by a crane 3 (103) attached to the shield 1 (101) and connected to the upper end of the guide column 2 (102), whereby the guide column 2 (102 ) Are sequentially extended upwards, and the side wall of the top floor of the building a (c) is surrounded by the shield 1 (101) in which the extended guide columns 2 (102) are sequentially raised for guidance. ,
Next, the dismantling machine (glass adsorption robot 8 (108), small lifting platform 9 (109), cutting machine 10 (110), slab cutting machine 110a) is moved to the floor of the building a (c), and the dismantling is performed. A demolition step of demolishing the building a (c) by a machine (glass adsorption robot 8 (108), small lifting platform 9 (109), cutting machine 10 (110), slab cutting machine 110a);
After the dismantling process, the dismantling machine (glass adsorption robot 8 (108), small lifting platform 9 (109), cutting machine 10 (110), slab cutting machine 110a) is stored in the storage space 1c (101c). The shield 1 (101) is lowered to the next lower floor, the guide strut material 2a (102a) at the upper end of the guide strut 2 (102) is removed and suspended by the crane 3 (103), A lowering step for sequentially shortening the guide column 2 (102) downward;
Repeat a specified number of times
It is characterized by.
[0006]
According to the first aspect of the present invention, after assembling the shield at the height of the ground level or the lower floor of the building, the guide columns are sequentially raised to guide and surround the side periphery of the uppermost floor of the building. Therefore, it is possible to assemble the shielding body at the ground level or the height of the lower floor of the building, which has better working conditions than the height of the higher floor of the building, and the assembly work of the shielding body can be greatly simplified. Therefore, the shield is suitable to be configured with a member having a large strength, rigidity, sound insulation, and heat insulation that can withstand strong winds on a high floor of the building.
[0007]
In addition, the guide strut material is lifted with a crane attached to the shield and connected to the upper end of the guide strut, so that the guide strut is extended upwards in the same manner. Similarly, each floor of the building is dismantled sequentially. Every time the floor to be demolished moves down, the guide strut material at the upper end of the guide strut is removed and suspended by a crane, and the guide struts are shortened downward in order, so when constructing or dismantling the guide strut, It is sufficient to use a crane attached to the vehicle, and it is not necessary to prepare a crane for constructing or dismantling the guide column.
[0008]
In addition, each floor is demolished sequentially from the top floor to the lower floor of the building, and each time the floor to be demolished moves downward, the shield is lowered in order to enclose the side circumference of the floor to be demolished. The generated noise and dust can be prevented from leaking from the side of the demolished floor to the outside of the building demolition site.
[0009]
In addition, wind and rain are blocked by the shield that surrounds the side circumference of the floor to be demolished, and a good working environment can be ensured on the floor to be demolished. Therefore, the building demolition work is less affected by the weather, and the demolition work can proceed smoothly.
[0010]
Further, a demolition machine for demolition of the building is stored in a storage space provided in the shield, and the storage space is provided in the vicinity of the building. Accordingly, the demolition machine is easily transported to a desired floor of the building by raising or lowering the shield. That is, it is not necessary to install a crane for lifting or hanging the demolition machine outside the building and perform lifting work by the crane. Therefore, the construction cost for lifting the demolition machine can be greatly reduced and the demolition work can be performed.
[0011]
In addition, the said lower floor refers to the floor of the height of about the 2nd floor to the 5th floor, for example, and implements the demolition construction method of this building according to the site conditions where the building to be demolished is built from these floors. A suitable floor is selected appropriately. In the demolition method, when the shield is located on the top floor, the wall and roof of the top floor are dismantled, and when the shield is located on a floor other than the top floor, the floor Dismantle the wall and one upper floor.
[0012]
In addition, by providing the crane so as to be movable in the direction of the center of the building to be demolished, the area where the crane can work can be expanded from the outer periphery of the building toward the center. As a method for providing movement in the interior direction of the building, for example, a gate-type frame that also serves as a traveling rail of a crane is fixed to the shield 1 so that it can be expanded and contracted in the direction of the center. And a method of storing the portal frame fixed to the shield 1 so as to be rotatable in the direction of the center.
[0013]
In addition, by configuring the peripheral wall surface of the shield with a partially light-transmitting material, the brightness inside the building can be increased and the working environment inside the building can be improved. Lighting costs can be reduced.
In addition to this, it is possible to prevent the noise during the dismantling work from leaking to the outside by configuring the peripheral wall surface of the shielding body with a soundproofing material such as a soundproof panel.
[0014]
For example, as shown in FIG. 1 (FIGS. 8 to 10, FIG. 12), the invention described in claim 2 is a method for demolishing a building according to claim 1.
On the lower floor b2 (d2) next to the floor b1 (d1) where the building a is demolished, a demolition machine (glass adsorption robot 8 (108), small lifting platform 9 (109), cutting machine 10 (110), slab cutting Machine 110a) and dismantling floor b1 (d1) to be dismantled
It is characterized by.
[0015]
According to the second aspect of the present invention, the same effect as in the first aspect can be obtained, and the demolishing machine is installed on the lower floor next to the demolished floor of the building, and the demolished floor is demolished. During the dismantling work of the floor to be dismantled, the scaffolding necessary for the dismantling work of the floor to be dismantled is secured on the lower floor next to the floor to be dismantled, and by the dismantling machine installed on the lower floor next to the floor to be dismantled, The demolishing work on the floor to be demolished can be carried out smoothly.
[0016]
The invention according to claim 3 is, for example, as shown in FIG. 1, in the building demolition method according to claim 1 or 2,
When dismantling the building a, the roof 5 is attached so as to be in close contact with the top of the shield 1.
It is characterized by.
[0017]
According to the third aspect of the invention, the same effect as in the first or second aspect can be obtained, and when the building is demolished, the roof is attached so as to be in close contact with the upper part of the shield. Noise and dust generated at times can be prevented from leaking out of the building demolition site from above the demolished floor.
In addition, wind and rain are further blocked by the roof attached so as to be in close contact with the upper part of the shield surrounding the side circumference of the floor to be demolished, and a good working environment can be secured on the floor where the demolishing work is performed. Therefore, the dismantling work of the building is not affected by the weather, and the dismantling work can be proceeded more smoothly.
[0018]
Note that the roof can be configured to be openable and closable. As a result, it is possible to use it properly in fine weather or rainy weather, and the comfort of the work environment can be further improved according to the situation. In order to make the roof openable and closable, for example, a roof material may be slidably provided using a framework constituting the roof as a guide.
[0019]
In addition to this, the frame constituting the roof can be used as a traveling rail such as a hoist crane. Thereby, it becomes possible to work with a hoist crane also in the internal position of a building, and workability | operativity can further be improved.
[0020]
The invention according to claim 4 is, for example, as shown in FIG. 1, in the building demolition method according to claim 3,
The roof 5 has a water collecting hole 6.
It is characterized by.
[0021]
According to the fourth aspect of the invention, the same effect as in the third aspect can be obtained, and since the water collecting hole is provided in the roof, the rain water poured on the roof is collected from the water collecting hole, It can be used for sprinkling water to treat dust generated during the dismantling work.
[0022]
The invention according to claim 5 is, for example, as shown in FIG. 1, in the building demolition method according to any one of claims 1 to 4,
A dismantling machine (glass adsorption robot 8 (108), small lifting platform 9 (109), cutting machine 10 (110), slab cutting machine 110a) used for dismantling each floor b1 to be dismantled is also lifted by the crane 3 or Hanging down
It is characterized by.
[0023]
According to the fifth aspect of the present invention, the same effect as in any one of the first to fourth aspects can be obtained, and the demolition machine used for demolition of each floor to be demolished can be lifted or hung by a crane attached to the shield. Since it is lowered, the workability of the building demolition work can be improved.
[0024]
The invention according to claim 6 is, for example, as shown in FIG. 17, in the building demolition method according to any one of claims 1 to 4,
The dismantling machines (glass adsorption robot 8 (108), small lifting platform 9 (109), cutting machine 10 (110), slab cutting machine 110a) used for dismantling each floor b1 (d1) to be dismantled are dismantled. Lift or hang down through a hole e (f) inside the building a (c) by the loading / lowering platform 21 (121) installed on the lower floor b2 (d2) next to the floor b1 (d1).
It is characterized by.
[0025]
According to the sixth aspect of the present invention, the same effect as in any one of the first to fourth aspects can be obtained, and the demolition machine used for the demolition of each floor to be demolished is installed on the lower floor next to the floor to be demolished. Since the loading / unloading platform is used to lift or hang down through the pits inside the building, it is not necessary to prepare a crane for lifting or unloading these demolition machines outside the building.
[0026]
The invention according to claim 7 is, for example, as shown in FIG. 1 (FIG. 13), in the building demolition method according to any one of claims 1 to 6,
The peripheral wall surface of the shield 1 (101) is used as an advertising medium.
It is characterized by.
[0027]
According to the seventh aspect of the present invention, the same effect as in any one of the first to sixth aspects can be obtained, and the peripheral wall surface of the shield is used as the advertising medium. An economic effect can be obtained by the shield.
[0028]
The invention according to claim 8 is, for example, as shown in FIG. 3 and FIG. 4 (FIG. 8), in the building demolition method according to any one of claims 1 to 7,
By winding or rewinding the rope 14 (114) connected to the shield by the winch 4 (104), the shield 1 (101) is raised and lowered,
A load detection device (load cell) 19a (119a) for detecting the force applied to the rope 14 (114) is provided.
It is characterized by.
[0029]
In addition, the said winch may be installed in the ground, for example, and may be installed in the inside of the said shield. Furthermore, according to the construction situation of a dismantling operation | work, it may be appropriately changed from the ground to the inside of the shield, or vice versa.
[0030]
According to the eighth aspect of the invention, the same effect as in any one of the first to seventh aspects can be obtained, and the rope can be wound or unwound by the winch so that the shield is raised and lowered. Since a load detection device that detects the force applied to the rope is provided, when lifting and lowering the shield, while detecting the force applied to each rope every time, the winch is wound up or rewinded. It is possible to prevent an excessive force from being applied to the rope and winch.
[0031]
The invention according to claim 9 is, for example, as shown in FIGS. 3 and 4 (FIG. 8), in the building demolition method according to any one of claims 1 to 7,
By winding or unwinding the rope 14 (114) connected to the shield 1 (101) by the winch 4 (104), the shield 1 (101) is moved up and down, and the rope 14 (114) The movable pulley 13 (113) is combined so that the force applied to the winch 4 (104) is reduced.
It is characterized by.
[0032]
According to the invention of claim 9, the same effect as any one of claims 1 to 7 can be obtained, and the shield is raised or lowered by winding or unwinding the rope connected to the shield by the winch, Since the rope is combined with a moving pulley so that the force applied to the winch is smaller, the force applied to the rope wound or unwound by the winch is smaller than when the moving pulley is not combined with the rope. The shield can be raised and lowered with a small winch.
[0033]
The invention according to claim 10 is, for example, as shown in FIG. 3 (FIG. 8), in the building demolition method according to any one of claims 1 to 7,
By winding or unwinding the rope 14 (114) connected to the shield 1 (101) by the winch 4 (104), the shield 1 (101) is moved up and down, and the rope 14 (114) A load detection device (load cell) 19a (119a) for detecting the force applied to the rope 14 (114) is interposed, and the movable pulley 13 (113) is arranged so that the force applied to the winch 4 (104) is reduced. Be combined
It is characterized by.
[0034]
According to the tenth aspect of the present invention, the same effect as any of the first to seventh aspects can be obtained.
In addition, since the force applied to the rope wound or unwound by the winch is smaller than when the moving pulley is not combined with the rope, the load detection device interposed in the rope can be made smaller.
[0035]
The invention according to claim 11 is, for example, as shown in FIG. 2 (FIG. 14), in the building demolition method according to any one of claims 1 to 10,
An anti-sway material that can limit the horizontal movement of the shield 1 (101) relative to the guide support 2 (102) by contacting the shield 1 (101) with the surface of the guide support 2 (102). 11 (111) is attached
It is characterized by.
[0036]
According to the eleventh aspect of the invention, the same effect as in any one of the first to tenth aspects can be obtained, and the shielding member can be in contact with the surface of the guide column so that the shielding member is horizontal with respect to the guide column. Since the steadying material capable of restricting the movement is attached, it is possible to suppress the shaking of the shield with respect to the guide column during the ascending / descending operation of the shield or during a strong wind.
[0037]
The invention according to claim 12 is, for example, as shown in FIG. 2 (FIG. 14), in the building demolition method according to claim 11,
The steady rest material 11 (111) is provided with guide rolling wheels 12 and 112 capable of rolling up and down the surface of the guide column 2 (102).
It is characterized by.
[0038]
According to the invention of claim 12, the same effect as that of claim 11 is obtained, and the steadying member is provided with a guide roller capable of rolling up and down the surface of the guide column. The shield can be smoothly raised or lowered with the guide column as a guide.
[0039]
The invention according to claim 13 is, for example, as shown in FIG. 3, in the building demolition method according to any one of claims 1 to 12,
During the dismantling work of each floor b1 to be dismantled, a support material (steel material 15 (115)) is fixed to the guide column 2, and the shield 1 is supported by the support material (steel material 15 (115)). It is characterized by making it.
[0040]
According to the invention of claim 13, the same effect as any one of claims 1 to 12 can be obtained, and a support member is fixed to the guide column during the dismantling work of each floor to be dismantled, Since the shield is supported by the support material, the shield is stably held on the guide column via the support material during the demolishing work of each demolished floor that occupies most of the building demolition work period.
[0041]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a building demolition method according to the present invention will be described in detail with reference to the drawings.
[0042]
[First embodiment]
The building demolition method of the present embodiment requires a large heavy machine for the construction of the shield, and solves the problems of the conventional demolition method with the danger that the scaffolding of work disappears as it is demolished. As shown in FIG. 3, a sound insulation / heat insulation panel 1a having rigidity capable of withstanding strong winds on a high floor located in a high sky area, a storage space 1c in which the dismantling machines 8 to 10 can be stored, and rigidity should be provided. The shield 1 including the assembled steel frame 1b is assembled on the ground so as to be slidable up and down on the guide column 2 that is first assembled around the building a, and the shield 1 that houses the dismantling machines 8 to 10, The guide column 2 is lifted by a winch 4 for guidance, and a roof 5 is attached on the top floor of the building to form a sealed shield A. In the sealed shield A, the demolition machine 8 is moved from the storage space 1c to the building a. -10 Further, by dismantling the ceiling floor of the work floor to be a scaffold, the lower work scaffold is secured widely until the dismantling of the ceiling floor is completed, and each time the floor is dismantled, the dismantling machines 8 to 10 are The hermetic shield A stored in the storage space 1c is lowered, the dismantling machines 8 to 10 are sequentially moved to the next lower floor, the work position is sequentially changed to the next lower floor, and the dismantling glass is suspended. The water is crushed on the ground. For the water spray on each floor for dust treatment, the rainwater collected in the water collecting tank 7 collected in the water collecting hole 6 of the roof 5 is used effectively. The peripheral wall surface of the shield 1 of the hermetic shield A that can withstand strong winds and prevent cold, noise, and dust scattering is used as an advertising medium.
[0043]
In particular, since the assembling work of the shielding body 1 is an operation on the ground, the shielding body 1 for noise prevention and dust scattering prevention is extremely stable compared to the conventional construction method. It can be composed of a sound insulation and heat insulation panel with high rigidity that can withstand strong winds. Moreover, since the shield 1 is lifted by itself together with the guide post 2 to be assembled, the crane 3 and the winch are all effective. No need for large heavy machinery, work is always the work of dismantling the ceiling floor, and the lower work floor, which serves as a scaffold, will ensure the entire space to the end and prevent noise as the dismantling progresses. By lowering the sealed shield A to prevent dust scattering, the demolishing work position and the demolishing machines 8 to 10 housed in the sealed shield A are also moved to the lower floor, and the demolished glass is suspended by the crane 3. Since it is ground on the ground, the work is stable and easy to work, efficient, and the construction period is shortened. In addition to the effective use of rainwater, the shield can be used in various ways as an advertising medium during the long construction period. It is something that can be done.
[0044]
As shown in FIG. 1 (lower part), the shielding body 1 is composed of a shielding plate 1a made of a sound insulation / heat insulation panel and a frame 1b made of a steel material that supports the shielding plate 1a on a guide column 2. . The shielding plate 1a has sufficient rigidity to withstand strong winds on the higher floors of the building a to be demolished, and the frame 1b has a storage space 1c that can accommodate the dismantling machines 8 to 10 and rigidity.
As shown in FIG. 1 (upper part), since the roof 5 is attached to the shield 1 so as to be in close contact with the top floor, wind and rain are blocked, and the building a can be dismantled smoothly. Yes. Further, the roof 5 is provided with a water collecting hole 6, and rainwater poured on the roof 5 is collected from the water collecting hole 6 and used for watering for treating dust generated in the dismantling operation of the building a. Can be done.
[0045]
As shown in FIG. 2, an anti-sway member 11 is attached to the shield 1 so as to sandwich a pair of guide columns 2 facing each other across the building a from the outside. Is provided with a guide roller 12 capable of rolling up and down the surface of the guide column 2.
A predetermined clearance is formed between the guide column 2 and the guide roller 12 so that the two do not normally come into contact with each other. When the shield 1 attempts to move horizontally with respect to the guide column 2, the guide roller 12 contacts the surface of the guide column 2 so that the horizontal movement of the shield 1 with respect to the guide column 2 is within a certain amount. It has come to be restricted.
[0046]
As shown in FIG. 3, the shield 1 is provided with an upper pulley 13a and a lower pulley 13b. The upper pulley 13a is fixed to the guide column 2a, and the lower pulley 13b is fixed to the shield 1. ing. When the rope 14 is wound up by the winch 4 provided on the ground, the distance between the upper pulley 13a and the lower pulley 13b is reduced and the shield 1 is lifted. Conversely, when the rope 4 is rewound, the upper pulley 13a and the lower pulley are lowered. The distance to the pulley 13b increases and the shield 1 descends.
Further, a steel material (support material) 15 is bolted or welded and fixed to a predetermined portion of the guide column 2a. The steel material 15 serves as a stopper, and the shield 1 is stably supported by the guide column 2. It is like that.
[0047]
As shown in FIG. 4, since the rope 14 is wound four times between the upper pulley 13a and the lower pulley 13b, the lower pulley 13b fixed to the shield 1 has a total of eight ropes 14 attached. In other words, the force applied to the rope 14 is 1/8 as compared with the case where the movable pulley 13 is not used.
[0048]
Hereinafter, the construction procedure of the building demolition method in the present embodiment will be described.
As shown in FIG. 1 (lower part), the shield 1 to be assembled on the ground has a height of about 8 m, and if it hits three guide post members 2a made of H-shaped steel pieces constituting the guide post 2 to be assembled, First, the three guide support members 2a are connected to each other at several places on the ground around the building a to be demolished. Next, a steel frame 1b is assembled so as to have a storage space 1c capable of storing the dismantling machines 8 to 10 and rigidity, and a sandwich sound insulation / heat insulation panel 1a having a thickness of about 30 mm is fixed to the outer peripheral surface of the frame 1b. The shield 1 is formed by fixing the steady rest 11 on the inner peripheral surface of the frame 1b. At this time, as shown in FIG. 2, the steadying material 11 is held in rolling contact with the guide column 2 by several guide rollers 12 so that the shield 1 wraps around the building a. To do. That is, the shield 1 that can be assembled on the ground has sound insulation, heat insulation, and rigidity sufficient to withstand strong winds and cold in the high airspace, and a space for storing and transporting the dismantling machines 8 to 10. It will have rigidity. An advertisement of a contracted company or the like is drawn on the outer surface of the shield 1 so that it can be used as an advertising medium having an advertising effect during a long construction period.
[0049]
After the dismantling machines 8 to 10 are housed in the shield 1 that is firmly assembled, as shown in FIG. 3, the rope 14 is wound up by the winch 4 provided on the ground.
At this time, when the shield 1 is raised by a certain amount, a steel material 15 as a stopper is bolted or welded to the guide support column 2 and the shield 1 is temporarily held by the steel material 15, and then the upper pulley 13a. Remove. Then, a crane 3 provided on the shield 1 adds a guide strut member 2a made of an H-shaped steel piece constituting the guide strut 2 to the guide strut 2 and the upper pulley 13a on the top of the guide strut 2 To fix. The shield 1 is gradually raised while repeating the above steps.
[0050]
In addition, as shown in FIG. 5, the wire 22 is tightly connected to the pillar material of the building a dismantling a plurality of locations of the shield 1, and the building a where the shield 1 is dismantled is more than allowable when strong wind such as a typhoon. Try to prevent shaking.
[0051]
As shown in FIG. 1 (upper part), when the shield 1 reaches the uppermost floor of the demolished building a together with the guide struts 2, the upper part is composed of a sound insulation / heat insulation panel, and a concave part that leads to the water collecting hole 6 in the center. The formed roof 5 is covered and fixed to constitute the hermetic shield A. The roof 5 is made of a sound insulation / heat insulation panel having a large rigidity and can be firmly fixed to the shield 1, so that a strong hermetic shield A can be constructed.
In this hermetic shield A, a sash or a sash housed in the storage space 1c is stored in the lower floor b2 next to the floor b1 to be demolished together with a water storage tank 7 for storing rainwater collected in the water collecting hole 6. A small demolition machine such as a glass adsorption robot 8 that adsorbs and removes glass, a small lifting platform 9 that receives and cuts floors and beams of the floor b1 to be dismantled, and a cutting machine 10 is moved to the building a and dismantled. Work floor space is secured as it is on the floor to be worked on, that is, the lower floor b2 next to the floor b1 to be demolished, until the dismantling of the ceiling floor, that is, the floor b1 to be demolished is completed. Is advanced.
[0052]
The PC plate 18, glass, sash, and the like constituting the dismantled wall are hoists 3 provided on the top of the shield 1, and the temporary enclosure space 17 shown in FIG. 1 and FIG. Is suspended, partially slid down to the ground, crushed by a crusher 16 installed on the ground, and discharged to the outside. Separately from the cut slab floor and steel pillars / beams, they are suspended on the ground with a portal crane and crushed.
Moreover, according to the construction situation, as shown in FIG. 1, the above-mentioned each dismantling is carried out through the pit e inside the building a by the loading / lowering base 21 installed on the lower floor b2 next to the floor b1 to be dismantled. The dismantling machines 8 to 10 used for the dismantling of the floor b1 may be lifted or suspended to move the dismantling machines 8 to 10 to a desired floor or be removed.
[0053]
After the dismantling of the ceiling floor is completed, the dismantling machines 8 to 10 are stored in the storage space 1c, and the hermetic shield A is lowered. In this case, the work is the reverse of the lifting work, the guide struts 2 are disassembled and suspended for each of the guide strut members 2a disassembled by the crane 3 attached to the upper part of the shield 1, and at the same time lower by one step. The sealing shield A is lowered to the floor where the disassembly work is performed while loosening the rope 14 engaged with the pulley 13 to be replaced with the winch 4. The dismantling machines 8 to 10 stored in the storage space 1c are moved to the lower floor b2 next to the floor b1 to be disassembled to secure a working space and a working scaffold. The shield 1 is always located in a high altitude space during the construction period while descending to the ground while being lifted up and dismantled, but during this time the outer wall is used as an advertisement display surface, so it can be seen from far away. Also serving as an advertising body, it is extremely effective and helps to generate expenses. The water spray that settles the dust during the dismantling operation effectively uses the rainwater collected by the roof 5 and stored in the water storage tank 7, which is useful for resource saving.
[0054]
Finally, the procedure for raising and lowering the hermetic shield A will be described.
As shown in FIG. 7, on the floor of the building c where the hermetic shield A is located, a conductor M1 who manages the entire raising and lowering operation of the hermetic shield A, a driver M2 who operates the winch 4, and a lifting device (motion The state of the pulley 13, the rope 14), the tension of the rope 14 detected by the load cell 19a, the amount of winding / unwinding of the winch 4, and the level of each part of the hermetic shield A detected by a laser displacement meter (not shown) are observed. An elevator observer M3 to view and an observer M4 to observe the state of the sealed shield A are arranged, and a winch to observe the state of the winch 4 on the ground where the winch 4 is installed. A viewer M5 is arranged.
[0055]
First, the conductor M1 instructs the driver M2 to drive the winch 4.
The driver M2 performs the driving operation of the winch 4 according to the instruction of the conductor M1.
During the lifting / lowering operation of the hermetic shield A, the lifting / lowering observer M3 determines the state of the lifting / lowering device (the movable pulley 13, the rope 14), the tension of the rope 14 detected by the load cell 19a, the amount of winding / unwinding of the winch 4 and The level of each part of the sealing shield A detected by a laser displacement meter (not shown) is observed. If the ascending / descending observer M3 finds an abnormality in any of these, the conductor M1 sends a signal to the conductor M1 with a horn, and the conductor M1 who receives the signal stops the driver M2 from driving the winch 4.
[0056]
In addition, during the raising / lowering operation of the hermetic shield A, the winch viewer M5 watches the state of the winch 4 installed on the ground. When the winch observer M5 finds an abnormality in the state of the winch 4, a signal is sent wirelessly to the conductor M1, and the conductor M1 receiving the signal stops the driver M2 from operating the winch 4.
The lifting / lowering operation of the sealing shield A by the winch 4 is stopped, for example, every 10 cm in height, and each time the lifting / lowering observer M3 checks the level of each part of the sealing shield A, the difference in level is When the height is 10 cm or more, the level is adjusted by individually operating a plurality of winches 4.
[0057]
When the raising / lowering operation of the sealing shield A is completed, the steel material 15 is installed on the guide support 2 after the instruction of the conductor M1 is performed, and the sealing shield A is supported by the steel material 15.
[0058]
As described above, the building a can be dismantled easily and stably.
[0059]
[Second Embodiment]
The outline of the building demolition method according to the present embodiment is similar to the building demolition method according to the first embodiment, as shown in FIG. And a space and rigidity capable of accommodating the shielding plate 101a having sufficient sound insulation and heat insulation enough to withstand strong winds and cold in the high airspace, and the dismantling machines 108 to 110 (110a) shown in FIGS. A shield 101 composed of a steel frame 101b is provided at the height of the lower floor of the building c so that the shield 101 is guided by the guide column 102 and can be slid up and down, and the side circumference of the building c is In addition to assembling the shield body 101, the disassembly machines 108 to 110 are stored in the shield body 101, and the guide column material 102a is lifted by the crane 103 attached to the shield body 101, By connecting to the upper end of the id post 102, the guide post 102 is extended upward in order, and the extended guide post 102 is sequentially raised to guide the shield 101 so that the uppermost floor of the building c , The floors of the building c are sequentially disassembled from the uppermost floor to the lower floor by the dismantling machines 108 to 110 moved from the shield 101 to the building c, and the dismantling glass is suspended to the ground. Each time the floor d1 to be crushed and disassembled moves downward, the shield 101 is sequentially lowered with the guide column 102 as a guide, and the dismantling machines 108 to 110 are housed in the shield 1 and transported downward. The guide strut 102a is removed from the upper end of the guide strut 102 and suspended by the crane 103. Is intended to shorten the struts 102 sequentially downward, the peripheral wall surface of the shield 101 is characterized in that the advertising medium.
[0060]
As shown in FIG. 8, the shield 101 includes a shield plate 101 a made of a sound insulation / heat insulation panel and a frame 101 b made of a steel material that supports the guide plate 102. The shielding plate 101a has sufficient rigidity to withstand strong winds on the higher floors of the building c to be demolished, and the frame 101b has space and rigidity capable of accommodating the dismantling machines 108 to 110.
[0061]
In addition, the shield 101 is provided with a winch 104 therein so that the lifting / lowering operation of the shield 101 can be performed easily and stably. A load cell (load detection device) 119a for detecting the force applied to the rope 114 is interposed in the rope 114, and from the upper pulley 113a and the lower pulley 113b so that the force applied to the winch 104 is reduced. The moving pulley 113 is combined. When the rope 114 is wound up by the winch 104, the distance between the upper pulley 113a and the lower pulley 113b is reduced and the shield 101 is raised. Conversely, when the rope 114 is rewound, the distance between the upper pulley 113a and the lower pulley 113b is increased. It spreads and the shield 101 descends.
[0062]
Furthermore, the shield 101 is provided with various devices for managing the lifting operation. That is, the load detection device 119a that detects the tensile force of the rope 114, the lifting operation by the crane 103, the monitor camera 119b that can monitor the engagement portion of the rope 114 and the movable pulley 113, and the inclination of the shield 101. An inclinometer 119c for sensing, a laser displacement meter 119d for sensing the amount of movement of the shield 101 in the horizontal and vertical directions, a photoelectric proximity sensor 119e for sensing the proximity of the upper pulley 113a and the lower pulley 113b, and a wire type A displacement meter 119f, an encoder 119g for converting an analog signal and a digital signal, and the like are provided. Information obtained from these devices is transmitted to a monitor or a computer in a central control room, so that the shield can be moved up and down. However, it can be managed collectively by remote operation.
[0063]
As shown in FIG. 9, a truss-like beam 105a is formed on the shield 101 so as to bridge the entire building c. On the upper surface of the beam 105a, an openable and closable roof 105 that can be slid to guide the beam 105a is provided. The roof 105 is composed of a sheet or a net, and the working environment can be improved by opening and closing the roof 105 according to the situation such as rainy weather or sunny weather.
[0064]
As shown in FIG. 10, the beam 105a also serves as a traveling rail for the hoist crane 105b, and the hoist crane 105b provided at a predetermined location enables horizontal conveyance from one end of the building c to the other end. It is.
[0065]
As shown in FIG. 11, the crane 103 provided on the upper part of the shield 101 is movable along a traveling rail 103 a provided along the inner periphery of the shield 101. The traveling rail 103a is also arranged in a curved shape at the protruding corner and the entering corner of the building c. As a result, the crane 103 can continuously travel even at the corners and corners of the building c, and can move freely within the range where the traveling rail 103a is provided. Therefore, the number of cranes 103 can be reduced.
[0066]
As shown in FIG. 12A, a portal frame 101d that also serves as a travel rail of a hoist crane is stored at a predetermined location of the shield 101. As shown in FIG. 12 (b), the portal frame 101d is provided so as to be rotatable in the direction of the center of a building with a fixed portion with respect to the shield 101 as a base end. It can be taken out from 101 and used. By the hoist crane 101e using the portal frame 101d as a running rail, an area where the lifting operation can be performed when the building c is dismantled is expanded from the outer peripheral portion of the building c toward the center portion.
[0067]
The shield 101 can be used as an advertising medium throughout the construction period, as shown in FIG. The shield 101a is provided with a translucent panel 101f. By transmitting natural light, the inside of the building c is brightened, so that workability can be improved and lighting costs can be reduced.
[0068]
The shield 101 and the guide column 102 are engaged by a method as shown in FIG. That is, the flange on the inside of the building c of the column c1 of the building c made of H-shaped steel and the flange in contact with the outer wall c2 of the building c of the guide column 102 similarly made of H-shaped steel are sandwiched between the steel plates c4. It is fixed by the guide post fixing bolt c3. Further, concrete c5 is filled between the flange c of the column c1 of the building c on the outside of the building c and the outer wall c2, thereby ensuring that the horizontal force generated in the guide column 102 is applied to the column c1 of the building c. As a result, the shield 101 can slide more stably along the guide column 102. That is, the column c1 of the building c and the guide column 102 can be easily fixed by the guide column fixing bolt c3 without greatly removing the outer wall c2 or welding. Yes. An anti-sway member 111 is attached to the shield 101 so as to ensure a predetermined clearance in two directions with respect to the guide column 102, and the horizontal shaking of the shield 101 is prevented. Further, since the guide roller 112 capable of rolling the surface of the guide column 2 up and down is provided at the tip of the steady rest member 111, the shield 101 can be moved up and down stably with the guide column 2 as a guide. It can be made to. After the lifting and lowering of the shielding body 101, during the dismantling work of the building c, the shielding body 101 is fixed to the guide column 102 and securely supported by the steel material 101g and the bolt 101h.
[0069]
As shown in FIG. 15, a groove 102b is formed in the guide post 102 at a predetermined location, and a steel material (movable horizontally in the lower part of the shield 101 with respect to the groove 102b). The support member 115 is detachable. By inserting the steel material 115 into the 102b, the shield 101 is easily and reliably supported by the guide column 102.
[0070]
Hereinafter, the construction procedure of the building demolition method in the present embodiment will be described with reference to FIGS.
[0071]
In the same manner as in the first embodiment, after the shield body 101 is raised to the uppermost floor, a steel material 115 provided in the lower portion of the shield body 101 so as to be horizontally movable is used as the guide post. The shield 101 is supported by the guide column 102 by being inserted into the groove 102 b formed in 102.
[0072]
Next, as shown in FIG. 16, the glass suction robot 8 stored in the storage space 101c is moved and arranged on the lower floor d2 next to the floor d1 to be demolished. When the glass suction robot 8 is moved, a wooden plate or the like is bridged between the shield 101 and the building c so that the glass suction robot 8 can be moved smoothly.
After the glass sash d11 of the floor d1 to be demolished is removed by the glass adsorbing robot 8, the building to be demolished using the loading / lowering platform 121 arranged on the lower floor d2 next to the floor d1 to be demolished c. The removed glass sash d11 is suspended from the ground hole f of the building c from the inside hole f.
[0073]
Next, as shown in FIG. 17, the floor slab cutting machine 110a stored in the storage space 101c is moved to the floor d1 to be dismantled, and the floor slab d12 of the floor d1 to be dismantled is cut. The floor slab d12 cut by the small lifting work platform 109 arranged on the lower floor d2 is received, and the cut floor slab d12 is suspended from the ground floor of the building c by the loading / lowering base 121.
[0074]
Next, as shown in FIG. 18, the cutting machine 110 stored in the storage space 101c is moved to the floor d1 to be dismantled, and the internal steel frames d13 and d14 of the floor d1 to be dismantled are cut to make a small size. The internal steel frames d13 and d14 cut by the elevating work platform 109 are received, and the cut internal steel frames d13 and d14 are suspended from the ground floor of the building c by the loading / lowering platform 121.
[0075]
Further, as shown in FIG. 19, the outer wall plate d15 of the floor d1 to be dismantled is removed by the crane 103 installed on the frame 101b of the shield 101, and is removed by the crane 103 or the loading / lowering platform 121. The outer wall plate d15 is suspended from the ground floor of the building c and then pulverized.
[0076]
Then, as shown in FIG. 20, the cutting machine 110 cuts the external steel frames d16 and d17 of the floor d1 to be disassembled, receives the external steel frames d16 and d17 cut by the small lifting work platform 109, At the platform 121, the cut external steel frames d16 and d17 are suspended from the ground floor of the building c.
[0077]
Finally, as shown in FIG. 21, after the dismantling machines 108 to 110 are stored in the storage space 101c, the winch 104 is used to lower the shield 101 to the height of the next floor to be disassembled.
[0078]
The lowering of the shield 101 is performed according to the following procedure. That is, as shown in FIG. 22 (a), after the dismantling machines 108 to 110 are stored in the shield 101, as shown in FIG. 22 (b), up to the level of the floor where the shield 101 is next disassembled. Lower. Then, after the steel material 115 is inserted into the groove 102b of the guide column 102 and the shield 101 is securely supported by the guide column 102, the dismantling machines 108 to 110 are moved again into the building c.
[0079]
Further, depending on the construction situation, as shown in FIG. 17, the unloading machine 108 to 110 used for dismantling each floor d1 to be dismantled is installed on the lower floor d2 next to the floor d1 to be dismantled. The dismantling machines 108 to 110 may be moved to a desired floor or removed by being lifted or lowered by the platform 121 through the hole f inside the building c.
[0080]
As described above, the building c can be easily and stably disassembled by repeating the step of dismantling the building c and the step of lowering the shield 101.
[0081]
According to the [second embodiment], the following effects can be obtained.
[0082]
[1] Since the shield 101 can be assembled at the height of the lower floor of the building c with good working conditions, the assembly work of the shield 101 can be greatly simplified, and the shield 101 can be attached to the higher floor of the building c. It is suitable for constituting with the members 101a and 101b having large strength, rigidity, sound insulation and heat insulation that can withstand strong winds.
[0083]
[2] When the guide strut 102 is constructed or disassembled, it is sufficient to use the crane 103 attached to the shield 101, and it is not necessary to separately prepare a crane for constructing or dismantling the guide strut 102.
[0084]
[3] Since the side circumference of the floor d1 to be demolished is surrounded by the shield 101, noise and dust generated when the building c is demolished leaks from the side of the demolished floor d1 to the outside of the demolishing site of the building c. Can be prevented.
[0085]
[4] Wind and rain are blocked by the shield 101 surrounding the side periphery of the floor d1 to be demolished, and a good working environment can be secured on the floor d1 to be demolished. Work can proceed smoothly.
[0086]
[5] Since the demolition machines 108 to 110 for demolition of the building are easily transported to the desired floor by the shield 101, the construction cost for lifting the demolition machines 108 to 110 is greatly increased. It is possible to reduce and dismantle work.
[0087]
[6] Since the demolishing machines 108 to 110 are installed on the lower floor d2 next to the floor d1 to be demolished of the building c and the demolished floor d1 is demolished, a scaffold necessary for the demolishing work of the demolished floor d1 is secured. Therefore, the dismantling work can proceed smoothly.
[0088]
[7] The dismantling machines 108 to 110 used for dismantling each floor d1 to be dismantled are lifted through a hole f in the building c by the loading / lowering base 121 installed on the lower floor d2 next to the floor d1 to be dismantled or Since it is suspended, it is not necessary to prepare a crane for lifting or unloading these dismantling machines 108 to 110 outside the building.
[0089]
[8] Since the peripheral wall surface of the shield 101 is used as an advertising medium, an economic effect can be obtained by the shield 101 used as the advertising medium throughout the dismantling work of the building c.
[0090]
[9] Since the load cell 119a for detecting the force applied to the rope 114 is provided between the shield 101 and the movable pulley 113, it is possible to prevent an excessive force from being applied to each rope 114 and winch 104.
[0091]
[10] Since the movable pulley 113 is combined with the rope 114 connected to the shield 101, the load applied to the rope 114 is reduced, and the shield 101 can be lifted and lowered by the smaller winch 104.
[0092]
[11] Since the shield 101 is provided with a steadying member 111 that can abut the guide strut 102 to restrict the horizontal movement of the shield 101 relative to the guide strut 102, the shield 101 has a horizontal direction. Can be suppressed.
[0093]
[12] Since the steady rest member 111 is provided with a guide roller 112 capable of rolling the surface of the guide column 102 up and down, the shield 101 can be smoothly raised or lowered with the guide column 102 as a guide. Can do.
[0094]
[13] By inserting the steel material 115 into the groove 102b formed in the guide column 102, the shield 101 is reliably supported by the guide column 102 through the steel material 115. It can be performed stably.
[0095]
In the [first embodiment], the same effects as those described in the above [1] to [10] can be obtained, and as shown in the [first embodiment], the above [11]. The effect similar to the effect shown in [13] is acquired.
[0096]
Further, the building demolition method of the present invention is not limited to the above-described two embodiments, and various modifications and changes may be made without departing from the gist of the present invention.
[0097]
【The invention's effect】
According to the first aspect of the present invention, since the shield can be assembled at the height of the lower floor of the building with good working conditions, the assembly work of the shield can be greatly simplified, and the shield can be attached to the building. It is suitable for being composed of a member having high strength, rigidity, sound insulation and heat insulation that can withstand strong winds on higher floors.
[0098]
Further, when constructing or dismantling the guide column, it is sufficient to use a crane attached to the shield, and it is not necessary to separately prepare a crane for constructing or dismantling the guide column.
[0099]
Further, since the side circumference of the floor to be demolished is surrounded by the shield, noise and dust generated when the building is demolished can be prevented from leaking from the side of the demolished floor to the outside of the building demolition site.
[0100]
And since the wind and rain are blocked by the shield that surrounds the side circumference of the floor to be demolished, it is possible to secure a good working environment on the floor to be demolished, so that the demolishing work of the building is less affected by the weather and the demolition work proceeds smoothly be able to.
[0101]
Furthermore, since the demolition machine for demolition of the building is easily transported to the desired floor by the shielding body, the labor for lifting the demolition machine, construction costs, etc. are greatly reduced, and the demolition work is performed. It can be carried out.
[0102]
According to the second aspect of the present invention, the same effect as in the first aspect can be obtained, and the demolishing machine is installed on the lower floor next to the demolished floor of the building, and the demolished floor is demolished, so the demolished Scaffolding necessary for the floor dismantling work is secured, and the dismantling work can proceed smoothly.
[0103]
According to the third aspect of the present invention, the same effect as in the first or second aspect can be obtained, and noise and dust generated when the building is demolished by the roof attached to the upper part of the shield is above the floor where the demolished. Can be prevented from leaking outside the building demolition site.
[0104]
In addition, since the wind and rain are further blocked by the roof and a good working environment can be secured on the floor where the demolition work is performed, the demolition work of the building can be further smoothly advanced without being influenced by the weather. .
[0105]
According to the invention of claim 4, the same effect as that of claim 3 can be obtained, and since a water collecting hole is provided in the roof, rainwater poured on the roof is collected from the water collecting hole, It can be used for watering to treat dust generated during dismantling work.
[0106]
According to the fifth aspect of the invention, the same effect as in any one of the first to fourth aspects can be obtained, and the demolition machine used for demolition of each floor to be demolished can be lifted or hung by a crane attached to the shield. Therefore, the workability of the building demolition work can be improved.
[0107]
According to the sixth aspect of the present invention, the same effect as in any one of the first to fourth aspects can be obtained, and the demolition machine used for the demolition of each floor to be dismantled is installed on the lower floor next to the floor to be dismantled. Since the upper and lower mounts are used to lift or hang down through the pits inside the building, it is not necessary to prepare a crane for lifting or suspending these demolition machines outside the building.
[0108]
According to the seventh aspect of the invention, the same effect as in any one of the first to sixth aspects can be obtained, and the peripheral wall surface of the shield is used as the advertising medium. Therefore, the advertising medium is used throughout the building demolition work period. An economical effect can be obtained by the shield.
[0109]
According to the invention described in claim 8, the same effect as in any one of claims 1 to 7 can be obtained, and since a load detection device is interposed in the rope, an excessive force is applied to each rope and winch. Can be prevented.
[0110]
According to the ninth aspect of the invention, the same effect as in any one of the first to seventh aspects can be obtained, and the rope connected to the shield is combined with the moving pulley, so that the load applied to the rope is reduced. It becomes small and can lift a shield with a smaller winch.
[0111]
According to invention of Claim 10, the effect similar to any one of Claims 1-7 is acquired.
In addition, since the force applied to the rope wound or unwound by the winch is smaller than when the moving pulley is not combined with the rope, the load detection device interposed in the rope can be made smaller.
[0112]
According to the eleventh aspect of the invention, the same effect as in any one of the first to tenth aspects can be obtained, and the shielding member can be in contact with the surface of the guide column so that the horizontal movement of the shielding member with respect to the guide column is performed. Since the steady rest material which can restrict | limit is attached, the shake with respect to the guide support | pillar of a shielding body can be suppressed.
[0113]
According to the twelfth aspect of the invention, the same effect as that of the eleventh aspect can be obtained, and the steadying member is provided with a guide roller that can roll up and down the surface of the guide column. The body can be moved up and down stably with the guide strut as a guide.
[0114]
According to the invention of claim 13, the same effect as in any one of claims 1 to 12 can be obtained, and the shield is surely secured by the support member fixed to the guide column during the dismantling work of each floor to be dismantled. Therefore, the building dismantling work can be performed more stably.
[Brief description of the drawings]
FIG. 1 is a front sectional view showing an example of a building demolition method according to the present invention.
FIG. 2 is a view showing an engaging portion between a guide column and a shield in the same example.
FIG. 3 is a diagram showing a shield located around a building in the same example.
FIG. 4 is a perspective view showing a lifting / lowering means (winch / moving pulley / rope) of the shield in the same example.
FIG. 5 is a plan view showing a shield and a building in the same example.
FIG. 6 is a plan view showing a shield and a building in the same example.
FIG. 7 is a plan view showing the personnel arrangement during the lifting / lowering operation of the shield in the same example.
FIG. 8 is a diagram showing a shield located around a building in an example other than the examples shown in FIGS. 1 to 7 in an example of a building demolition method according to the present invention.
FIG. 9 is a perspective view showing a roof provided on the shield in the same example.
FIG. 10 is a perspective view showing a hoist crane traveling rail formed on the roof surface of the shield in the same example.
FIG. 11 is a diagram showing a traveling rail of a crane provided on the upper part of the shield in the same example.
FIG. 12 is a view showing a portal frame that also serves as a traveling rail of a hoist crane, housed in a shield, in the same example.
FIG. 13 is a perspective view showing a shield used as an advertising medium in the same example.
14 is a view showing an engaging portion between a guide column and a shield in the same example. FIG.
FIG. 15 is a view showing a state in which the shield is supported by the guide column in the same example.
FIG. 16 is a cross-sectional view showing a first stage of a dismantling procedure for each floor in the example.
FIG. 17 is a cross-sectional view showing a second stage of the dismantling procedure for each floor in the example.
FIG. 18 is a cross-sectional view showing a third stage of the dismantling procedure for each floor in the example.
FIG. 19 is a cross-sectional view showing a fourth stage of the dismantling procedure for each floor in the example.
FIG. 20 is a cross-sectional view showing a fifth stage of the dismantling procedure for each floor in the example.
FIG. 21 is a cross-sectional view showing a sixth stage of the dismantling procedure for each floor in the example.
FIG. 22 is a cross-sectional view showing the state of transportation of the dismantling machine by the shield in the same example.
[Explanation of symbols]
1, 101 Shield
2,102 Guide column
2a, 102a Guide support material
3, 103 crane
4, 104 winches
5,105 roof
6 water collecting hole
8,108 Glass adsorption robot (dismantling machine)
9, 109 Small lifting platform (dismantling machine)
10, 110 Cutting machine (dismantling machine)
110a Slab cutting machine (dismantling machine)
11, 111 steady rest material
12, 112 Guide rollers
13, 113 Moving pulley
14, 114 rope
15, 115 Steel (support material)
19a, 119a Load cell (load detection device)
121 Loading / lowering platform
a, c Building
b1, d1 Demolition floor
b2, d2 Next lower floor (of the floor to be demolished)
e, f

Claims (13)

Establish guide posts at predetermined intervals around the side of the building to be demolished,
Assemble the shield that is guided by the guide column and is slidable up and down, at the height of the ground or the lower floor of the building so as to surround the side periphery of the building,
The shielding body is provided with a storage space for storing the demolition machine in the vicinity of the side of the building, and the storage space stores the demolition machine,
The guide column material is lifted by a crane attached to the shield and connected to the upper end of the guide column, so that the guide column is extended upward and the extended guide column is sequentially raised to the guide. Enclose the surroundings of the top floor of the building with the shield,
Next, the demolishing step of moving the demolishing machine to the floor of the building and demolishing the building by the demolishing machine;
After the dismantling process, the dismantling machine is stored in the storage space, the shield is lowered to the next lower floor, the guide strut material at the upper end of the guide strut is removed and suspended by the crane, A descent process that shortens the guide struts downward sequentially,
The building demolition method is characterized by repeating the above steps a predetermined number of times. In the building demolition method according to claim 1,
A demolition method for a building, wherein a demolition machine is installed on a lower floor next to a floor where the building is demolished, and the floor to be demolished is demolished. In the building demolition method according to claim 1 or 2,
A building demolition method, wherein a roof is attached in close contact with an upper portion of the shield when the building is demolished. In the building demolition method according to claim 3,
A demolition method for a building, wherein a water collecting hole is provided in the roof. In the demolition method of the building in any one of Claims 1-4,
A building demolition method characterized in that a demolition machine used for demolition of each floor to be demolished is also lifted or lowered by the crane. In the demolition method of the building in any one of Claims 1-4,
A demolition machine used for demolition of each floor to be demolished is lifted or suspended through an opening in the building by a loading / lowering base installed on a lower floor next to the floor to be demolished Demolition method. In the demolition method of the building in any one of Claims 1-6,
A building demolition method characterized in that the peripheral wall surface of the shield is used as an advertising medium. In the demolition method of the building in any one of Claims 1-7,
By winding or rewinding the rope connected to the shield by a winch, the shield is raised and lowered,
A building demolition method comprising a load detection device for detecting a force applied to the rope. In the demolition method of the building in any one of Claims 1-7,
By winding or rewinding the rope connected to the shield by a winch, the shield is raised and lowered,
A demolition method for a building, wherein the rope is combined with a moving pulley so that a force applied to the winch is reduced. In the demolition method of the building in any one of Claims 1-7,
By winding or rewinding the rope connected to the shield by a winch, the shield is raised and lowered,
A demolition method for a building, wherein a load detection device for detecting a force applied to the rope is interposed in the rope, and a moving pulley is combined so that a force applied to the winch is reduced. In the demolition method of the building in any one of Claims 1-10,
A demolition method for a building, wherein an anti-sway material capable of restricting horizontal movement of the shield with respect to the guide column is attached to the shield by contacting the surface of the guide column. In the building demolition method according to claim 11,
A demolition method for a building, characterized in that the steadying material is provided with a guide roller capable of rolling up and down the surface of the guide column. In the demolition method of the building in any one of Claims 1-12,
A building demolishing method, wherein a support member is fixed to the guide column and the shield is supported by the support member during the dismantling operation of each floor to be demolished.

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