JPH0730637B2 - Building demolition method - Google Patents

Description

Detailed Description of the Invention [Industrial applications]

The present invention relates to a method of dismantling a building, and more particularly to a method of dismantling a building without dropping debris or objects from above.

[Prior art]

When dismantling a building, it is important to reduce the harm to the surroundings. This is especially important in demolition in a town where adjacent buildings are densely packed. Various construction methods have been developed for the purpose of achieving this. For example, Japanese Examined Patent Publication No. 53-29939 (hereinafter, referred to as the first
Described as prior art) describes a building wall demolition method and apparatus. This publication describes a technique in which most of the debris and the dismantled objects are collapsed indoors without being dropped to the outside of the building to simplify the enclosure around the building and facilitate the dismantling work. Further, Japanese Utility Model Laid-Open No. 55-152250 (hereinafter referred to as the second prior art) describes a mounting structure of a protective plate used for demolition work of a building. That is, in this publication, when dismantling the exterior of a reinforced concrete building of a building,
A technology that enables protection of the dismantling of the next floor by setting a soundproof and dust-scattering protective plate on the first floor of the uppermost floor every time the dismantling of that floor is completed is described. ing. Furthermore, Japanese Utility Model Application Laid-Open No. 57-174651 (hereinafter, referred to as third prior art) describes a demolition device for a building. This publication describes a device for dismantling a building by attaching a boom to the end of an extendable crane and attaching a dismantling machine to the end of the crane. A technique for freely controlling the position of the machine is described.

[Problems to be Solved by the Invention]

Since the construction method described in the first prior art collapses most of the dismantled objects inside the building, it is possible to reduce the harm to the surroundings. However, this construction method has a drawback that it requires a special device for disassembling because the wall surface of the building collapses inward, and that a simple device cannot be dismantled efficiently. In addition, there is a drawback that all the dismantled objects cannot be collapsed indoors, and some of them fall outdoors, which damages the surroundings. Further, in the construction method described in the second prior art, it is necessary to provide a protective plate around the entire circumference of the building and lower the protective plate together with the dismantling of the building, which requires an extremely large-scale device.
Moreover, the protective plates around the building cannot catch all the demolition materials scattered outside. That is because it is not possible to eliminate the gap between the lower edge of the protective plate and the wall of the building. Therefore, it is not possible to prevent a part of the glass from falling outdoors. Furthermore, the construction method described in the third prior art cannot prevent the dismantled object from collapsing outdoors and cannot safely dismantle the high-rise building. That is, these conventional construction methods have a drawback in that the demolition object is vigorously dropped from the high position of the high-rise building to the outside, so that it is not possible to prevent harm to the surroundings. In addition, the method of dismantling work at a high position in a building has a low efficiency of dismantling work, and also reduces work safety due to a fall accident or the like. As a method of dismantling a building that solves the drawbacks described in these publications, a method of dismantling from the bottom of the building is disclosed in JP-A-2-24.
It is described in Japanese Patent No. 455. In the construction method described in this publication, as shown in FIG. 6, a truss 2 is fixed to the side surface of the building, and the truss 2 is supported by a jack 1 to dismantle the building from the lower part. This method can be used when dismantling a building,
It is not necessary to drop the debris and dismantled objects from a high place. Therefore, there is a feature that the building can be dismantled safely. This construction method supports the truss 2 to prevent the building to be demolished from falling. The weight of the building is extremely heavy. A truss that prevents a heavy building from falling must be strong.
Since taller buildings are unstable, it is necessary to build stronger trusses to support them stably.
The truss 2 needs to be designed to have a strength capable of stably supporting a tall and heavy building. Therefore, the construction method described in this publication requires the strength of the truss itself and the extremely high strength of the connecting portion that connects the truss to the building. As a result, the cost of constructing the truss 2 and fixing it to the building becomes extremely high. The present invention was developed for the purpose of solving these drawbacks of the prior art, and an important object of the present invention is to dismantle efficiently, safely, and economically by minimizing the damage to the surroundings. There is a building demolition method that can be provided.

[Means for solving the problem]

In order to achieve the above-mentioned object, the present invention dismantles a building under the following conditions. The construction method of the present invention is an improvement of the construction method in which the building is supported by the jack 1 and disassembled from the lower part, and the building is disassembled while the entire building is lowered by the jack 1. The construction method of the present invention is
The lower part of the building is locally dismantled at a plurality of locations, and the jack 1 is attached to the dismantled portion of the building to support the plurality of locations of the building with the jack 1. In the building supported by the jack 1, the part not supported by the jack 1 is damaged. Then jack 1
Shrink the building and lower the entire building to dismantle it.

[Action]

According to the method of dismantling a building of the present invention, the building is gradually disassembled from the first floor without dismantling the building from above. Under normal conditions, if the building is demolished from the first floor, the building will fall. In the construction method of the present invention, in order to prevent the building from falling over, a plurality of parts of the building are locally disassembled, and jacks are attached to the disassembled parts. The jack supports the bottom of the building. In this state, the building wall is dismantled. The building whose walls have been demolished is supported by jacks to prevent it from falling. The jack supports the position where the building does not fall down even if the wall surface is disassembled. For example, set a jack on the pillar of a building and dismantle the wall. To set the jack, remove the lower part of the pillar and set the jack on this part. Even if you dismantle the pillars to set the jack, the building
It is supported by other parts and does not fall.

【Example】

Embodiments of the present invention will be described below with reference to the drawings. However, the examples shown below are examples of the construction method for embodying the technical idea of the present invention, and the construction method of the present invention is such that the structure of the equipment used and the conditions of the processing steps are as follows. Not specific. Various modifications are added to the construction method of the present invention within the scope of the claims. 1 to 4 show a process of dismantling a high-rise building. As shown in FIG. 1, the part where the jack 1 is set is disassembled. The jack 1 is set in the building in an extended state. This is because the jack 1 is contracted and the building is lowered after the wall surface is disassembled. Therefore, the building jack 1
The part for setting is disassembled to a height at which the extended jack 1 can be set. Set the jack 1 on the disassembled part. The plan sectional view of FIG. 2 shows a position where the jack 1 of the building is set. The building shown in this figure has jacks 1 set at 12 locations. The jacks 1 set at 12 points are set at 6 points A and 6 points B. First, set the jack 1 at six points A. When setting the jack 1 to this part, it is possible to set all the jacks 1 after dismantling 6 parts of the building, but preferably, after dismantling one part of the building, set the jack 1 to that position. Then, dismantle another part of the building and set the jack 1 again. That is, the jack 1 is immediately set on the dismantled part of the building. Thus, if the jack 1 is set immediately after dismantling, the building can be stably supported. In order to set the jack 1, dismantle a part of the building, but dismantle a part,
The building never falls. That is because all buildings are designed to be strong enough to withstand earthquakes and typhoons. Before dismantling the first floor, set jack 1 at 6 points A. At this time, do not set a jack at point B. After setting the jack 1 at the point A shown by the solid line in FIG.
Dismantle the first floor indicated by diagonal lines in Fig. 3. As shown by the diagonal lines in FIG. 3, all the parts except the supporting part of the jack 1 are disassembled on the first floor. Then, as shown in FIG. 4, the jack 1 is contracted,
Go down the entire building. When descending the jack 1, A
All the jacks 1 set at the points are lowered together, and the building is held in a horizontal posture and lowered. After that, the jack 1 is set at the point B of the building as shown in FIG. 2 while the point A is supported by the jack 1. B
Set the extended jack 1 to the point. For this,
Remove the point B of the building and set the jack 1 on this part. After setting the jack 1 at 6 points B, remove the jack 1 at point A. In this state, the building is supported by the jack 1 at the point B. After that, after removing the portion shown by the diagonal lines in FIG. 5 except the point B, the jack 1 at the point B is contracted to lower the building. After that, the extended jack 1 is set again at the point A, the jack 1 at the point B is removed, and the portion excluding the supporting portion at the point A is disassembled. Repeat this state to dismantle all buildings. By the way, in order to set the jack 1 on the building, the jack 1 is set at a position where it supports the building and prevents the building from falling.

According to the method of dismantling a building of the present invention, the building is dismantled from the bottom to the top. That is, the building is demolished at the part closest to the ground. Therefore, in the construction method of the present invention, unlike the conventional construction method, the dismantled debris and the dismantled object do not drop from a high place and do not damage the surroundings. Moreover, it is not necessary to provide a protective plate around the building. Furthermore, there is no need to carry out dangerous dismantling work at high places,
Since the building can be dismantled from the ground, it has the feature that it can be dismantled safely and efficiently. It eliminates the need for dismantling equipment set high in the building. Another reason is that they can work on stable and safe scaffolds. Further, a remarkable feature of the present invention is that the building can be dismantled safely from the ground and also that it can be dismantled extremely economically. This is extremely important for the demolition of buildings. The reason is that even if a building is dismantled at high cost, nothing remains after the dismantling. The high cost of dismantling is extremely wasteful economically.
According to the construction method of the present invention, a local part of a building is disassembled, a jack is attached to the disassembled portion, the building is directly supported by the jack, and the building is disassembled from the lower part. In this construction method, unlike the conventional construction method in which the building is dismantled from below, it is not necessary to support the building with a truss or the like so as not to fall. In the conventional method of supporting a building with a truss and dismantling it from the bottom, it is necessary to design the strength of the truss and the strength of connecting the truss to the building to be extremely strong in order to support the extremely heavy and tall building. . This is because the truss supports the building with the lower part of the building dismantled. Therefore, extremely expensive equipment costs are required to construct the truss. This is because it supports heavy, high, and unstable buildings so that they will not fall. On the other hand, according to the building dismantling method of the present invention, a local portion of the building is disassembled and a jack is attached to the dismantling portion without using a truss. The building will not fall down even if the local parts are dismantled. This is because it is designed so as not to fall due to a typhoon or an earthquake. The construction method of the present invention in which the jack is attached to the demolition of the building and the building is directly supported by the jack uses the portion of the building that is not disassembled as the truss. The parts of the building that are not dismantled are strong enough. Therefore, according to the construction method of the present invention, the jack can be directly attached to the building and the portion where the jack is not attached can be disassembled without using a truss unlike the conventional construction method, and the building can be disassembled in order from the bottom. Therefore, the construction method of the present invention is
It has the outstanding feature of being able to safely dismantle a building at low cost without using a truss that is extremely expensive to build.

[Brief description of drawings]

1 to 5 are schematic sectional views of a building dismantling method showing an embodiment of the present invention, and FIG. 6 is a sectional view showing a conventional building dismantling method. 1 ... jack, 2 ... truss

Claims (1)

[Claims] 1. A method of dismantling a building, in which a building is disassembled from a lower portion while being supported by a jack (1) and the entire building is lowered by the jack (1). Dismantle and install the jack (1) on the dismantled part, the jack (1) mounted on the dismantled part supports multiple parts of the building, and the jack (1) damages the unsupported building part and the jack (1) ) Is contracted to lower the entire building.