JP4191357B2 - Structure for preventing collapse of structures - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a structure for preventing collapse of a structure that prevents the structure from collapsing.
[0002]
[Prior art]
For example, a reinforced concrete building (structure) has various design features or practical features based on the environment of the construction site or the request of the owner. Some have continuous space portions (for example, pilotis used for indoor parking lots).
In such a structure, the upper housing is supported almost exclusively by pillars, so it collapses when an external force such as an earthquake is applied compared to a structure that supports the upper housing by columns and walls. There is a problem that it is easy to do.
[0003]
Therefore, in order to prevent collapse caused by earthquakes and the like in such structures, in recent years, for example, the diameter and number of columns have been increased to improve the strength of the structure itself, Have been made to combine.
[0004]
[Problems to be solved by the invention]
However, since the above conventional method is directly related to the structure of the structure, that is, related to the design concept of the structure, the seismic resistance of the entire structure is required when adopting the method as a part of the structure. It becomes necessary to consider the performance and rigidity balance. Further, since existing structures cannot be reviewed from the design stage, there is no effective means for easily preventing the above-described collapse of the structures.
In view of the above circumstances, an object of the present invention is to provide a structure for preventing a structure from collapsing with a simple structure.
[0005]
[Means for Solving the Problems]
In order to solve the above-described problems, the structure for preventing collapse of a structure according to claim 1, for example, as shown in FIGS. 1 and 4, is provided on a floor 4 and supports columns 1 a and 5 a above. A collapse preventing structure for preventing the collapse of a structure provided with supports 2 and 6 such as walls, wherein reinforcing support members 10 and 30 are arranged around the supports 2 and 6 with the supports 2 and 6. It is characterized in that it is installed on the floor part 4 so as to surround it with a gap and with a predetermined gap between the lower parts of the casings 1a, 5a.
[0006]
Here, the structure may be of any structural type as long as it is provided with a support that is erected on the floor and supports the housing of the upper cloth. In addition, the structure may be used for any purpose.
Moreover, as said support body, there exist what connected the pillar and the wall other than a pillar and a wall, for example.
In addition, as the reinforcing support member, for example, there is a reinforcing support member according to claim 2, but this reinforcing support member may be installed on the floor in parallel with the construction of the structure, or The existing structure may be installed on the floor.
Further, a cushioning material such as rubber may be provided on the upper surface of the reinforcing support member.
[0007]
2. The structure for preventing collapse of a structure according to claim 1, wherein the reinforcing support member surrounds the periphery of the support body with a predetermined distance from the support body and between the lower portion of the housing. Since it is installed on the floor portion with an interval, when an external force such as an earthquake acts on the support or the housing, the external force is not directly transmitted from the support or the housing to the reinforcing support member. Therefore, the reinforcing support member is not damaged by the vibration of the support or the casing.
[0008]
And even if the support cannot support the housing due to an external force such as an earthquake and the support collapses and the housing is about to fall on the floor, the support is supported by the reinforcing support member. I can leave.
Furthermore, since the reinforcing support member is installed on the floor so as to surround the support body at a predetermined distance from the support body, even if the support body is deformed by an external force such as an earthquake, Since the deformed support body can be supported by the reinforcing support member, the support body is not further deformed. Accordingly, since the support can be prevented from being excessively deformed, the support collapses due to the excessive deformation of the support (the support collapses due to the external force or the weight of the casing). Can be prevented.
That is, collapse of the structure can be prevented with a simple structure.
In addition, since the reinforcing support member is provided so as to surround the periphery of the support body, a space portion between the support body and the housing is not greatly narrowed.
[0009]
Here, by providing a cushioning material such as rubber on the upper surface of the reinforcing support member, the following effects can be obtained. That is, since the shock absorbing material absorbs the shock applied to the reinforcing support member by the casing that has fallen due to the collapse of the support, the shock is not directly transmitted to the reinforcing support member.
[0010]
In the structure for preventing collapse of the structure according to claim 2, for example, as shown in FIGS. 1 and 2, the structure for preventing collapse of the structure according to claim 1,
The reinforcing support member 10 includes a plurality of support pillars 12 erected on the floor 4 so as to surround the support 2, and
The support pillars 12 are connected to the support body 2 in the circumferential direction of the support 2.
Here, as the support pillar and the connecting frame, for example, a steel pipe, an angle material (an angle steel), or an H-shaped steel can be used.
[0011]
3. The structure for preventing collapse of a structure according to claim 2, wherein the plurality of support columns are erected on a floor so as to surround the support, the connection frame is connected to the support column and the support column is surrounded by the periphery of the support. The reinforcing support member can be easily assembled by providing it so as to be connected in the direction.
In addition, since the plurality of support pillars are connected by the connection frame, that is, since the plurality of support pillars are integrated by the connection frame, the reinforcement support is provided as compared with the case where there is no connection frame. The strength of the member can be improved.
[0012]
In the structure for preventing collapse of the structure according to claim 3, the structure for preventing collapse of the structure according to claim 1, for example, as shown in FIGS.
The reinforcing support member 30 has a cylindrical shape, and is installed on the floor portion 4 so as to pass the support body 6 through the hollow portion.
Here, examples of the reinforcing support member having the cylindrical shape include a steel pipe column and a cylindrical reinforced concrete column.
[0013]
And as a method of installing such a reinforcement support member in a floor, there exist the following, for example. That is, if the support pillar is installed on the floor in parallel with the construction of the structure, the support pillar is erected in advance at the position where the support is erected on the floor, and the support pillar If the support column is installed on the floor in an existing structure, the support column is divided into a plurality of members in the circumferential direction. There is a method in which a plurality of members are erected on the floor so as to surround the periphery of the support and the members are connected to each other.
[0014]
In the structure for preventing collapse of a structure according to claim 3, the reinforcing support member has a cylindrical shape and is installed on the floor portion so as to pass the support through the hollow portion. The work of installing the reinforcing support member on the top becomes easy. That is, the reinforcing support member having the cylindrical shape can be easily installed on the floor portion by installing the reinforcing support member in the cylindrical shape on the floor portion so that the support is passed through the hollow portion. In addition, the structure for preventing collapse of the structure has a configuration in which the periphery of the support body is surrounded by a cylindrical reinforcing support member, and thus the appearance design is good.
[0015]
Further, the reinforcing support member has a cylindrical shape, and is installed on the floor portion so that the support body is passed through the hollow portion. In other words, the support body is a reinforcing support having the cylindrical shape. Since the support is deformed by an external force such as an earthquake, the deformed support is compared with the structure for preventing collapse of a structure according to claim 2 because the support is deformed by an external force such as an earthquake. Thus, it can be supported more firmly.
[0016]
The structure for preventing collapse of a structure according to claim 4 is the structure for preventing collapse of a structure according to claim 3, for example, as shown in FIG.
A gap between the support 6 and the reinforcing support member 30 is filled with powder particles (steel balls) 40.
[0017]
According to the structure for preventing collapse of a structure according to claim 4, since the gap between the support and the reinforcing support member is filled with the granular material, the support is supported by an external force such as an earthquake. Even if the support cannot be supported and the support is collapsed and the support is about to fall onto the floor, the support can be supported by the reinforcing support member and the granular material.
Therefore, as compared with the structure for preventing collapse of a structure according to claim 3, the housing can be supported more reliably and the load on the housing applied to the reinforcing support member can be reduced. The housing can be supported even if the member is somewhat thin.
Here, the powder particles have a smooth surface so that they can move to some extent inside the gap in accordance with the deformation of the support, and can receive a sufficient load from the casing. What can be made, such as a steel ball, is desirable.
[0018]
The structure for preventing collapse of a structure according to claim 5 is, for example, as shown in FIGS. 3 and 6, in the structure for preventing collapse of a structure according to claim 1,
Support beams 20... Are laid substantially horizontally on reinforcing support members 10... 30 provided around a plurality of adjacent supports 2 and 6.
Here, as the support beam, for example, an angle material (an angle steel) or an H-shaped steel can be used. Such a support beam is preferably installed on the reinforcing support member of the adjacent support so as to be arranged below the floor beam constituting the lower part of the housing.
[0019]
In the structure for preventing collapse of a structure according to claim 5, since the support beam is installed substantially horizontally on the reinforcing support member provided around each of the plurality of adjacent supports, the support and the housing are When the support cannot fully support the housing due to an external force such as the above, the housing can be supported by the reinforcing support member and the support beam even if the housing is about to fall. . Therefore, as compared with the structure for preventing collapse of the structure according to claims 1 to 4, the casing can be supported more reliably.
[0020]
And since the said support beam can support the housing arrange | positioned between the said support bodies, the space | interval of the said support bodies is comparatively large, and only the said reinforcement support member is between the said support bodies. Even when it is difficult to effectively support the arranged housing, the housing can be easily and reliably supported.
[0021]
Further, since the support beams are installed substantially horizontally on the adjacent reinforcement support members, in other words, the adjacent reinforcement support members are connected to each other by the support beams, so that the support body is deformed by an external force such as an earthquake. In this case, the deformed support body can be more firmly supported by the reinforcing support member as compared with the structure for preventing collapse of a structure according to any one of claims 1 to 4.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
<First Embodiment>
The first embodiment of the present invention will be described below with reference to the drawings.
In the first embodiment, as shown in FIGS. 1 to 3, the structure collapse prevention structure is applied to the existing piloty 1. 1 is a front view showing an aspect of the reinforcing support member 10 installed on the floor 4 in the piloty 1, FIG. 2 is a plan sectional view in FIG. 1, and FIG. 3 is an adjacent reinforcing support. It is a front view including the partial cross section which showed the aspect by which the support beam 20 ... was constructed by the member 10 ....
[0023]
Here, the piloti refers to a colonnade space that is continuous with the outside without surrounding the first floor portion of the structure with the outer wall. In FIG. 1, the space between the housing 1 a and the floor 4 is a piloti 1. And in the piloty 1, the pillar (support body) 2 ... standingly arranged in the floor part 4 is supporting the upper housing 1a.
In the structure for preventing collapse of the structure according to the present embodiment, the reinforcing support members 10... Surround the pillars 2. It is installed on the floor portion 4 with a predetermined interval between it and the floor beam 3, and the support beams 20 are laid substantially horizontally on adjacent reinforcing support members 10. First, the reinforcing support member 10 will be described with reference to FIGS.
[0024]
The reinforcing support member 10 includes support columns 12... And connection frames 13.
The support pillars 12 are members that are erected on the floor 4 so as to surround the pillar 2. These support pillars 12 are composed of a pillar part 12a made of a long steel pipe having a rectangular cross section and a fixed plate part 14 provided at the base end part of the pillar part.
[0025]
Further, the length of the support pillars 12 is set to be shorter than the height from the floor 4 to the floor beam 3, and when the support pillars 12 are erected on the floor, the support pillars 12. A predetermined interval is formed between the upper part of the pillars 12... And the floor beam 3.
Further, the side end portion of the fixed plate portion 14 protrudes radially outward of the support column 12, and a through-hole penetrating the fixed plate portion 14 in the thickness direction is formed at the side end portion. .
[0026]
The support column 12 is erected on the floor 4 by the following method. That is, the support column 12 is erected such that the fixed plate portion 14 abuts on the floor portion 4 and surrounds the column 2 with a predetermined interval from the column 2. Then, the anchor bolts 15... Are screwed into the floor portion 4 from the fixing plate portions 14 of the support pillars 12 through the through holes to fix the support pillars 12 to the floor portion 4, so that the support pillars 12 are floor portions. 4 is erected.
[0027]
The connection frame 13 is a member provided on the support pillars 12 so as to connect the support pillars 12 erected on the floor 4 in the circumferential direction of the pillars 2.
As shown in FIG. 2, the connecting frame 13 is composed of angle members 13a ... and angle members 13b ... and is provided on the support pillars 12 ... as follows. .
[0028]
That is, the tip of the angle member 13a and the tip of the angle member 13b are abutted so that the angle member 13a and the angle member 13b are perpendicular to each other. The angle members 13a... And the angle members 13b... Are connected and the connecting portions are welded, while the angle members 13a... And the angle members 13b. The connection frame 13 is provided on the support columns 12... By connecting the support columns 12.
[0029]
As shown in FIG. 1, such a connection frame 13 is provided at a predetermined position of the support column 12, in addition to the upper end portion of the support column 12. In addition, a plate-like rubber 16 (buffer material) is provided over the front end surface of the support pillar 12... And the upper end face of the connection frame 13 provided at the upper end of the support pillar 12. It has been.
[0030]
As shown in FIG. 3, the support beams 20 are members that are laid substantially horizontally on adjacent reinforcing support members 10.
The support beam 20 is a long H-shaped steel, and although not shown in the figure, flange portions that protrude outward in the radial direction of the support beam 20 are formed at both ends thereof. The support beam 20 is joined to the reinforcing support member 10 by the following method.
[0031]
That is, the flange portion is brought into contact with the outer side surface of the support column 12, a bolt is screwed into the support column 12 from the flange portion, and the tip portion of the bolt protruding to the support column 12 side is tightened with a nut, The support beam 20 is joined to the reinforcing support member 10 by welding a contact portion with the support column 12.
[0032]
According to the present embodiment, the following effects can be obtained. That is, the reinforcing support members 10... Surround the pillars 2... At a predetermined interval with the pillars 2. Therefore, when an external force such as an earthquake acts on the pillar 2 or the upper housing 1a, the external force is applied from the pillar 2 ... or the housing 1a to the reinforcing support member 10. There is no direct transmission. Therefore, the reinforcing support member 10 is not damaged by the vibration of the pillars 2.
[0033]
And even if the pillar 2 ... cannot support the housing 1a due to an external force such as an earthquake, the pillar 2 ... collapses and the housing 1a tries to fall on the floor portion 4, The casing 1a can be supported by the reinforcing support members 10.
Here, since the rubber 16 is provided on the upper surface of the reinforcing support member 10..., The rubber 16 absorbs the impact applied to the reinforcing support member 10 by the casing 1 a that has been dropped. There is no transmission to the reinforcing support member 10.
[0034]
Furthermore, since the reinforcing support members 10 are installed on the floor 4 so as to surround the pillars 2 with a predetermined interval around the pillars 2. Even if the columns 2... Are deformed, the deformed columns 2... Can be supported by the reinforcing support members 10. Therefore, since it is possible to prevent the columns 2... From being excessively deformed, the columns 2... Collapse due to the excessive deformation of the columns 2. Or collapse due to its own weight. Here, since the adjacent reinforcing support members 10 are connected to each other by the support beams 20..., The deformed columns 2. The reinforcing support members 10... And the support beams 20.
Therefore, collapse of the structure can be prevented with a simple structure.
[0035]
Furthermore, since the reinforcing support members 10 are provided so as to surround the pillars 2..., The space portion of the piloty 1 is not greatly reduced.
Further, since the supporting beams 20 are laid almost horizontally on the adjacent reinforcing support members 10..., An external force such as an earthquake acts on the pillars 2. When the pillars 2... Can no longer support the housing 1 a, the housing 1 a is supported by the reinforcing support members 10 and the support beams 20. Therefore, the housing 1a can be more reliably supported as compared with the case where the support beams 20 are not provided.
[0036]
In particular, since the support beams 20 can support the housing 1a disposed between the columns 2 ..., the interval between the columns 2 ... is relatively large, Even if it is difficult to effectively support the housing 1a disposed between the pillars 2 ... only with the reinforcing support members 10 ..., the housing 1a is supported easily and reliably. I can keep it.
[0037]
In addition, an advantageous effect can be obtained as compared with the second embodiment. That is, in the present embodiment, the plurality of support pillars 12 are erected on the floor 4 so as to surround the pillars 2..., And the connection frame 13. By providing the columns 12... So as to be connected in the circumferential direction of the columns 2..., The reinforcing support members 10. Since the plurality of support pillars 12 are integrated, the strength of the reinforcing support members 10 can be improved as compared with the case where there is no connection frame 13.
[0038]
<Second Embodiment>
Next, a second embodiment of the present invention will be described with reference to FIGS. 4 is a front view showing an aspect of the reinforcing support member 30 installed on the floor 4 in the piloti 5, FIG. 5 is a plan sectional view in FIG. 4, and FIG. 6 is an adjacent reinforcement. It is a front view including the partial cross section which showed the aspect by which the support beam 20 ... was constructed by the support member 30 ....
[0039]
The structure for preventing collapse of the structure of the present embodiment is different from the structure for preventing collapse of the structure of the first embodiment in that the reinforcing support member 10 of the first embodiment is provided with support columns 12. .. And the connecting frame 13..., Whereas the reinforcing support member 30 of the present embodiment has a cylindrical shape as shown in FIGS. 4 and 5. Is a point.
Therefore, the difference will be described in detail below, and the same components as those in the first embodiment are denoted by the same reference numerals and description thereof will be omitted.
[0040]
Also in the present embodiment, as shown in FIGS. 4 to 6, the structure collapse prevention structure is applied to the existing piloti 5. However, columns (supports) 6... Constituting the piloty 5 according to the present embodiment are cylinders. And in the piloty 5, the pillar 6 ... standingly arranged in the floor part 4 is supporting the upper housing 5a.
In the structure for preventing collapse of a structure according to the present embodiment, a plurality of reinforcing support members 30 are installed on the floor 4, and steel balls 40... Are formed in the gaps between the columns 6 and the reinforcing support members 30. Support beams 20 are laid substantially horizontally on the adjacent reinforcing support members 30 that are filled.
First, the reinforcing support member 30 and the steel balls 40 will be described with reference to FIGS.
[0041]
The reinforcing support member 30 has a cylindrical shape, and is installed on the floor so that the column 6 passes through the hollow portion.
The reinforcing support member 30 is formed by abutting arcuate plate-shaped enclosure members 32 and 32 with each other. First flange portions 33, 33 projecting radially outward of the enclosure member 32 are formed at both end portions of the enclosure member 32, and the first flange portion 33 is formed with a thickness of the first flange portion 33. A plurality of bolt holes penetrating in the direction are formed in the length direction of the surrounding member 32.
[0042]
Further, a second flange portion 34 that protrudes radially outward of the surrounding member 32 is formed at the proximal end portion of the surrounding member 32. In the second flange portion 34, anchor bolt through holes that penetrate the second flange portion in the thickness direction are formed at predetermined positions.
[0043]
And the said reinforcement support member 30 is installed in the floor part 4 with the following method. That is, one of the surrounding members 32, 32 is placed on the floor 4 with the inner peripheral surface facing the pillar 6 at a position spaced apart from the pillar 6 by a predetermined distance, and the second flange From the portion 34, the anchor bolts 37, 37, 37 are screwed into the floor portion 4 through the anchor bolt through holes.
[0044]
Next, the other enclosing member 32 is erected on the floor portion 4 such that the first flange portion 33 abuts against the first flange portion 33 of the one enclosing member 32, and the anchor bolt 37, 37, and 37 are screwed into the floor portion 4 through the anchor bolt through holes.
[0045]
On the other hand, the bolts 35... Are passed from the first flange portion 33 of the one enclosing member 32 through the bolt holes to the first flange portion 33 of the other enclosing member 33, and the bolts 35. The reinforcing support member 30 is installed on the floor portion 4 by projecting from the surface of the first flange portion 33 of the other covering member 33 and tightening the tip of the bolts 35 with nuts 36. .
A plate-shaped rubber (buffer material) 38 is provided over the upper end surface of the reinforcing support members 30.
[0046]
The steel balls 40 are filled in a gap between the column 6 and the reinforcing support member 30. The steel balls 40... Have a smooth surface so that they can move to some extent within the gap in accordance with the deformation of the pillars 6 and can receive a sufficient load from the housing 5a. It has become.
The steel balls 40 are filled in the gap between the column 6 and the reinforcing support member 30 by pouring the steel balls 40 through the opening at the upper end of the reinforcing support member 30. ing. Therefore, the steel balls 40 are not packed so densely in the gap. This is because the steel balls 40... Inside the gap are deformed when the column 6 is deformed by an external force such as an earthquake. This is because it can move to some extent according to the deformation of the pillar 6.
[0047]
The support beam 20 is joined to the reinforcing support member 30 in substantially the same manner as in the first embodiment. That is, the end of the support beam 20 and the flange portion are brought into contact with a predetermined position on the enclosure member 32, and the bolt is screwed into the enclosure member 32 through a bolt hole formed in the flange portion, whereby the support beam 20 is It is joined to the column enclosure 31.
[0048]
According to the structure for preventing collapse of a structure according to the present embodiment, the same effect as that of the first embodiment can be obtained, and an effect peculiar to the present embodiment can also be obtained.
That is, the reinforcing support members 30... Having the cylindrical shape are installed on the floor portion 4 so that the pillars 6. It can be easily installed on the floor 4. In addition, the structure for preventing collapse of a structure according to the present embodiment has a configuration in which the periphery of the pillars 6 is surrounded by cylindrical reinforcing support members 30. Also good.
[0049]
Further, since the pillars 6 ... are almost completely surrounded by the cylindrical reinforcing support members 30 ..., when the pillars 6 ... are deformed by an external force such as an earthquake, the reinforcement support is provided. The deformed pillars 6 can be more firmly supported by the members 30 than the first embodiment.
[0050]
Furthermore, since the gap between the pillar 6 and the reinforcing support member 30 is filled with steel balls 40..., The pillar 6 cannot support the housing 5a due to an external force such as an earthquake. Even if 6 collapses and the housing 5a is about to fall on the floor 4, the housing can be supported by the reinforcing support member 30 and the steel balls 40.
Therefore, as compared with the case where there is no steel ball 40..., The housing 5 a can be more reliably supported and the load of the housing 5 a applied to the reinforcing support member 30 can be reduced. Even if the member 30 is somewhat thin, the housing can be supported.
[0051]
In the above embodiment, the structure collapse prevention structure is applied to the piloti. However, the present invention is not limited to this, and the upper floor portion of the structure is surrounded by the outer wall. You may apply to the space which is not.
Moreover, you may apply to the structure of another structure type structure, for example, the structure provided with the part which supports the upper housing with the wall, or the part which supports the upper housing with the pillar and the wall. Here, when an opening portion such as a window or a door is provided on the wall, the reinforcing support member is provided avoiding the opening portion such as a window or a door, or at a portion facing the opening portion. The reinforcing support member may be provided with an opening.
[0052]
Further, in the second embodiment, the cylindrical reinforcing support member 30 is used. However, the present invention is not limited to this, and the reinforcing support member having a cylindrical shape according to the cross-sectional shape of the column. The shape of can be changed. For example, if the column has a rectangular cross section, a reinforcing support member having a rectangular cross section may be used.
[0053]
【The invention's effect】
As described above, according to the first aspect of the present invention, when an external force such as an earthquake is applied to the column or the case, the external force is not directly transmitted from the column or the case to the reinforcing support member. Therefore, the reinforcing support member is not damaged by the vibration of the column or the frame.
[0054]
And even if the pillar cannot support the casing due to an external force such as an earthquake, and the pillar collapses and the casing tries to fall on the floor, the reinforcing support member supports the casing. Can do.
Furthermore, since the reinforcing support member is installed on the floor so as to surround the pillar with a predetermined distance from the pillar, even if the pillar is deformed by an external force such as an earthquake, the pillar is deformed. Since the column can be supported by the reinforcing support member, the column is not further deformed. Therefore, since it is possible to prevent the column from being excessively deformed, it is possible to prevent the column from collapsing due to excessive deformation of the column (the column collapsing due to the external force or the weight of the casing). it can.
That is, collapse of the structure can be prevented with a simple structure.
[0055]
In addition, since the reinforcing support member is provided so as to surround the periphery of the column, a space portion between the column and the housing is not greatly narrowed.
Furthermore, the following effects can be obtained by providing a cushioning material such as rubber on the upper surface of the reinforcing support member. In other words, the shock absorbing material absorbs the shock applied to the reinforcing support member by the falling casing, so that the shock is not directly transmitted to the reinforcing support member.
[0056]
According to the second aspect of the present invention, the same effect as in the first aspect can be obtained, and the plurality of support columns are erected on the floor so as to surround the columns, and The reinforcing support member can be easily assembled by providing the connection frame so that the support columns are connected in the circumferential direction of the columns.
In addition, since the plurality of support pillars are connected by the connection frame, that is, since the plurality of support pillars are integrated by the connection frame, the reinforcement support is provided as compared with the case where there is no connection frame. The strength of the member can be improved.
[0057]
According to the third aspect of the present invention, the same effect as that of the first aspect can be obtained, and the operation of installing the reinforcing support member on the floor is facilitated. That is, the reinforcing support member having the cylindrical shape can be easily installed on the floor portion by installing the reinforcing support member having the cylindrical shape on the floor portion so that the column passes through the hollow portion. Moreover, since the structure for preventing collapse of the structure has a configuration in which the periphery of the column is surrounded by a cylindrical reinforcing support member, the appearance design is good.
[0058]
Further, since the column is almost completely surrounded by the cylindrical reinforcing support member, the deformed column is formed by the reinforcing support member when the column is deformed by an external force such as an earthquake. The structure can be supported more firmly than the structure for preventing the structure from collapsing.
[0059]
According to the fourth aspect of the invention, the same effect as in the third aspect can be obtained, and the pillar cannot be supported by the external force due to an earthquake or the like, so that the pillar collapses and the casing is collapsed. Even if it is about to fall on the floor part, the casing can be supported by the reinforcing support member and the granular material.
Therefore, as compared with the structure for preventing collapse of a structure according to claim 3, the housing can be supported more reliably and the load on the housing applied to the reinforcing support member can be reduced. The housing can be supported even if the member is somewhat thin.
[0060]
According to the fifth aspect of the present invention, it is possible to obtain the same effect as any one of the first to fourth aspects, as well as an external force such as an earthquake acting on the column and the frame, and the column is Even when the casing cannot be supported, even if the casing is about to fall, the casing can be supported by the reinforcing support member and the support beam. Therefore, as compared with the structure for preventing collapse of the structure according to claims 1 to 4, the casing can be supported more reliably.
[0061]
Further, even when the interval between the columns is relatively large and it is difficult to effectively support the casings arranged between the columns with only the reinforcing support member, the casings can be easily and It can be reliably supported.
Furthermore, since the adjacent reinforcing support members are connected by the support beam, when the column is deformed by an external force such as an earthquake, the deformed column is defined by the reinforcing support member and the support beam. 4 can be supported more firmly than the structure for preventing collapse of a structure described in any one of 4 above.
[Brief description of the drawings]
FIG. 1 is a front view showing an aspect of a reinforcing support member installed on a floor in a piloti.
2 is a cross-sectional plan view in FIG. 1. FIG.
FIG. 3 is a front view including a partial cross section showing a mode in which a support beam is installed on adjacent reinforcing support members.
FIG. 4 is a front view showing an aspect of a reinforcing support member installed on the floor in the piloti.
5 is a cross-sectional plan view in FIG. 4. FIG.
FIG. 6 is a front view including a partial cross section showing a mode in which a support beam is installed on adjacent reinforcing support members.
[Explanation of symbols]
1,5 piloti (space part)
1a, 5a Upper housing
2,6 pillars
3 Floor beams (lower part of upper frame)
4 floors
10, 30 Reinforcing support member
12 Support pillar
13 Connecting frame
20 Support beam
40 Steel balls (powder)

Claims (5)

A structure for preventing collapse of a structure provided with a support such as a pillar or a wall that is erected on the floor and supports the upper housing,
A reinforcing support member is installed on the floor so as to surround the support body with a predetermined distance from the support body and with a predetermined distance between the lower part of the housing. A structure that prevents the structure from collapsing. In the structure for preventing collapse of a structure according to claim 1,
The reinforcing support member includes a plurality of support columns erected on the floor so as to surround the support,
A structure for preventing collapse of a structure, comprising: a connecting frame that connects these support columns in the circumferential direction of the support. In the structure for preventing collapse of a structure according to claim 1,
The structure for preventing collapse of a structure is characterized in that the reinforcing support member has a cylindrical shape and is installed on the floor portion so as to pass the support through the hollow portion. In the structure for preventing collapse of a structure according to claim 3,
A structure for preventing collapse of a structure, characterized in that a gap between the support and the reinforcing support member is filled with a granular material. In the structure for preventing collapse of a structure according to any one of claims 1 to 4,
A structure for preventing collapse of a structure, characterized in that a support beam is installed substantially horizontally on a reinforcing support member provided around each of a plurality of adjacent supports.

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