KR101380202B1 - Calamity safety building with safety room function - Google Patents

Abstract

The object of the present invention is to provide a safety building that rescues lives during a disaster, and the construction of a safety building that rescues lives during a disaster according to the present invention provides an interior space in the form of a buffered air room in which a person enters and resides therein. A safety room 20 provided; A plurality of air balls 30 connected to form an inside of the air ball panel constituting the safety room 20 as a bubble chamber filled with air; The air of the safety room 20 by being connected to each of the air balls 30 and at the same time connected to an air supply unit 42 to supply air to each of the air balls 30 from the air supply unit 42. It characterized in that it comprises an air supply pipe 40 for forming the inside of the ball panel as a bubble chamber.

Description

Calamity safety building with safety room function

The present invention relates to a disaster safety building having a safety room function to save lives during a disaster, and more particularly, it can be safely accommodated and protected inside a building without occurrence of collapse or collapse in the event of an earthquake or tsunami. It's a new concept of disaster safety building that can proactively prevent catastrophic life-threatening events, such as a person's loss of life or loss of life, at the time of occurrence.

When disasters such as fires, tsunamis and earthquakes occur in homes or offices, people instinctively evacuate out of the building. In this case, people are swept away by rapids or buried in piles of buildings. In fact, even in the case of tsunami in Japan in 2011, about 90% of deaths were caused by drowning. Experts recommend that in the event of a disaster such as an earthquake, hide under a desk or a solid structure inside the building, rather than evacuating out of the building. In the case of tsunamis in Japan, some survivors have been saved by evacuating to enclosed spaces such as vehicles.

However, there are a variety of evacuation equipment that can be used during an emergency disaster such as an earthquake or tsunami, but it is difficult to use the elderly or disabled people who can use it with constant training or have difficulty in mobility. It is very difficult for an individual to prepare in their daily lives, and many casualties are caused during disasters such as earthquakes and tsunamis.

Meanwhile, natural disasters such as earthquakes and floods have become stronger and more frequent, not only in Japan, but also worldwide. As a result, many property damages, as well as deaths and missing persons, have caused an increasing number of casualties. have.

However, there are evacuation facilities that can be evacuated in case of natural disasters, but the facilities are poor, and most people do not know where they are located, and if the distance from the event site to the evacuation facility is far, Personal injury may result. In addition, there are actions to be taken when various natural disasters occur, but not everyone is accustomed to such behaviors, and even if you are familiar with the actions, if you are embarrassed when a natural disaster occurs, you may have a life-saving accident. .

Also, if natural disasters such as earthquakes, floods, and tsunamis occur at night or at dawn, many people who go to bed may be exposed to accidents without any evacuation, resulting in enormous casualties.

Therefore, in case of disasters such as earthquakes, floods, tsunamis and explosions, earthquakes or tsunamis, etc. as they are inside a residential building without the need for people to evacuate their lives from dangerous situations. There is an urgent need for means to protect people from safety, and the provision of safeguards against disasters that meet these demands will greatly help them to live safer from disasters such as earthquakes and tsunamis. .

The present invention was developed to solve the problems described above, and an object of the present invention is to securely accommodate and protect the interior of the building without causing collapse or flooding of the building in the event of an earthquake or tsunami, so that a human A new concept of disaster safety that can significantly contribute to the prevention of catastrophic deaths, such as the loss of life due to an earthquake or tsunami, as long as you stay inside the building without having to evacuate. To provide a building.

According to the present invention for solving the above problems, the safety room (20) having an indoor space in the form of a buffered air room in which people enter and live therein; A plurality of air balls 30 connected to form an inside of the air ball panel constituting the safety room 20 as a bubble chamber filled with air; The air ball of the safety room 20 is connected to each of the air balls 30 and simultaneously connected to an air supply unit 42 to supply air to each of the air balls 30 from the air supply unit 42. There is provided a disaster safety building having a safety room function to save lives in a disaster, comprising an air supply pipe 40 forming a panel inside a bubble chamber.

The air ball 30 is preferably composed of an outer surface of the heat-resistant outer shell material.

The safety room 20 is composed of a plurality of individual air ball panel is connected, the air ball panel is the inner sheet member 32 and the outer sheet member 34 surrounding the plurality of interconnected air ball 30 from both sides The air ball panel is compactly slim in the state where air is removed from the air ball 30, and when the air ball 30 is filled with air, the air ball panel swells to a predetermined thickness so that the safety room It is preferable to become a panel shape for forming (20).

The air ball 30 is configured in a variety of shapes having a side joining portion, when the air ball 30 to form a plurality of the air ball panel of the safety room 20 by connecting a plurality of joining means between the side joints It is characterized by being bonded to each other via a medium.

The lower portion of the safety room 20 is preferably provided with a balance support 50 that can be filled with water to hold the center of the building during the disaster to prevent the building from falling.

The safety room 20 is formed by connecting the air ball panel in the form of a room where a person resides, and the outer support structure 24 forming the exterior of the building may be provided on the outside of the safety room 20.

The safety room 20 and the shell support structure 24 constitute a building, which is supported by a support post 60 of a structure that is flexible to the ground, and the lower part of the building is located around the building. Underground building receiving portion 26 is provided with a communication opening on the upper side, the lower part of the building is accommodated in the upper space of the upper side of the basement building receiving portion 26, such as tsunami water When the disaster is filled with the underground building receiving portion 26 provided below the building, the building is configured to float buoyantly over the water filled in the underground building receiving portion 26, When injured, the supporting post 60 is elongated to support the building so as to stably float.

According to the present invention, the safety room, which is the main part, forms a fluffy buffered air room where people can live safely and comfortably inside the building, so that during a disaster such as an earthquake or tsunami, a person stays in the building without having to evacuate to another safe place. Even if it is possible to protect people from earthquakes or tsunamis, there is a significant meaning that it can eradicate safety accidents that are lost due to earthquakes and tsunami damage.

In the event of an earthquake, the building is often collapsed, but even if the disaster safety building of the present invention is collapsed due to the earthquake, people are protected by a safe room such as a fluffy air room. This can reliably prevent people from losing their lives or causing serious injuries. In particular, the present invention is provided with a balance support for centering the lower part of the building, even if the building shakes during the earthquake, because the balance support to catch and mitigate this shaking load, the building is almost collapsed due to the earthquake As a result, it has the advantage of safer and more reliable rescue of people's lives against earthquakes.

According to the present invention, the safety room inside the building is a large ball filled with air so that a tsunami is pushed, the entire building automatically floats on the approaching water during the tsunami, and the building and the people in it sink in the water. Because it prevents the accident, drowning accidents caused by the tsunami completely and surely has the advantage that can greatly help to save a lot of lives. Particularly, in the present invention, when a part of the building is inserted into a building receiving portion further provided under the building and water is pushed in by the tsunami generation, the building accommodation disposed below the building (that is, under the safety room and the outer support structure) is included. As water enters the wealth and the water rises from the building's receptacles, the building rises more quickly, thus preventing the tsunami from sinking into the building and its occupants more quickly and reliably. Due to the inundation of water, people have the advantage of completely preventing the loss of life.

In addition, the support posts that support the building can be stretched to varying lengths, so that the support posts can be stretched to different lengths according to the size of the tsunami so that the building (i.e. the part of the safety room containing people) is always on the water. As a result, it can be more helpful in preventing human injury from flooding.

In addition, in case the height of the tsunami is so great that the height of the incoming water exceeds the extension range of the support post, the uppermost sliding support pipe of the multi-stage sliding support pipe constituting the support post can be configured to be removed. If the building (i.e. the building's safety room and its outer sheath support structure) is completely separated from the ground, the building floats on water and protects the people in the safety room. In the case of a balanced support in the form of the bellows, when the water is filled inside the bellows pipe, the bellows pipe spread like a column of water under the load by the load of the water can balance the building. Can be prevented from doing so To have the advantage of being able to protect people from more safely and securely contained under water. The same effect is also provided when a rubber ball is provided below the building to form the balance support 50.

In addition, if you take the air ball panel for the construction of the safety room folded in a compact size to the construction site of the disaster safety building of the present invention, and then inject air into the plurality of air balls through the air supply unit and the air supply pipe, Since a safety room in which a person can reside can be formed inside, it is better also in field workability. That is, the air ball panel for forming a safety room, which is the main part of the present invention, is folded into a compact and slim size and moved to the site, and upon reaching the site, air is injected into each air ball to directly form the air ball panel on the site. Since it can be loosened, the advantages such as more convenient in the field construction can be expected.

1 is a longitudinal sectional view schematically showing the configuration of a disaster safety building according to an embodiment of the present invention
Figure 2 is a longitudinal sectional view schematically showing the configuration of a modified embodiment of the safety room which is an essential part of the present invention;
Figure 3 is a longitudinal sectional view schematically showing the configuration of another modified embodiment of the safety room which is an essential part of the present invention;
4 is a view conceptually showing the structure of an air ball, an air supply pipe, and an air supply unit constituting a safety room which is a main part of the present invention;
5 is a longitudinal sectional view showing a modified embodiment of the air ball which is the main part of the present invention;
Figure 6 is an external perspective view showing the configuration of the disaster safety building of the present invention
7 is a longitudinal sectional view conceptually showing a state in which the disaster safety building of the present invention is injured on the surface of the water;
FIG. 8 is a perspective view illustrating a state in which the disaster safety building shown in FIG. 7 is injured on the surface of the water;
FIG. 9 is a longitudinal sectional view showing a state in which the disaster safety building shown in FIG. 6 is further injured upward in response to the height of the water surface;
10 is a perspective view showing a further injury on the water surface of the disaster safety building shown in FIG.
11 is a longitudinal sectional view conceptually showing a modified embodiment of the balance support which is an essential part of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to the drawings, a disaster safety building according to an embodiment of the present invention is a safety room 20 having an air ball panel forming an interior space for accommodating a person therein, and the air ball panel of the safety room 20 A plurality of air balls 30 connected to each other so as to form the inside of the bubble chamber filled with air, and connected to each of the air balls 30 and simultaneously to the air supply unit 42 to supply air from the air supply unit 42. It includes an air supply pipe 40 for supplying air to each of the balls 30 to form a bubble chamber inside the air ball panel of the safety room 20, various disasters such as earthquake, flood, tsunami and explosion In the event of a disaster, it is not necessary to take action such as evacuating people to protect their lives from dangerous situations. Because it can protect people, tsunamis, is meant in the sense that the earthquake could be a very useful safety measures in many areas.

In the case of the disaster safety building of the present invention, the safety room 20 is formed by connecting the air ball panel in the form of a room where a person resides, and the outer support structure 24 forming the exterior of the building is located outside the safety room 20. It is preferred to be provided. The skin support structure 24 can be configured to form a house using building exterior materials when building a building. In countries such as Japan, many houses are built of wood, so the skin support structure 24 of the building is made of wood panels. Can be configured. The outer shell support structure 24 may be composed of a bottom portion, a wall portion, and a ceiling portion, and such a shell portion and a wall ceiling portion may be configured to properly combine the wood panel with the shell portion to constitute the shell support structure 24.

The safety room 20 is connected to the air ball panel to provide an indoor space where people can enter the living comfortably inside. At this time, the air ball panel is formed by a plurality of air balls 30 connected to form a bubble chamber (a chamber functioning as a buffer against external impact) filled with air therein.

The safety room 20 may be composed of a floor, a wall, and a ceiling like a general house, and the floor air ball panel, the wall air ball panel, and the ceiling air ball panel are interconnected to form the safety room 20. It is.

The air ball 30 is bonded to a plurality of sides by a bonding means such as adhesive to form a safety room 20, the surface of the air ball 30 may be made of a heat-resistant durable cloth or rubber. Air ball 30 may be referred to as a small rubber or plastic ball, the air ball 30 may be connected to a plurality of air ball panel structure to form the floor, wall, ceiling of the safety room 20, such The air ball panels to which the plurality of air balls 30 are connected are interconnected to form a safety room 20 through which a person can live. At this time, the inner surface and the outer surface of the safety room 20 may be provided with an inner skin sheet and an outer skin sheet, respectively. The inner skin sheet and the outer skin sheet can have a structure bonded to the plurality of air balls 30 both sides by bonding means such as an adhesive. At this time, the inner skin sheet and the outer skin sheet may be composed of a heat resistant durable cloth or rubber sheet, the outer skin sheet may be composed of a wood panel.

 Meanwhile, the safety room 20 to which the plurality of air balls 30 are connected is preferably configured to have a relatively thick bottom portion compared to other portions. If the wall portion and the ceiling portion of the safety room 20 consists of one floor of the air ball 30, the floor portion may be composed of three to four floors of the air ball 30, the safety building of the present invention This is to prevent the tsunamis from entering the water (including the outer support structure 24 forming the safety room 20 and the exterior of the building) and sinking into the water by the load of the entire building. At this time, by providing a floating means such as styrofoam in the bottom portion of the safety room 20 may be configured to prevent the safety building of the present invention to float on the water to sink. 2 shows that the air ball 30 is stacked in multiple layers to form the bottom portion of the safety room 20, and the rest shows that the air ball 30 is configured in a rectangular cylinder shape filled with air. In addition to the air ball 30, the bottom of the bottom portion of the safety room 20 may be further provided with floating means such as floating on the water well such as styrofoam.

An air supply pipe 40 is individually connected to the air ball 30, and an air supply unit 42 is connected to the air supply pipe 40 to supply air generated by the air supply unit 42. By supplying each air ball 30 through the supply pipe 40, the air ball 30 can be filled with air. As such, the inside of the safety room 20 is filled with air. Can be configured as a buffer chamber with a buffer force. One end of the air supply pipe 40 may be connected to each air ball 30 by a bonding means such as an adhesive, and the air supply pipe 40 may be configured with a flexible hose in consideration of construction convenience of a safety building. will be. In addition, the interior of the safety room 20 where a person enters the living room also includes a buffer inner panel (inner skin sheet and outer skin sheet provided at both sides of the air ball 30 to which a plurality of air balls 30 are connected). Can be divided and used in each living space like a normal house, the air supply unit 42 having a function of supplying air to the air ball (30) is a warehouse room and the inside of the safety room (20) You can put it in a storage room equipped with it. That is, it should be understood that the safety room 20, which is a main part of the present invention, can be divided into necessary living spaces as in a general house, and importantly, a plurality of air balls 30, each of which is filled with air, are differentiated from the general house. The safety room 20 is connected to the building, and the safety room 20 remains as it is without human being evacuated during a disaster such as an earthquake or tsunami. It is characterized by the fact that it can prevent fatal safety accidents that cause people to lose their lives.

At this time, the safety room 20 forms an indoor room where a person enters and lives, but it is preferable that the safety room 20 is configured to be integral with the outer shell support structure 24 forming the exterior of the building. In the present invention, the construction of the safety room 20 (in this case, the safety room 20 is made of a room shape that forms an interior space where people enter and live inside, such as a hexahedron shape, a dome shape, etc.) in the disaster safety house construction area, On the outside of the safety room 20 to form a support frame connected to the safety room 20 and the mutual coupling means such as brackets and bolts, connecting pillars, the bracket support structure 24 to the support frame also bracket By coupling the coupling means such as bolts, connecting columns, and the like, the safety room 20 and the outer shell support structure 24 which is the exterior of the building may be configured as one-piece.

The safety room 20 and the outer shell support structure 24 surrounding it may be stably fixed to the ground via a support post, and the support structure may be stretched up and down so that the safety room 20 and the outer shell support structure ( 24) (that is, the safety room 20 and the shell support structure 24 may be referred to as the main parts of the disaster safety building of the present invention) at various heights according to the height of the surface of the tsunami (2) tsunami (2) It can cause injury on the water. In the present invention, the upper end portions of the plurality of support posts may be joined to the corner portions of the outer shell support structure 24, and the lower end portions of the support posts may have a structure fixed to the ground. In the drawing, support posts are provided at four corner portions of the outer shell support structure 24 constituting the disaster safety building of the present invention, and the outer shell support structure 24 and the outer shell support structure 24 are provided by four support posts. An embodiment in which the safety room 20 installed in the interior of the floor is supported.

On the other hand, the safety room 20 may be configured in the form of a cross-sectional square room, as shown in Figure 3 may be of a flat bottom portion and the other portion is a cylindrical shape, the air ball 30 in the present invention ) May be a spherical shape, but is composed of various shapes having side portions such as squares, triangles, and hexagons, and the air balls 30 are joined to each other by bonding means such as adhesives to form a safety room 20. Can be. At this time, the angle of the side portion of each air ball 30 is configured differently according to the size of the house, it is possible to conveniently form a safe building by mutually bonding the air ball 30, each side angle is different in response to the size of the house. will be. See FIG.

On the other hand, according to the present invention, the safety room 20 and the outer shell support structure 24 constitutes a building, the building is supported by a supporting post 60 of a structure that can be stretched to the ground, the lower position of the building It is provided with an underground building receiving portion 26 provided with an open portion communicated to the periphery of the building on the upper side. The basement building accommodation unit 26 also includes a ring bottom, and can be said to function as a water filling tank filled with water.

Therefore, the water is filled with the underground building receiving portion 26 provided below the building during a water disaster such as a tsunami, the building is configured to float buoyantly over the water filled in the underground building receiving portion 26, When the building is injured, the supporting post 60 is extended to support the building to stably float.

In addition, according to the present invention, the lower portion of the safety room 20 is further provided with a balance support 50 to hold the center of the building during a disaster to prevent the building from falling. The balance support 50 is configured in the form of a bellows pipe having a flange portion around the opening of the upper end, such that the flange portion of the bellows pipe may be attached to the bottom of the bottom portion of the safety room 20 by an adhesive bonding means. The communication part is formed at a position corresponding to the portion of the bellows pipe installed in the safety room 20, and the communication part is provided with a bottom door in the form of an air panel formed by connecting the air ball 30 to the safety room 20. When living inside the house, close the bottom door and use it as a floor.In case of tsunami or earthquake, open the bottom door to fill the water inside the bellows pipe. As the bellows pipe is unfolded, the balance support 50 functions as a column of water (the center balance support 50 functions as a function of the building). On the other hand, the bottom door may be configured to open and close the communication portion of the bottom portion of the safety room 20 is rotated and opened based on the hinge portion of one side.

In addition, by installing a balance support 50 such as a rubber ball on the bottom surface of the bottom of the safety room 20 to prevent the building from shaking due to an earthquake, the building (that is, the safety room 20 and the shell support structure 24). ) Can be configured to balance the building without shaking when it rises on water during tsunamis. Of course, the rubber ball may take a structure mounted on the bottom surface of the bottom portion of the safety room 20 through a known bonding means such as an adhesive.

To summarize the configuration of the main part of the present invention as described above, the present invention is to preserve the life in an earthquake or tsunami, by connecting a plurality of air ball 30 to make a safety room 20 like a large ball . At this time, the surface of the safety room 20 is composed of a heat-resistant durable material (ie, inner skin sheet and outer skin sheet).

An air injector (that is, an air supply unit 42 such as an air compressor) is connected to the plurality of air balls 30 via an air supply pipe 40. Air is supplied to the air supply unit 42 which consists of an air compressor, an oxygen cylinder, etc.

On the other hand, when the size of the ball house (that is, the safety room 20) is made small, it may be used as a gas mask by attaching a helmet and a gas mask, and may be used as a evacuation house at sea.

A slope of the disaster safety building of the present invention, that is, a support post (pillar) is erected at four corners of the safety building, and under the building (i.e., below the safety room 20), underground (including semi-basement) is installed. The building receiving portion 26 is made to take a structure in which a part of the lower side of the building is inserted therein. At this time, the support post may be composed of a cross-section C-shaped, cross-sectional rectangular hollow tube or may be composed of concrete, wood and the like. Preferably, the support post is composed of a plurality of support slide tubes that slide relative to each other, so that the length of the support post is stretched to various lengths.

In the lower part of the building of the present invention, a buoyant material may be further provided with a styrofoam, a plastic barrel, a rubber ball, a drum, etc., so that the building can be safely and reliably floated on the water.

On the other hand, in the present invention, the air ball panel of the safety room 20 is composed of a plurality of individual air ball panel is connected, the air ball panel inner sheet material 32 surrounding the plurality of interconnected air ball 30 from both sides And an outer seat member 34, wherein the air ball panel is compactly slim in the state in which the air ball 30 is missing, and when the air ball 30 is filled with air, the air ball panel swells to a predetermined thickness. It becomes a panel shape for constituting the air ball panel of the safety room 20.

Therefore, the air supply unit 42 and the air are supplied to the plurality of air balls 30 after carrying the air ball panel for construction of the safety room 20 folded into a compact size at the construction site of the disaster safety building of the present invention. When the air is injected through the supply pipe 40, the safety room 20 in which a person can reside can be formed in the interior thereof, and thus, even in the field construction property, the air is better. That is, in order to construct the disaster safety building of the present invention in the construction site, the air is drawn from each air ball 30 of the air ball panel for forming the safety room 20 to make a compact and slim size, such a slim thickness and In the air ball panel of the compact size, since the air is supplied to the inside of each air ball 30 in the field to make the safety room 20, more convenient and excellent advantages can be expected in terms of site construction of disaster safety buildings. .

In addition, by installing a balance support 50 such as bellows pipe or rubber ball in the lower part of the building of the present invention, the building is prevented from being shaken by an earthquake, and the building (that is, the safety room 20 and the outer shell support structure 24) is provided. It is configured to balance the building without shaking when it rises on the water during tsunami. That is, when the water is filled in the bellows pipe provided in the lower part of the safety room 20, the bellows pipe filled with water forms a water column to serve as a balance support 50 for holding the center of the building, and a rubber ball under the building. The air filled in the inside serves as the balance support 50.

According to the present invention, the safety room 20, which is a main part, forms a fluffy buffered air room in which a person can safely and comfortably live inside the building, so that a person can evacuate to another safe place during a disaster such as an earthquake or tsunami. Just staying inside the building will keep you safe from earthquakes and tsunamis, which means that you can eradicate safety accidents that could result in an earthquake or tsunami damage. In other words, if you live in a safety room 20 in the shape of a fluffy buffered air room and stay in the building without having to evacuate even when an earthquake or tsunami occurs, it is as if you are safely impacting or sinking a person in a fluffy ball. It is very safe against earthquakes and tsunamis because it protects against it.

When an earthquake occurs, the building is often collapsed, but even if the disaster safety building of the present invention is collapsed due to the earthquake, the safety room 20 such as a fluffy air room safely protects a person, so the building caused by the earthquake The collapse can reliably prevent the loss of life or serious injury to a person. In particular, the present invention is provided with a balance support 50 for centering the lower part of the building, so even if the building shakes during an earthquake, the balance support 50 balances the building to alleviate such shaking loads, As a result, almost no buildings collapse, resulting in a safer and more reliable rescue of people's lives against earthquakes.

According to the present invention, when the tsunami comes in the form of a large ball filled with air, the safety room 20, which is a main part of the building, automatically lifts the entire building on the approaching water during the tsunami, and the building and the people in it. Since it prevents the sinking in water, it has the advantage that it can greatly help to save a lot of lives by completely and surely blocking drowning accidents caused by tsunami. Particularly, in the present invention, when a part of the building is inserted into the building receiving unit 26 further provided under the building, and water is driven by the tsunami generation, the building (ie, the safety room 20 and the shell support structure) 24) As the water enters the inside of the building receiving portion 26 disposed below, and the water rises more quickly as the water is blown into the building receiving portion 26, the building and its occupants with a tsunami It is possible to more quickly and surely prevent the sinking of the water, which has the advantage of completely preventing the loss of life when the people are buried in the incoming water.

In addition, the support posts that support the building can be stretched to various lengths, so that the support posts extend to different lengths according to the size of the tsunami, ie the part of the safety room 20 containing people at all times. It can be injured, further contributing to the prevention of personal injury from flooding.

In addition, the uppermost sliding support pipe of the multistage sliding support pipe constituting the support post may be removed so that the height of the surface of the tsunami that is pushed in by the huge tsunami exceeds the extension range of the support post. If the building (i.e., the safety room 20 of the building and the outer shell support structure 24, the exterior of the building) is thus completely separated from the ground, the building floats on the water like a ship and the person in the safety room 20 As described above, in the case of the balance support 50 in the form of a bellows pipe, if the water is filled inside the bellows pipe, the bellows pipe spread like a water column under the load by the load of water will balance the building. As a result, the disaster safety building of the present invention can be prevented from collapsing while floating on the water surface (2). Due to this has the advantage of protecting people in the building more safely and securely from sinking. The same effect is also provided when a rubber ball is provided below the building to form the balance support 50.

In addition, in the present invention, each air ball 30 constituting the safety room 20 is configured to be filled with air independently by a separate air supply pipe 40, the external impact during a disaster such as an earthquake or tsunami Even if a part of the air ball 30 bursts from the air ball 30, the air ball 30 of the other part is kept intact, and thus, the function of safely accommodating and protecting a person inside the safety room 20 is more certain.

On the other hand, by applying the air ball 30, which is the main part of the present invention can be used as a helmet or gas mask, when used as a helmet, the air ball 30 to the head by making an inlet to enter a portion of the air ball 30 to the head Since the air ball 30 is supplied with air to the air supply unit 42, the air ball 30 can be safely used as a helmet that receives oxygen, and when used as a gas mask, a gas mask can be attached to the entrance to the neck. The air ball 30 used as the gas mask may also be supplied with oxygen from the air supply unit 42 to be used safely.

On the other hand, in the disaster-safe building of the present invention, the shell support structure 24 is a structure forming the exterior of the building as described above, the shell support structure 24 is provided with a door that can be entered by people, the window is also installed In the safety room 20 embedded in the outer shell support structure 24, the door hole and the window hole are formed in a position corresponding to the door and the window, and the hole part of the door of the safety room 20 is formed. Like the other parts of the safety room 20, and the window hole portion is attached to the opening for the door and the opening and closing air panel of the shape corresponding to the window hole of the structure in which a plurality of air balls 30 are connected, the outer shell support When opening and closing the door of the structure 24 may be configured to open and close the air panel of the door hole portion with the door to open and close the door hole portion formed in the safety room 20, the outer shell When opening and closing the window of the tree structure 24 so as to open and close an aperture portion for the window formed in the safety room (20) will have an air hole portion of the panel for the window it can be configured to be opened and closed with the window. When the door and the window of the building envelope structure 24 are closed, the air panel installed in the door hole portion of the safety room 20 and the air panel installed in the window hole portion are also closed, and a tsunami is pushed out. When water enters, a sealing material is installed between the air panel and the air panel to close the air panel for the door hole of the safety room 20, the air panel that closes the window hole, and to prevent water from entering into the gap between the holes. Will be safer. That is, it will be apparent that the safety room 20 can be installed doors and windows in and out of people.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the scope and spirit of the present invention is not limited to these specific embodiments, and that various modifications and changes may be made without departing from the spirit of the present invention. If you have, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

20. Safety Room 24. Skin Support Structure
26. Building receptacle 30. Air ball
32. Inner sheet material 34. Outer sheet material
40. Air Supply Line 42. Air Supply Unit
50. Balanced support 60. Supporting post

Claims (6)

A safety room 20 having an indoor space in the form of a buffered air room where a person enters and resides therein;
Air to protect the safety of the person in the safety room 20 by a buffer air is connected to a plurality of the air ball panel constituting the safety room 20 to form a bubble chamber filled with air by its own air Ball 30;
The air of the safety room 20 by being connected to each of the air balls 30 and at the same time connected to an air supply unit 42 to supply air to each of the air balls 30 from the air supply unit 42. An air supply pipe 40 for forming a ball chamber inside the ball panel,
The air ball 30 is configured in a shape having a lateral joining portion, when connecting the air ball 30 in a plurality to form the air ball panel of the safety room 20 when the lateral joining portion joining means Are firmly interconnected by means of
Each air ball 30 constituting the safety room 20 has a safety room function to rescue lives in the event of disaster, characterized in that configured to be filled with air independently by the individual air supply pipe (40). Disaster safety building.
The method of claim 1,
The safety room 20 is composed of a plurality of individual air ball panel is connected, the air ball panel is the inner sheet member 32 and the outer sheet member 34 surrounding the plurality of interconnected air ball 30 from both sides The air ball panel is compactly slim in the state where air is removed from the air ball 30, and when the air ball 30 is filled with air, the air ball panel swells to a predetermined thickness so that the safety room Disaster safety building with a safety room function to rescue lives in the event of disaster, characterized in that the panel shape for forming (20).
delete The method of claim 1,
Disaster safety building, characterized in that the lower portion of the safety room 20 is further provided with a balance support 50 to hold the center of the building in case of disaster to prevent the building from falling.
The method of claim 1,
The safety room 20 is made of the air ball panel is connected in the form of a buffer air inhabited by a person, the outer shell of the safety room 20 is provided with an outer shell support structure 24 forming the appearance of the building Disaster safety building with safety room function to save lives in the event of a disaster.
6. The method of claim 5,
The safety room 20 and the shell support structure 24 constitute a building, which is supported by a support post 60 of a structure that is flexible to the ground, and the lower part of the building is located around the building. The basement building receiving part 26 provided with the open part connected to the upper side is provided, and the water is filled with the basement building receiving part 26 provided below the building during a water disaster such as a tsunami. The building is configured to float buoyantly over the water filled in the basement building receiving portion 26, the disaster of the disaster characterized in that the supporting post 60 is extended to support the building stably injured when the building is injured Disaster safety building with safety room function to save city life.

Images