JP2013014898A - Underground shelter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an underground shelter that is strong against an earthquake and is prevented from being flooded and damaged in the case of tsunami waves coming.SOLUTION: An underground shelter 2 comprises a watertight underground space 22 that is formed by assembling a side slab 5, a top slab 6 and a bottom slab 4 buried underground and comprising precast structures. The top slab 6 has an openable/closable hatch 17 attached thereto, and the underground space 22 has stairs leading to a floor face 23. The top slab 6 is provided with an opening 18 and is watertightly provided with a periscope 20 that is movable forwards and backwards or a camera.

Description

  The present invention relates to an underground shelter having earthquake resistance and water tightness that can be evacuated in the event of a tsunami or flood.

In the Great East Japan Earthquake, people who lived in coastal areas and lowlands took time to evacuate to high ground and areas away from the coast due to the occurrence of an unexpected tsunami. More than 20,000 people, including those who were missing, were seriously damaged. Earthquakes are expected to continue in various parts of Japan, and tsunamis are expected to occur in the event of a major earthquake.
In general, as soon as a major earthquake occurs, it is necessary to escape to the hills and areas far away from the coast, but if you try to escape by car, there is a risk that it will cause traffic jams, even if you escape on foot If it takes time, and the family and relatives have a sick person such as an elderly person or a handicapped person, it is more difficult to quickly evacuate to a hill or remote area on foot.

In order to deal with such problems, for example, it has been proposed to construct a high breakwater or tidewall and block the tsunami, but it is large and expensive, and difficult to realize.
In addition, for example, as described in Patent Document 1, a proposal has been made to install an underground shelter, but this is a computer backup facility, and it is necessary to go to the ground to install a large host computer with weight in the shelter. It was necessary to install a pressure board and install a shelter after staking the pile. Moreover, this shelter had a building on the ground as an entrance.

Japanese Patent No. 3836111

  However, the invention described in Patent Document 1 is intended to prevent companies, government offices, hospitals, banks, etc. from damaging a host computer in an earthquake or other disaster, or being flooded by a tsunami. It is not intended to evacuate people. Moreover, the underground shelter described in Patent Document 1 has an entrance installed in the building on the ground and has a main room and a sub-room in the basement, so that water does not flow into the basement main room even if the ground room is submerged. However, when the ground room was destroyed by the tsunami and fell over the entrance, the basement was blocked, and there was a risk that it would not be possible to go in and out from the ground.

  In view of such a situation, an object of the present invention is to provide an underground shelter having high water-tightness that is strong against earthquakes and is not flooded or damaged even when a tsunami is approached.

An underground shelter according to the present invention is embedded in the ground, and a side plate, a top plate, and a bottom plate made of a precast structure are assembled to form a watertight underground space, and the top plate can be opened and closed. A staircase that leads from the hatch to the floor surface is formed in the underground space, and an opening is provided in the top plate, and a periscope or camera that can move forward and backward is provided in a watertight manner. It is characterized by.
The underground shelter according to the present invention can evacuate into the underground space from a hatch when a tsunami occurs due to an earthquake or the like, and can evacuate instantly without moving to a place apart from a hill or coast, Since the space is watertight, safety can be ensured. Moreover, since the underground shelter is buried underground, it is not exposed to a tsunami, and after evacuating, you can observe the outside with a periscope or camera, so you can go out after confirming safety . Moreover, since the side plate, top plate, and bottom plate have a precast structure, assembly on site is easy and simple.

Further, the top plate may be provided with a protrusion, and a periscope or a camera and a hatch may be provided on the top surface of the protrusion.
If a protrusion is provided on a part of the top plate and a periscope or a camera and a hatch are provided on the top surface of the protrusion, the top plate other than the protrusion can be embedded in the ground.

  Moreover, the top surface may be exposed to the ground, and entrance and exit with the hatch open and external observation through a periscope or camera can be easily and reliably performed.

  The underground shelter according to the present invention can be used as a warehouse in normal times, and can evacuate quickly through a hatch when an earthquake occurs, and is installed in the ground and has high earthquake resistance. Because it is watertight, it is safe and strong without being damaged, flooded into the underground space, or washed away even if a tsunami hits it.

And in order to confirm whether the tsunami has pulled and the seawater etc. on the ground has disappeared, it is only necessary to observe the periscope and camera from the opening in the underground space of the underground shelter. You can observe the outside.
Also, since the tsunami is attacking for a short time, it is sufficient to evacuate to the underground shelter for about half a day to a day, and after the tsunami has drawn and settled, confirm the safety of the ground with a periscope or camera and then go outside In the later life, if the flush toilet cannot be used due to water interruption, the underground shelter can be used as an emergency toilet.

It is a partially broken explanatory view of the underground shelter according to the first embodiment of the present invention. (A), (b), (c) is a figure which shows the manufacturing method of the underground shelter shown in FIG. It is a figure which shows the underground shelter by 2nd embodiment of this invention, (a) is a partial fracture | rupture explanatory drawing of an underground shelter, (b) is the A section enlarged view of the same figure (a).

Hereinafter, an underground shelter according to an embodiment of the present invention will be described.
In FIG. 1, a house 1 such as a house or an office is installed on the ground. And in the vicinity of the house 1, an underground shelter 2 is buried in the ground as a tsunami shelter. The underground shelter 2 may be provided on the lower side of the house 1 or may be provided at a position close to the house 1 such as a garden.
The underground shelter 2 is formed in a substantially cylindrical shape, for example, and has a precast structure including a disk-shaped bottom plate 4, a substantially cylindrical side plate 5, and a top plate 6 provided on the upper surface of the side plate 5. Yes. For example, a cylindrical projection 7 is formed on a part of the top plate 6, and the top surface 8 of the projection 7 is exposed to the ground, but the top plate 6 other than the top surface 8 is soiled in the ground. It is covered. The projecting portion 7 is embedded in the ground except for the top surface 8, but a part or all of the projecting portion 7 may be provided so as to project to the ground.

The bottom slab 4 is made of, for example, a reinforced concrete plate made in the field, and a base concrete 10 and a crushed stone and a split stone 11 are laminated on the lower side, and a waterproof mortar 12 is constructed on the upper surface of the bottom plate 4 to form a floor surface 23. ing.
The side plate 5 is made of, for example, reinforced concrete having a substantially cylindrical shape, and is configured by connecting a ring-shaped lower segment 14 and an upper segment 15. The top plate 6 is made of, for example, a plate-shaped reinforced concrete plate, and a hatch 17 can be opened and closed by a hinge or the like so that a person can enter and leave the top surface 8 of the protruding portion 7.
An opening 18 is formed in the vicinity of the hatch 17 on the top surface 8, and a periscope 20 is watertightly attached to the opening 18 by packing or the like, and the periscope 20 is vertically moved from the opening 18 while maintaining watertightness. It can be moved up and down. The situation on the ground can be visually confirmed by raising the periscope 20 from the opening 18 of the top surface 8 to the outside. The opening 18 can be liquid-tightly closed by lowering the periscope 20 downward.

Thus, the substantially cylindrical underground shelter 2 formed by the bottom plate 4, the side plate 5 and the top plate 6 constitutes an underground space 22 whose inside is sealed, and is formed below the hatch 17 of the protruding portion 7. Are formed with stairs 24 that descend to the floor 23 provided on the bottom plate 4. The underground space 22 can store food such as food and water as emergency food, oxygen cylinders, dry batteries, emergency power supplies, and the like. In particular, emergency foods and beverages may be stored in packs such as emergency bags.
Further, in normal times, the underground shelter 2 can be used as an underground warehouse.

If the underground shelter 2 is for a private house, the underground space 22 is, for example, 15.9 m ² (about 9 tatami mats), and about 7 to 8 people can evacuate temporarily. In addition, if the underground shelter 2 is for an apartment house, business establishment, or evacuation site, the underground space 22 is, for example, 29.2 m ² (about 17 tatami mats), and about 14 to 16 people can evacuate temporarily. It is.

  Such an underground shelter 2 needs to have its own weight greater than its buoyancy when it is attacked by a tsunami during a major earthquake or the like. In this embodiment, the underground shelter 2 is made of reinforced concrete or steel, and the member thickness of each surface is determined so that the weight of the building can be set larger than the buoyancy. Alternatively, it is only necessary that the weight of the building plus the weight of the earth covering placed thereon is greater than the buoyancy. Therefore, even if the underground shelter 2 is swept up by a tsunami, it is safe because it does not float or move because its own weight is greater than buoyancy.

Next, an example of an assembly method of the underground shelter 2 will be described with reference to FIG.
In FIG. 2A, a hole 26 having an inner diameter larger than the outer diameter of the underground shelter 2 is excavated and drilled, and the lower segment 14 and the upper segment 15 of the precast structure which are the side plates 5 are connected therein. assemble. For example, the connecting portion is inserted into a bolt box 27 provided at a joint portion between the segments, and is screwed into the female screw.
And as shown in FIG.2 (b), the bolt box 27 of the junction part of each segment is filled with a non-shrink mortar, and a water stop process is given to an inside and outside joint.

Next, as shown in FIG. 2 (c), the inner surface of the substantially cylindrical side plate 5 is excavated by a hydraulic excavator 28 to remove the soil, and the side plate 5 is submerged by its own weight until the side plate 5 reaches a predetermined depth. Thereafter, crushed stones and cracked stones 11 are laid on the bottom, foundation concrete 10 is placed thereon, a bottom plate 4 made of reinforced concrete is constructed, and a waterproof mortar 12 is constructed on the top surface to form the bottom plate 4. . And after performing interior construction, such as the floor surface 23 and the stairs 24, the top plate 6 is connected to the side plate 5, the underground shelter 2 is assembled, and the soil is piled up on the top plate 6. Thus, the top surface 8 of the protrusion 7 is exposed to the ground surface.
In the underground shelter 2, the bottom plate 4, the side plate 5, and the top plate 6 are formed with a precast structure. However, the base shelter 2 may be formed on-site by forming a formwork on the site, or the precast structure and the site plate It may be produced by a mixture of strikes.

As described above, the underground shelter 2 according to the present embodiment can be used as, for example, a warehouse during normal times. If a large earthquake occurs, the hatch 17 can be opened and moved into the underground space 22 of the underground shelter 2 without evacuating to a place that is far from the hill or the coast, and can be evacuated in a short time.
With the hatch 17 closed on the top surface 8, the underground shelter 2 can ensure water tightness, and since it has high strength and high earthquake resistance, the underground shelter 2 is hardly damaged by an earthquake, Even if a house on the ground is damaged or washed away by the tsunami due to the waterproof property, the underground space 22 is not flooded by the tsunami.

In addition, the underground shelter 2 has a weight greater than its own buoyancy, and is buried in the ground and the top surface 8 is only exposed to the ground, the underground shelter 2 flows due to the tsunami, It can also be prevented from being washed away.
And in order to confirm whether the tsunami pulled and the seawater on the ground disappeared, the observation of the periscope 20 from the underground space 22 of the underground shelter 2 from the opening 18 of the top surface 8 to the ground, The external appearance can be observed through the periscope 20 without taking any risk.
Also, since the tsunami is attacking for a short time, it is sufficient to evacuate to the underground shelter 2 for about half a day to one day. After the tsunami has been pulled and settled, the safety of the ground is confirmed with the periscope 20 and then the hatch 17 is set. You can open and go outside. In the subsequent life, when the flush toilet cannot be used due to water interruption or the like, the underground shelter 2 can be used as an emergency toilet.

In addition, this invention is not limited to the underground shelter 2 by 1st embodiment mentioned above, A various change is possible unless it deviates from the summary of this invention.
FIG. 3 shows an underground shelter 30 according to the second embodiment of the present invention. The same or similar members and parts as those in the first embodiment described above are denoted by the same reference numerals and description thereof is omitted.
In the underground shelter 30 shown in FIG. 3, as a difference from the first embodiment, a photographing camera 32 is provided in the opening 18 of the top surface 8 at the tip of a cylindrical portion 31 that can move up and down instead of the periscope 20. ing. The cylindrical part 31 can be advanced to the outside of the underground shelter 30 to photograph the surrounding situation. In this case, it is preferable that the cylinder part 31 can be rotated. Alternatively, the internal photographing camera 32 may be rotatable without rotating the cylinder portion 31.

The captured image of the external environment may be observed on the display 33 attached to the cylindrical portion 31, or may be observed through a personal computer or other display screen.
In this case, even if the photographing camera 32, the display 33, and the like are out of power due to the earthquake disaster, the evacuees can observe the outside using a battery, an emergency power source, or the like.

It should be noted that a window may be provided on a surface exposed to the ground surface such as the hatch 17, top surface 8, or top plate 6 so that the external environment can be observed.
In the above-described embodiment, the top surface 8 of the underground shelters 2 and 30 is exposed to the ground. However, the top surface 8 is also covered with soil and buried in the ground instead of this configuration. May be.
Moreover, in each above-mentioned embodiment, although it was set as the structure which provided the protrusion part 7 in the top plate 6 of the underground shelters 2 and 30, and exposed the top surface 8 on the ground, the protrusion part 7 was not provided in the top plate 6. In this case, the top plate 6 may be exposed to the ground or may be embedded. At that time, a window may be provided on the top plate 6 so that the outside can be observed.

In each of the above-described embodiments, the bottom plate 4 is made of concrete made on site. However, instead, the bottom plate 4 may have a precast structure. In this case, the bottom plate 4, the side plate 5, the top plate Since the plate 6 can be manufactured in advance in the factory, the assembly work at the site is further facilitated. Moreover, the bottom plate 4, the side plate 5, and the top plate 6 which comprise the underground shelters 2 and 30 are not limited to those made of reinforced concrete, and may be made of steel segments or synthetic segments.
Further, in each of the above-described embodiments, the underground shelters 2 and 30 are formed in a substantially cylindrical shape, but the present invention is not limited to such a configuration, and the three-dimensional shape of an appropriate shape such as a rectangular parallelepiped or a cube. I just need it.

2, 30 Underground shelter 4 Bottom plate 5 Side plate 6 Top plate 8 Top surface 17 Hatch 18 Opening portion 20 Periscope 23 Floor surface 31 Tube portion 32 Camera 33 Display

Claims (3)

  A side plate, a top plate, and a bottom plate made of a precast structure are assembled in the ground to form a watertight underground space, and an openable hatch is attached to the top plate. In the space, a staircase that leads from the hatch to the floor is formed, and the top plate is provided with an opening, and a periscope or camera that can be advanced and retracted in the opening is provided in a watertight manner. Underground shelter.   The underground shelter according to claim 1, wherein the top plate is provided with a protruding portion, and the periscope or the camera and the hatch are provided on a top surface of the protruding portion.   The underground shelter according to claim 2, wherein the top surface is exposed to the ground.

Images