JP3180913U - Evacuation shelter - Google Patents

Abstract

An evacuation shelter is provided to enable reliable evacuation when earthquakes, floods, and conflicts occur alone or in combination.
SOLUTION: An evacuation shelter 1 has a spherical shelter body 3 having an evacuation space sealed with water, and at least one opening on the side of the shelter body so that a person can enter and leave the evacuation space in an installed state. And a hatch 9 for water-sealing the entrance and exit, and further, on the bottom of the shelter body in the installed state, for installing a weight for maintaining the same underwater posture as the installed state A fixing structure is provided. Since it is possible to go in and out in the installed state, a reliable blame is possible. The posture can be changed while floating in the water by moving the center of gravity. Therefore, it is also effective against flood damage.
[Selection] Figure 2

Description

  The present invention relates to an evacuation shelter for evacuating victims and victims from disasters such as earthquakes, landslides, floods, and tsunamis, as well as from conflicts, terrorism, and accidents.

  A new disaster in memory is the 2011 off the Pacific coast of Tohoku Earthquake that occurred on March 11, 2011. Human life has been lost because of the underlayment of roofs that have collapsed and buried in landslides. The tsunami caused by the earthquake killed many people. It was also recognized that there was a need for measures to protect themselves from accidents at nuclear power plants. Furthermore, there are many conflicts and terrorism overseas, and disaster risks associated with nuclear development are increasing.

  An earthquake to prevent sacrificing by being crushed by a collapsed house and dying from suffocation under a fallen object such as a house or debris when such an earthquake occurs As a countermeasure device, for example, an earthquake shelter disclosed in Patent Document 1 is known.

  The earthquake shelter (hereinafter referred to as “conventional shelter”) as described in Patent Document 1 is basically composed of a resin-made dome body having an entrance and exit, and the shelter is configured when the entrance is arranged on the lower side. It is supposed to be. The evacuees who want to evacuate, for example, lift the dome body with a jack or the like to open the entrance and evacuate from there. On the other hand, the conventional shelter can be used as an evacuation boat with the entrance facing upward in the event of a flood. To use it as a boat, the dome body is rolled and moved to the surface of the water, the entrance is turned upward, and the refugee enters inside. In other words, the conventional shelter is characterized in that the usage mode is different depending on the countermeasure against earthquakes with the entrance facing down and the countermeasure against floods facing up.

Utility Model Registration No. 3144746 (Scope of Claim for Utility Model Registration, Paragraph 0060 et seq., FIGS. 1, 2 and 5)

  However, it remains doubtful whether a conventional shelter can achieve a sufficient effect in the case of the Tohoku-Pacific Ocean Earthquake, for example. This is because in this case, the building collapsed due to the earthquake, followed by the tsunami. This is because, when a conventional shelter is used when an earthquake occurs, the evacuees are not given time to lift and open the entrance with a jack or the like. If the doorway is opened with a bare hand instead of a jack, and there is only one refugee, it will not be possible to lift the dome body to open the doorway alone while shaking. Even if you can evacuate inside the dome itself, it is very difficult for the refugees inside the dome to point the doorway facing down when the tsunami comes. Earthquake countermeasures and tsunami countermeasures should be linked and linked instead of alternatives, but there is a problem with conventional shelters in that they cannot respond to them. On the other hand, disasters include not only earthquakes and tsunamis, but also accidents at nuclear power plants, as well as disasters associated with conflicts, terrorism, nuclear development, and the like. However, conventional shelters do not have a function to evacuate us from disasters related to this conflict.

  Therefore, the present invention has been devised to solve the above-mentioned problems, and an evacuation shelter that enables reliable evacuation in the event of an earthquake, flood, or even a conflict, alone or in combination. The purpose is to provide.

  In order to solve the above-mentioned problems, this proposal has the following configuration. In addition, the definition of terms used in the description of the device described in any claim is within the scope of the present invention and is applicable to the device described in other claims regardless of the description order. Shall be.

(Characteristic features of claim 1)
An evacuation shelter according to claim 1 (hereinafter referred to as “the shelter of claim 1”) is a watertight (sealed to the extent that water does not flow) closed spherical shelter body, and an installed state As it is, people can enter and exit the evacuation space. At least one (or two or more) opening / closing on the side of the shelter body and a hatch that seals the entrance with water (no matter shape, partly transparent) On the bottom of the shelter body in the installed state, and a weight for holding the same underwater posture as the installed state (the posture in which the hatch is directed to the side) A fixing structure is provided. The material of the shelter body is not particularly limited as long as it does not impair the purpose of the invention. For example, using a reinforced resin is preferable because it can reduce the weight while maintaining a sufficient strength. The shelter body and part of the hatch may be made of a transparent material so that the outside can be seen and light can be taken in. It is preferable to provide an air intake with a check valve so that water does not enter.

  According to the shelter of the first aspect, the internal evacuation space and the outside of the shelter body communicate with each other through the doorway. Since the doorway is on the side of the shelter body, when an earthquake or the like occurs, the evacuees can evacuate into the shelter body simply by opening the hatch. The hatch in the installed state can be evacuated more quickly if it is opened (the doorway is opened). The weight stabilizes the underwater posture of the shelter body when it encounters a flood such as a tsunami. Since the weight is installed through a fixed structure, the shelter body is prevented from being displaced due to swinging or the like, so that the stabilization of the underwater posture is further ensured. When in the underwater posture, a part of the hatch is below the surface of the water, but water does not enter the shelter body because the space between the hatch and the shelter body is watertight.

(Characteristics of claim 2)
An evacuation shelter according to the invention of claim 2 (hereinafter referred to as “a shelter of claim 2”) is the shelter of claim 1, wherein the fixing structure fixes the weight in a releasable manner. The second fixing structure is provided in a portion other than the bottom portion, and the weight is fixed to the second fixing structure so that the doorway is positioned above the water surface. It is comprised so that the underwater attitude | position of a shelter main body can be hold | maintained.

  According to the shelter of the second aspect, in addition to the operational effect of the shelter of the first aspect, the weight can be removed from the first fixing structure and transferred to the second fixing structure. Returning from the second fixing structure to the first fixing structure is also possible. By making the weight movable in this way, the position of the center of gravity of the dome body changes, and the underwater posture can be changed. By appropriately selecting the position of the second fixing structure, for example, the position of the hatch (entrance / exit) located on the side can be stabilized, for example, while being moved above the water surface. If the hatch can be moved onto the water surface, the hatch can be opened while floating, so that ventilation, escape, etc. can be performed. Also, the weight is effective to maintain the posture of the dome body even when on the ground.

(Characteristic feature of claim 3)
The shelter for evacuation according to the invention of claim 3 (hereinafter referred to as “the shelter of claim 3”) is the shelter of claim 1 or 2, wherein the weight is constituted by a liquid container into which a liquid can be put. It is characterized by being.

  According to the shelter of claim 3, in addition to the operation and effect of the shelter of claim 1 or 2, if the liquid container for carrying is left empty and liquid (for example, tap water) is put in when installing Since it can be used as a weight, it is easy to handle. For example, if the weight is constituted by drinking water in a container, it can be used as emergency drinking water.

(Characteristics of device of claim 4)
The shelter for evacuation according to the invention of claim 4 (hereinafter referred to as “the shelter of claim 4”) is the shelter according to any one of claims 1 to 3, wherein a desired location of the shelter body includes the shelter of the shelter. It is characterized in that at least one handle that can be caught by a refugee who walks to move the center of gravity is provided.

  According to the shelter of claim 4, in addition to the effects of the shelter according to any one of claims 1 to 3, the refugee who wants to move the center of gravity of the shelter body walks in the shelter body by grasping the handle ( It is possible to secure a starting point when walking on the knees or shifting the hips). The evacuees who have secured the starting point can easily move their toes, knees, and the like to desired positions in the shelter body that are difficult to secure without ensuring. Thereby, the center of gravity of the shelter body can be arbitrarily controlled. That is, the posture of the shelter body can be quickly and easily held in an arbitrary state.

(Characteristics of the device according to claim 5)
The shelter for evacuation according to the invention of claim 5 is the shelter according to any one of claims 1 to 3, wherein the shelter body includes a layer containing an aramid fiber for enhancing a bulletproof / explosion-proof effect, or a simple nucleus It is comprised by the reinforced plastic containing the lead film layer for improving a protective effect, It is characterized by the above-mentioned.

  The shelter according to claim 5 is the shelter according to any one of claims 1 to 3, and is expected to contribute to ensuring the safety of evacuees even in areas with conflicts and other dangers in addition to natural disasters.

  According to this plan, it is possible to provide an evacuation shelter capable of effectively responding to natural disasters, in particular, linked and linked disasters such as earthquake countermeasures and tsunami countermeasures. This evacuation shelter can effectively deal with accidents at nuclear power plants, as well as human disasters associated with conflicts, terrorism, nuclear development, and so on.

It is a front view of the evacuation shelter in a state where the hatch is closed. It is a front view of the evacuation shelter with the hatch opened. It is a schematic longitudinal cross-sectional view of the evacuation shelter of the state which changed the attitude | position in water. It is a top view of a floor board.

(Installation of shelter for evacuation)
The evacuation shelter 1 shown in FIG. 1 allows the refugee A to enter the evacuation shelter 1 immediately when an earthquake occurs (or when a pre-earthquake occurs or when an emergency earthquake warning device is notified). In addition, it is placed in an appropriate place such as a house or a corner of the garden. Or you may arrange | position in the place where the danger of a landslide, a landslide, and a fallen object falling from overhead is anticipated at the time of an earthquake occurrence or other disasters. Furthermore, since the shelter 1 for evacuation is formed so as to float on water, it may be arranged in a place where a tsunami or flooding of a river during a flood is expected. The shelter for evacuation 1 has a shape that is suitable for withstanding external pressure and strong impacts in the event of disasters such as earthquakes, landslides, floods, etc., because the shelter 1 is entirely spherical and compact. It has become.

(Schematic structure of evacuation shelter)
As shown in FIGS. 1 to 3, the shelter 1 for evacuation basically includes a shelter body 3, an entrance / exit 7, a hatch 9, a fixing structure 11, and a weight 13. The code | symbol 21 shows the installation stand 21 for installing the shelter 1 for evacuation on it. The installation table 21 is for stably installing the evacuation shelter 1 configured in a spherical shape as described below, but may be omitted if unnecessary.

(Structure of the shelter body)
The shelter body 3 has a substantially spherical shape as a whole, and includes an evacuation space 5 (FIG. 3). The evacuation space 5 is water-tightly chained so that water does not enter from the outside. This is to ensure the safety of the evacuation space 5 in the case of being washed away by water damage. The shelter body 3 has a substantially spherical shape because it is a simple and impact-resistant shape, so even if it becomes an underlay of collapsed debris, it will not break easily, and the refugee A who evacuated in the evacuation space 5 This is because it can be surely protected. Furthermore, it is a shape that is easy to slip through without being submerged by being caught by rubble that is washed away when it encounters flooding. The code | symbol 6 shown in FIG. 2 shows the catch bar for the refugee A in the evacuation space 5 to hold in order to hold | maintain his body. The holding bar 6 extends in the vertical direction of the shelter body 3, and the upper and lower ends are fixed to the inner wall of the shelter body 3.

  The catch bar 6 also functions as a handle when the refugee A walks on the inner wall of the shelter body 3 in order to move the center of gravity of the evacuation shelter 1 (the shelter body 3). That is, the refugee A who wants to move the center of gravity of the shelter body 3 holds the starting point when walking in the shelter body 3 (including walking on the knees and shifting the hips) by grasping the grab bar 6. can do. The evacuees who have secured the starting point can easily move their toes, knees, and the like to desired positions in the shelter body that are difficult to secure without ensuring. Thereby, the center of gravity of the shelter body 3 can be arbitrarily controlled. That is, the posture of the shelter body 3 can be quickly and easily held in an arbitrary state.

  The size of the shelter body 3 varies depending on the number of evacuees A accommodated at a time. However, if the shelter body is made larger, the weight increases and the occupied area also increases. Therefore, considering the labor of transportation and installation, it is preferable for several people. If used for several people, the average family can evacuate. Evacuation should be carried out promptly, but if there are too many people, there will be a waiting queue phenomenon, which will impair the speediness. For the reasons described above, it can be said that it is preferable to install a plurality of shelters 1 for evacuation if it is installed in the home of a large family.

  The entrance / exit 7 is a circular opening formed on the side of the shelter body 3 when it is installed, and is used by the evacuee A to evacuate or exit the evacuation space 5. Therefore, the diameter of the entrance / exit 7 is preferably a dimension that allows one adult to enter and exit without greatly reducing the strength, for example, about 500 to 600 mm. Although a shape other than a circle may be selected, in the present embodiment, a circle is used in order to avoid stress concentration as much as possible and to maintain the strength of the shelter body 3. Moreover, the entrance / exit 7 is made into one in order to ensure intensity | strength. When two or more doorways are provided, it is preferable to pay attention to the overall strength of the shelter body 3 and provide a reinforcing structure as necessary. The material constituting the shelter body 3 will be described in another section.

(Hatch structure)
As shown in FIGS. 2 and 3, the hatch 9 is formed in a circular shape slightly larger than the entrance / exit 7 and is fixed to the other end of the hinge 9 b having one end fixed in the shelter body 3. By the function of the hinge 9b, the hatch 9 closes the entrance / exit 7 so that the shelter body 3 can be opened outward. An annular packing 9a is interposed between the inner peripheral edge of the hatch 9 and the outer peripheral edge of the entrance / exit 7, so that the watertightness between the two is firmly maintained when closed. Although the packing 9a of this embodiment is being fixed to the shelter main body 3 side, you may fix to the hatch 9 side and you may make it fix two packing to both. A lock mechanism 9c is provided inside the shelter body 3 (FIG. 2) so that the evacuee A can operate from the inside to lock or release the hatch 9 with respect to the shelter body 3. Needless to say, when locked, the watertightness between the shelter body 3 and the hatch 9 is secured by cooperation with the packing 9. The material constituting the hatch 9 will be described in another section, but a part (for example, the central portion) thereof may be made of a transparent synthetic resin, tempered glass, or the like. This is because the refugee A can see outside and can guide outside light into the evacuation space 5.

(Fixed structure and weight)
As for the shelter main body 3, the disk-shaped floor board 11a is being fixed on the bottom part at the time of the installation. (Figure 3). The floor plate 11a is provided to flatten the spherical inner wall surface of the shelter body 3 so that the refugee A can fold and kneel on it. An opening 11b is formed in the floor plate 11a. The opening 11b is closed so as to be openable by a lid 11d, and is an upper opening of a storage space 11c provided below the floor plate 11a. In the storage space 11c, a plastic bottle (liquid container, indicated as W in FIG. 3) containing drinking water is stored. This plastic bottle plays a role as a weight for keeping the shelter body 3 in the installed state. A plurality of PET bottles may be used to obtain a necessary weight as a weight. The floor plate 11a, the storage space 11c, and the lid 11d constitute a fixing structure 11 for the weight (pet bottle) 13 in the present embodiment. If the plastic bottle taken out from the fixing structure 11 is moved to another fixing structure (storage space, not shown), the center of gravity of the shelter body 3 can be moved.

  When a part of a sphere having an outer wall with the same curvature as the inner wall curvature of the shelter body 3 is cut off at a certain plane (with the same area as the floor board 11a), the storage has the same shape as the cut-out hook-like part You may make it form a store | warehouse | chamber and install it instead of the floor board 11a (FIG. 4). In this case, the upper surface serves as a substitute for the floor board 11a. At this time, since the bottom surface of the bowl-shaped storage is in surface contact with the inner wall surface of the shelter body 3, stable installation can be performed on the shelter body 3. The movement with respect to the shelter body 3 for moving the center of gravity is also simplified. A guide structure (groove 12 shown in FIG. 4) for guiding the moving direction between the shelter body 3 and the storage, and a fixing structure (not shown) for enabling semi-fixation at an arbitrary position. Can also be provided.

  The groove 12 functioning as a guide structure is formed by cutting out from the center of the floor plate 11a in the radial direction, and the holding bar 6 is inserted in the center thereof. As shown in FIGS. 3 and 4, when the shelter body 3 is changed from the state shown in FIG. 2 to the state shown in FIG. 3 without changing the posture, 11a (1) → 11a (2) in FIG. As shown in the figure, the sheet moves from the vertical state to the horizontal state. By this movement, the gripping bar 6 is guided to the groove 12, and after the posture change, as shown in FIG.

  The shelter body 3 is formed with a ventilation opening 15 for ventilating the inside of the evacuation space 5. The ventilation port 15 is configured so that water does not enter by providing a check valve or an open / close lid. Further, the position to be provided is preferably provided at a position higher than the water surface when the shelter body 3 floats in water. This is to allow ventilation even when floating. Reference numeral 17 denotes a daylighting window.

(Specific configuration of the shelter body)
The shelter body 3 may be made of any material as long as the required strength is obtained, but is preferably flame retardant because it is used in a disaster. Moreover, it is good to make it a double structure of an outer wall part and an inner wall part (illustration omitted), and to comprise an outer wall part with a reinforced plastic and an inner wall part with a buffer material. The reason for providing the cushioning material is to prevent the shelter body 3 from being affected by the evacuee A as much as possible even when the shelter body 3 receives a large impact. Although not adopted in the present embodiment, a seat belt (not shown) for fixing the body of the evacuee A to the shelter body 3, a cushion (not shown) for lowering the waist, etc. may be attached. it can. Note that the above material can also be applied to the hatch 9.

  In addition, the shelter body 3 of the present embodiment can include a layer containing an aramid fiber for enhancing the bulletproof / explosion-proof effect or a lead film layer for enhancing a simple nuclear protection effect. By improving the bulletproof and explosion-proof effect, the evacuation shelter 1 exhibits its effect when used in a conflict area or the like. In addition, by increasing the nuclear protection effect, it can be expected that the damage will be reduced in the area where nuclear damage is expected. In other words, in order to deal with radioactive materials that reach a half-life in a short time when nuclear damage occurs, the emergency evacuation stay can be carried out in the shelter 1 for evacuation that has been radiation-isolated for a short period of time. is there. If protective clothing, a mask, etc. for protecting from radiation are prepared in advance, the safety of evacuees can be ensured more reliably.

  The reinforced plastic used in this embodiment is a composite material whose strength is improved by including fibers such as so-called glass, carbon, and aramid fibers in unsaturated polyester, vinyl ester, and phenol resin. Reinforced plastic is a material having higher specific strength than metal materials, light weight, and excellent heat resistance and corrosion resistance. The shelter body 3 made of this reinforced plastic is strong against impact, and can be made into an evacuation shelter 1 having a structure that is hard to break, hard to break, and hard to deform. However, with regard to this reinforced plastic molding technology, the “hand lay-up method” (hand stacking method), which is highly dependent on the skill level of the person responsible for the work process, is generally strengthened by hand. It must be based on the L-RTM method (resin press-in method using a simple hermetic mold) that can homogenize product strength and quality (particularly strength), not plastic molding technology. This is because individual differences in the strength of the finished product are not allowed due to the background that the shelter body aims to protect human lives.

(How to use shelter for evacuation)
A case of an earthquake disaster will be described as an example. When a large pre-earthquake occurs or when an emergency earthquake warning device is notified, it takes about 10 seconds to several tens of seconds before a major earthquake occurs. The evacuee A when a large earthquake has a pre-shock or notice opens the hatch 9 and enters the evacuation space 5 from the entrance 7 (FIGS. 1 and 2). The evacuated refugee A completes evacuation by closing the hatch 9 and locking it with the lock mechanism 9c. The breathing of the evacuee A is ensured by the action of the ventilation port 15. Even if the house collapses or the earth and sand collapses, the refugee A is protected by the evacuation shelter 1 and is not crushed by them. The hatch 9 at the time of installation may be left open as shown in FIG. This is so that evacuation can be performed quickly.

  The shelter 1 for evacuation (the shelter body 3) is watertight, so it will not sink even if it is swept away by a tsunami or the like. It also protects Evacuee A from collision with rubble. The evacuation shelter 1 immediately after being struck by the tsunami receives an impact or rotates due to its momentum or collision with other spills, but the evacuee A can evacuate safely from these. When the tsunami has settled, the underwater posture may be controlled so that the center of gravity of the shelter body 3 is changed by the movement of the weight 13 or the refugee A and the hatch 9 is at the top. Since the hatch 9 can be opened, the outside air can be taken in, or the refugee A himself can look out from the entrance 7 and see the surroundings (FIG. 3).

  For example, in the storage of the shelter 1 for evacuation, there are simple toilets, helmets, emergency call whistles and smoke cylinders, flashlights, radios, solar cells and other simple generators, food and drink, medical supplies, etc. Should be stockpiled. Further, together with or instead of these, the above-described protective clothing, mask, etc. can be stored as required.

DESCRIPTION OF SYMBOLS 1 Evacuation shelter 3 Shelter body 5 Evacuation space 6 Grasp bar 7 Entrance 9 Hatch 9a Packing 9b Hinge 9c Locking mechanism 11 Fixing structure 11a Floor board 11b Opening 11c Storage space 11d Lid 13 Weight (drinking water in a container)
15 Ventilation port 17 Daylighting window 21 Installation stand

Claims (5)

A spherical shelter body with a water-tight evacuation space;
In the installed state, at least one doorway opened on the side of the shelter body so that people can enter and leave the evacuation space;
A hatch that seals the doorway with water,
On the bottom of the shelter body in the installed state, a fixing structure for installing a weight for holding the same underwater posture as in the installed state is provided.
Evacuation shelter characterized by that. The fixing structure includes a first fixing structure that releasably fixes the weight, and
A second fixing structure is provided at a portion other than the bottom,
By fixing the weight to the second fixing structure, the underwater posture of the shelter body can be maintained so that the entrance is located above the water surface.
The shelter for evacuation according to claim 1. The weight is constituted by a liquid container that can contain a liquid,
The shelter for evacuation according to claim 1 or 2. The desired location of the shelter body is provided with at least one handle that can be caught by a refugee who walks to move the center of gravity of the shelter.
The shelter for evacuation according to any one of claims 1 to 3. The shelter body is composed of a layer containing an aramid fiber for enhancing the bulletproof and explosion-proof effect, or a reinforced plastic containing a lead film layer for enhancing a simple nuclear protective effect.
The shelter for evacuation according to any one of claims 1 to 4, characterized in that.

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