MD1508Z - Earthquake protection devices - Google Patents

Abstract

The invention relates to devices for individual protection of people, namely to ensure the safety of people in residential buildings in the event of natural disasters, in particular during an earthquake.The earthquake protection devices comprise a body of pyramidal shape with a base (1) and lateral faces, the common rectilinear edge of which is perpendicular to the base (1). Three edges (3, 4, 5), at the upper ends, are made arcuate in longitudinal direction, with the possibility of their permanent overlap connection to the free end of the rectilinear edge, and the lower ends of all edges are fixed perpendicularly on the corners of the base (1). Between the edges, at the base (1) and in the middle of the body, are rigidly fixed elongated horizontal crossbars (6), (7). According to the first embodiment of the device, the profile of the lateral faces is made hollow of closed type, and according to the second embodiment of the device, the lateral faces are made solid, at the same time the upper part of the lateral faces is uniformly bent at an angle, and at least one of the faces is made in the central part with a cutout of dimensions correlated with a man's height.

Description

The invention relates to devices for individual protection of people, namely for ensuring the safety of people in residential buildings in the event of natural disasters, in particular during an earthquake.

Traditionally, devices of this type are made in the form of a volumetric mobile block of aerodynamic type, preferably pyramidal, conical, ellipsoidal or spherical, capable of weakening the impact and pressure caused by destruction during an earthquake. However, among the modifications listed above, pyramidal-shaped constructions are the most preferred.

A device is known, which allows reducing seismic risks, which contains a triangular pyramid-shaped body, made of a metal plate, on one of the sides of which a door is made with the possibility of rotating on joints in the transverse direction. On the adjacent side, for strength, two metal support rods are fixed in the longitudinal and transverse directions. At least two ventilation holes are also provided in the construction. The angular areas of the body can be used for placing objects and rescue products for human survival [1].

The disadvantages of the known device consist in the sufficiently large overall dimensions, which occupy a significant area in the room, as well as in the large dimensions of the surface subjected to the impact action and pressure of falling objects.

The closest technical solution to the claimed object is the earthquake protection device, suitable for modern buildings, which allows its reasonable placement in a corner of the room, without occupying a large area. This is due to the execution of the body of the earthquake-resistant device in the shape of a rectangular pyramid, consisting of four rigid triangular profiles. At the same time, two adjacent side faces are joined at a right angle, and their common rectilinear edge is perpendicular to the base. With these faces, the device is installed in the vertical corner of the room. The third side face, protruding into the space of the room, performs the function of a door, fixed by joints on the long side of one of the rectangular faces, with the possibility of engaging with a clamp of another long face. Ventilation holes are uniformly executed on all faces of the pyramid [2].

However, the described construction does not provide increased reliability of protection against various falling objects and fragments formed as a result of the earthquake, since the protection is provided by only one side face with ventilation holes. At the same time, the area of the face, subjected to action, is quite extensive and, therefore, unstable to the action of external force.

Moreover, the disadvantage of this device is that there is only one support edge in the vertical plane, which in combination with the large surface area of the side face significantly reduces the protective properties.

The problem solved by this invention consists in increasing the reliability and operational safety of the construction during earthquakes and, consequently, increasing the effective protection.

The problem is solved by proposing two earthquake protection devices, the first device contains a pyramidal-shaped casing with a base and side faces, two of which are adjacent and are joined at a right angle, and the common rectilinear edge of which is perpendicular to the base. The base is made rectangular in one piece, and the profile of the side faces is made hollow of a closed type and consists of four edges, each of which is made in the form of an angular profile with shelves, diverging at a right angle, at the same time three edges, at the upper ends, are uniformly arched in the longitudinal direction, with the possibility of their non-removable joining by overlapping with the free end of the rectilinear edge, and the lower ends of all edges are fixed perpendicular to the corners of the base. Between the edges, at the base and in the middle of the casing, elongated horizontal rulers are rigidly fixed.

The second device contains a pyramidal-shaped housing with a base and side faces, two of which are adjacent and are joined at a right angle, and the common straight edge of which is perpendicular to the base. The base is made rectangular in one piece, with continuous side faces limited by four edges, each of which is made in the form of an angular profile with shelves, diverging at a right angle, at the same time three edges, at the upper ends, are uniformly arched in the longitudinal direction, with the possibility of their non-removable joining by overlapping with the free end of the straight edge, and the lower ends of all edges are fixed perpendicular to the corners of the base. Between the edges, at the base and in the middle part of the housing, elongated horizontal rulers are rigidly fixed. The upper part of the continuous side faces is uniformly bent at an angle, and at least one of the faces is made in the central part with a cut of dimensions correlated with the human stature.

In the device, according to both embodiments, on the intermediate arched edge, between the horizontal rulers and the top of the casing, a protective gasket can be placed, made, from the upper part, with a beak-shaped protrusion, and the transverse dimensions of the shelves of the straight edge can be at least twice as large as the transverse dimensions of the shelves of the arched edges, at the same time the position of the horizontal rulers, in the middle part of the side faces, can be correlated with the height of the person.

Also, in the device according to the second embodiment, the cut may be oval in shape.

The technical result of the invention consists in ensuring an increased level of human protection against high mechanical loads that occur during an earthquake.

This result is based on the fact that in both embodiments of the device there is a minimal destruction surface and a damaging effect, determined primarily by the geometric shape of the body, almost rectilinear in the vertical plane, which reduces the area of the attack surface of the device both vertically and horizontally, and the impacts of falling fragments, which mechanically slide from the top of the body, so that the probability of human injury is minimal. This effect is ensured not only in the embodiment of the body with side faces made of one piece, but also in the embodiment of the body with a hollow profile of the side faces with elongated horizontal bars.

Moreover, the aerodynamic shape of the upper part of the devices, consisting of three edges, uniformly arched in the longitudinal direction, ensures the deflection movement of falling fragments and other dangerous objects, which appear during the earthquake, due to the angular sliding directed downwards, which reduces the force of the vertical impact. At the same time, the joining of the ends of all edges by overlapping ensures the upper part assembly resistance to various force actions, and the presence of the beak-shaped protrusion in the protective gasket on the intermediate arched edge, which covers the upper part assembly, additionally enhances the resistance of the upper part assembly and, therefore, increases the reliability of the devices.

The elongated horizontal bars, used in both embodiments of the device, form protective belts in the vital areas of the human body and strengthen it vertically, while in the first embodiment of the device, the hollow sections between the bars ensure entry into and exit from the device, which provides increased reliability and additionally ensures material savings.

Edges and rulers provide protection in case of lateral compression.

In the second embodiment of the device, reliable protection is additionally provided by the uniformly curved outer lining of the side faces, limited and fixed on all sides by the arched edges and base.

The oval shape of the entry/exit cut in the second embodiment of the device, which has dimensions correlated with the human stature, is the most effective, ensuring a reduced level of trauma and ensuring easy passage through said cut.

The compact surface of the device offers the possibility of placing the device in the rectangular corners of the room near the main walls or under the load-bearing concrete joists of the building frame, which constitutes an additional safety factor when using it.

As additional protection elements, in both embodiments of the device it is possible to equip it with protective helmets and fastening belts, which can be used when placed inside the device. Moreover, a first aid kit, a seismic transducer and other objects and survival means, necessary for saving people, can also be placed in the devices.

The invention is explained by the drawings in Fig. 1 - 4, which represent:

- Fig. 1, general view of the earthquake protection device, according to its first embodiment;

- Fig. 2, front view of the device, according to its first embodiment;

- Fig. 3, rear view of the device, according to its first embodiment;

- Fig. 4, general view of the device, in axonometry, according to its second embodiment.

The earthquake protection device, according to the first embodiment (Fig. 1, 2 and 3), contains a pyramidal-shaped casing, formed by a rectangular base 1 and side faces, two of which are adjacent and joined at a right angle, and the common straight edge 2 of which is perpendicular to the base 1. The latter is made rectangular in one piece, and the profile of the side faces is made hollow of a closed type and formed by four edges 2, 3, 4 and 5, each being made in the form of an angular profile with shelves, diverging at a right angle, at the same time three edges 3, 4 and 5, at the upper ends, are uniformly arched in the longitudinal direction, with the possibility of their non-removable joining by overlapping with the free end of the straight edge 2, and the lower ends of all edges 2, 3, 4 and 5 are fixed perpendicularly to the corners of the base 1. The upper ends of the edges 3 and 5 are arched at the same angle, and the upper end of the edge 4 is arched more curved than that of the edges 3 and 5. The same bending angles of the edges 3 and 5 allow their overlapping connection with the upper end of the straight edge 2, during the assembly of the structure (Fig. 3), while the edge 4 with the arched upper end covers the preliminary assembly performed from above (Fig. 1). Between the edges 2, 3, 4 and 5, at the base 1 and in the middle part of the casing, the elongated horizontal bars 6 and 7 are rigidly fixed, which form the rigidity belts of the entire structure (Fig. 1-3). These elements can be fixed to the shelves of the edges 2, 3, 4 and 5, for example, by electric welding or bolted joints.

To strengthen the upper part of the casing, on the intermediate arched edge 4, a protective gasket 8 is placed, made in the upper part with a beak-shaped protrusion 9, which starts from the horizontal bars 7 and repeats the shape of the edge 4 (fig. 1, 2, 3).

The cavities, formed between the edges 3, 4 and 5 and the elongated horizontal bars 6 and 7, are provided for penetration into the interior of the device and perform the function of entry/exit gaps.

The earthquake protection device according to the second embodiment (Fig. 4) is similar to the device according to the first embodiment and contains a pyramidal-shaped housing formed by a rectangular base and similar edges 10, 11 and 12 (Fig. 4), the lower ends of which are fixed perpendicularly to the corners of the base, and the upper ends are arched and irremovably joined by overlapping with the upper end of the straight edge, at the same time between the edges 10, 11 and 12, at the base and in the middle of the housing, elongated horizontal rulers are rigidly fixed (not shown in Fig. 4).

Also, all the lateral faces of this device (in Fig. 4 only two faces 13 and 14 are shown) are made continuously and fixed to the edges 10, 11, and 11, 12, forming a protective volume closed from the inside. Following the shape of the pairs of arched edges 10, 11, and 11, 12, the lateral faces 13 and 14 repeat it, which leads to the respective formation of the shapes of the lateral faces 13, 14. These faces 13, 14 (Fig. 4), are uniformly bent, creating with two lateral faces (not shown in Fig. 4) the claimed shape of the device with the profile of the lateral faces made continuously.

For the human to enter the device (fig. 4), at least one of the faces 13 or 14 is made in the central part with the oval-shaped cut 15 and dimensions, correlated with the human stature. However, to simplify the exit in case of collapse or fall of the construction on the side made with the cut 15, it is provided to make oval-shaped cuts on two lateral faces.

The dimensions of the base 1 of the earthquake protection device qualify the capacity of the housing and are determined by the size of the user, taking into account the possibility of permissible changes in his posture, for example, to relieve static muscle tension.

The rectangular shape of the base 1 can be transformed along the length of the sides depending on the construction of the room where the protective device will be installed, including transforming it into a square. It should be noted that it is the square shape of the device that is most optimal for placing the human figure.

The construction of the device can be made based on the universal average user or the individual size of a person. If necessary, the rectilinear edge 2 can be fixed to the walls of the room.

Concrete examples of implementation

In the process of developing the earthquake protection devices described above, real experimental models were prepared, which allow the evaluation of the possibilities of the assembly process, with the following dimensional parameters.

For the earthquake protection device with the side face profile made in cav. The base 1 of the device is made in the form of a square plate with a thickness of 0.04 m and sides with a length of 0.5 m; the rectilinear edge 2 is made with a height of 2.26 m, and the angular profile with shelves, diverging mutually perpendicularly, with a size of 0.041 m and a thickness of 0.26 m; the arched edges 3, 4 and 5 up to the bending point with a height of 1.86 m, and the arched section with a length of 0.5 m and an angle of 45°, at the same time the common straight edge 2 up to the bending point has a height of 1.67 m, the arched section has a length of 0.7 m and an angle of 52.8°, and the angular profile with shelves, diverging mutually perpendicularly, of the edges 2, 3, 4 and 5 has a size of 0.68 m and a thickness of 0.01 m; the protective gasket 8 located on the common straight edge 2 has a length of 0.75 m. All metal parts are made of steel grade 8509-93 (http://www.gosthelp.ru/text/G0 ST850993Ugolkistalnyego.html).

The edges 2, 3, 4 and 5 of the casing are rigidly fixed to the corners of the base 1 by means of a welded joint, while their upper ends are joined by overlapping on the rectilinear edge 2, forming a rigid node. At the base 1 of the device and in the middle part, at a height of 1.4 m, between the edges, elongated horizontal bars 6 and 7 are installed, fixed to the shelves of the edges by means of a welded joint, forming protective belts in the vital areas of the human body.

On the intermediate arched edge 4, starting from the rulers 7 towards the top of the casing, the protective gasket 8 is fixed by welding, along the edge 4, which repeats the profile and dimensions of this section of the edge 4, which has a beak-shaped protrusion 9 at the end.

The protective gasket 8 provides additional protection against vertical-sliding impacts, as well as protection of the node at the top of the structure, where the curved edges 3, 4 and 5 and the straight edge 2 join.

The main elements of the device with a continuous side profile are the same as for the device with a hollow side profile, these structural elements forming the device casing. However, the device with a continuous side profile is distinguished by the presence of an external lining made of sheet steel with a thickness of 0.002 m, grade 8509-93. Each side 13, 14 is fixed by welding to the shelves of adjacent edges 10, 11 and 12, repeating the curvilinear profile and the construction of their skeleton. On one of the sides 14, which when installing the device are located directed inside the free space of the room, an oval-shaped cut 15 is made. The largest dimensions of the cut 15 have a vertical length of 0.8 m, and a horizontal length of 0.4 m, which is calculated for non-traumatic penetration into the device.

In the presence of finished parts, which form the construction, the assembly process of the device with the hollow profile of the side faces lasted 3 hours, and the assembly process of the device with the continuous profile of the side faces lasted 4 hours. Reliability tests of the construction were carried out on 1:3 reduced samples of both models of the device. The loads of falling weights are also reduced proportionally in relation to the known average values. The devices were tested for protection and resistance to various types of vertically directed impacts, at different angles of incidence, as well as under pressure from above and from the sides. Vertical impacts were also imitated by blows of a heavy hammer along the axes of the supposedly possible falls during the destruction of buildings due to the earthquake.

During the tests, the device was tested both in a vertical position and sequentially placed on all sides in a horizontal position, simulating a fall and collapse. During the tests, a softwood human mold was inside the device, which allowed fixing the traces of the action of external factors during the tests. Tests of the manufactured models showed the following:

1. The earthquake protection device with the hollow profile of the side faces withstood impacts in the tip region without deformations that threaten the integrity of the casting. This refers to both impacts directed vertically directly to the tip (node) of the edge connection, and applied to flat surfaces (imitating a flat plate or stone), and impacts, the direction of which differed from the vertical vector by more than 5° and/or were applied by heavy objects of non-planar shape at the point of impact. In more than 70% of cases, all impacts were deflected (slipped), due to the very small area of the tip (node) for vertical impact.

2. The earthquake protection device with the side profile made from one piece additionally demonstrated greater protection against small fragments and protruding or sharp-pointed fragments.

Thus, the tests confirmed that the main factors in the security and reliability of the devices are:

- small attack surface (destruction) in the vertical plane;

- the aerodynamic shape of the upper part of the devices;

- overlapping construction of the tip and beak-shaped protrusion;

- the presence of joined vertical supports, which together form a support equivalent to a column;

- the presence of two safety belts, formed by horizontal bars.

All these device features ensure an increased level of security.

1. CN 105617570 A 2016.06.01

2. CN 201704998 U 2011.01.12

Claims (6)

1. Earthquake protection device, comprising a pyramidal-shaped casing with a base (1) and side faces, two of which are adjacent and joined at a right angle, and the common straight edge (2) of which is perpendicular to the base (1), characterized in that the base (1) is made rectangular in one piece, and the profile of the side faces is made hollow of a closed type and formed by four edges (2, 3, 4, 5), each being made in the form of an angular profile with shelves, diverging at a right angle, at the same time three edges (3, 4, 5), at the upper ends, are uniformly arched in the longitudinal direction, with the possibility of their non-removable joining by overlapping with the free end of the straight edge (2), and the lower ends of all edges (2, 3, 4, 5) are fixed perpendicularly to the corners of the base (1); between the edges (2, 3, 4, 5), at the base (1) and in the middle of the casing, elongated horizontal rulers (6), (7) are rigidly fixed. 2. Earthquake protection device, comprising a pyramidal-shaped housing with a base and side faces, two of which are adjacent and joined at a right angle, and the common rectilinear edge of which is perpendicular to the base, characterized in that the base is made rectangular in one piece, with continuous side faces limited by four edges, each of which is made in the form of an angular profile with shelves, diverging at a right angle, while three edges (10, 11, 12), at the upper ends, are uniformly arched in the longitudinal direction, with the possibility of their non-removable joining by overlapping with the free end of the rectilinear edge, and the lower ends of all edges are fixed perpendicular to the corners of the base; between the edges (10, 11, 12), at the base and in the middle of the housing, elongated horizontal rulers are rigidly fixed; the upper part of the continuous side faces is uniformly bent at an angle, and at least one of the faces is made in the central part with a cut (15) of dimensions correlated with the human stature. 3. Device according to claims 1 and 2, characterized in that on the intermediate arched edge (4), between the horizontal rulers (7) and the top of the casing, a protective gasket (8) is placed, made, from the upper part, with a beak-shaped protrusion (9). 4. Device according to claims 1-3, characterized in that the transverse dimensions of the shelves of the rectilinear edge (2) are at least twice as large as the transverse dimensions of the shelves of the curved edges. 5. Device according to claims 1-4, characterized in that the position of the horizontal rulers (7), in the middle part of the side faces, is correlated with the human stature. 6. Device according to claim 2, characterized in that the cut (15) is oval in shape.