RU79246U1 - DEVICE FOR EMERGENCY DESCENT OF A HUMAN FROM A ALTITUDE OBJECT, DUMPING DEVICE FOR THIS DEVICE, SUPPORT STRUCTURE OF THE RACK FOR THIS DEVICE AND THE SYSTEM FOR FILLING THE INFLATEMENT CHAMPS OF THIS DEVICE - Google Patents

Abstract

The invention relates to a device designed to save people in emergency situations. The device contains a satchel with means for attaching it to the back of the person being saved and a part adjacent to the back of that person is made in the form of a lodgement and inside which is placed an inflatable frame that includes an inflatable toroidal chamber associated with inflatable spokes that are connected to the upper toroidal chamber of a cylindrical an inflatable structure composed of one above the other mountainous inflatable chambers with a diameter smaller than the diameter of the first of the said inflatable chambers to form a con mustache brake screen. A support element of the satchel is attached to the upper inflatable toroidal chamber of a smaller diameter. The device is equipped with a cylindrical chamber inflatable to atmospheric pressure with openings for venting excess pressure at the time of landing, located inside a cavity formed by a cylindrical arrangement of inflatable toroidal chambers of smaller diameter and sealed on the side opposite to the placement of a toroidal chamber of larger diameter. The lodgement in the shape of the human back is attached to the upper inflatable toroidal chamber of a smaller diameter with ribbons made with the possibility of delamination or separation along the length into equal strength parts under load. The gas source for the inflatable mountain chambers is made in the form of simultaneously manually activated gas generators located in the cavities of each isolated volume of the inflatable chambers and spokes. 2 ill.

Description

The invention relates to a device designed to save people in emergency situations, mainly for lowering people from the upper floors of high-altitude objects in case of fire or other emergency situations.

Currently, to protect people or their descent from the upper floors of high-rise objects, individual protective equipment is widely used, which is an openable dome for braking the fall, to which the rescued object is attached. Such an inflatable device is located in a satchel, equipped with a mounting system on the human body and a gas filling system and contains a main inflatable brake element and an additional inflatable brake element, which in the working condition of DNTE has the shape of a truncated cone directed upward by a large base, a person is located on a smaller base, and the main inflatable brake element is located in the area of the smaller base and is made in the form of inflatable tori located one above the other.

Using such a tool for emergency descent of a person from a high-rise object, the user attaches a support lodgement on his back in the form of a satchel connected through an intermediate membrane and depreciation means with a parachute laid in it, is located in a sitting or standing position on the platform or in the opening of the high-rise object, so that his back with a satchel is facing into free space outside the object, with the help of the saved person or in addition to it, a means of opening the inflatable system and forming mountainous e elements and elements of the landing gondola, for which the corresponding chambers are inflated with gas.

When the system is opened, the larger toroidal base of the pneumatic carcass is placed in an approximately vertical position, after the involuntary, proactive or forced descent of the rescued person from the platform or from the opening of a high-altitude object into the free space outside its larger and smaller mountainous base of the parachute is rotated when falling into approximately horizontal position and give the elastic skirt the shape of a conical-like braking surface so that when the elements are horizontal of the pneumatic frame, the lodgement with the rescued person lying on it, and the intermediate membrane were located directly above the smaller mountainous base of the frame, when the landing gondola comes in contact with the landing surface, which completes the descent, the kinetic energy of the saved person is extinguished during lowering from the smaller toroidal base of the frame to the lower toroidal element of the landing gondola due to rupture or disconnection of elements connecting the middle sections of elastic rods of variable length.

A device is known for emergency descent of a person from a high-altitude object, containing a support lodgement in the form of a satchel, which is equipped with means for fastening it on the back of a rescued person and connected through an intermediate membrane and depreciation means with a parachute folded in it, the parachute includes inflatable chambers designed to form when they pressurize larger and smaller mountainous bases of the pneumatic frame, an elastic skirt that is connected to the chambers of the larger and smaller bases and is designed to form when they pressurize a cone-shaped brake screen, and inflatable chambers to form mountainous elements of the landing gondola when they are pressurized with the formation of a cavity in it, designed to move the rescued person from the smaller toroidal base of the frame to the lower toroidal element of the landing gondola when the descent is completed, parachute deployment means, including an initiating device and elastic gas pipelines communicating the inflatable chambers of the parachute with a gas source through the shutoff valves. In this device, the gas source is a cylinder with compressed

gas or a gas generator, which is fastened with a support lodgement and communicated through shut-off valves with inflatable chute chambers by means of flexible gas pipelines. The landing gondola is made in the form of a truncated cone and includes chambers for forming, when they are boosted, the lower landing and at least one intermediate torus connected by power tapes. The brake screen in the working position is made in the form of a truncated cone with a solution angle of 90-130 °. The pneumatic frame is made with inflatable chambers, forming spokes when they are pressurized, which are placed along the generators of the cone of the brake screen and connected to a larger and smaller torus base. The parachute deployment means include an initiating device and a compressed gas cylinder or gas generator communicated through shut-off valves with inflatable chute chambers via flexible gas pipelines. Cushioning means include variable-length elastic rods in which the ends are fastened to the chamber of the smaller base of the pneumatic frame and with an intermediate membrane along their perimeter, and the middle sections are folded into at least two layers by discontinuous or otherwise disconnected elements with the possibility of suppressing kinetic energy the person being saved in the process of lowering him from the smaller toroidal base of the pneumatic carcass to the lower toroidal element of the landing gondola (RU publ. application No. 2003124165, А62В 1/00, publ. 02/27/2005).

The disadvantage of this device is its significant dimensions and weight, as well as low efficiency.

A device is known for emergency descent of a person from a high-altitude object, containing a supporting element in the form of a satchel, equipped with means for fastening it on the back of a rescued person and connected through an intermediate membrane with a parachute folded in it, including inflatable chambers designed to form upper and lower bases when they are supercharged pneumatic skeleton, forming an elastic skirt, forming when it is connected with inflatable chambers a cone-shaped brake screen, parachute deployment means, including and Tocnik gas, integrated with the knapsack and communicating with the inflatable chambers by means of flexible elastic pipeline, and

inflatable chambers for the formation of the landing gondola, in it the inflatable chambers of the landing gondola are made in the form of a lower base and struts forming a frame and communicating with the lower base of the pneumatic frame, while the landing gondola is provided with vertical and horizontal partitions, lower and upper, forming cavities, in openings are made to the lower partition, and the upper partition is fastened to the lower base of the pneumatic frame and to the satchel. While the cavity formed by horizontal and vertical partitions, made in the form of honeycombs. The device is also equipped with a foaming mechanism communicated with the cavities of the landing nacelle for filling them with quickly hardening or other foam, and an automatically unlocked safety device fastened at one end with a satchel and the other with structural elements of the building during the evacuation of the rescued person (RU No. 22887575, A62B 1/00, B64D 25/14, publ.).

This technical solution was made as a prototype for the declared objects.

The disadvantage of these known solutions is that the design data of the devices in terms of providing energy suppression when the system lands with a person is not effective enough. Different solutions use different kinetic energy damping systems. Including the return energy, the vector of which is directed opposite to the fall of the device. When landing, deformation of gas-filled tori of the pneumatic frame occurs, during which the kinetic energy and the movement of the person being saved are extinguished. However, gas-filled tori or honeycomb components, also filled with gas, after deformation, experience a return process of shape restoration, in which there is a force directed upwards. And this force, which is a load, also acts on a person. Such a device, on the principle of suppressing energy, is more like a sports apparatus such as a trampoline, to the grid of which a person is tied. Loads acting on a person and having alternating values that change in a very short period of time are factors that negatively affect a person and can lead to damage.

The present invention is aimed at solving the technical problem of improving the device in terms of forming a non-linear elastic characteristic of the damping of the damping system, which provides an effective quenching of kinetic energy and a decrease in reactive return action from gas-filled tori of the pneumatic frame.

The technical result achieved in this case is to increase operational qualities while simplifying the device, increasing the safety of use and reducing injuries.

The specified technical result is achieved in that the device for emergency descent of a person from a high-altitude object, containing a satchel with means for fastening it on the back of the rescued person and a part adjacent to the back of this person, is made in the form of a supporting element, and an inflatable frame including an inflatable toroidal chamber associated with inflatable spokes that are connected to the upper mountain chamber of a cylinder-shaped inflatable structure composed of one above the other placed mountainous on inflatable chambers with a diameter smaller than the diameter of the first of the mentioned inflatable chambers, for the formation of a cone-shaped brake screen, while the support element of the backpack is attached to the upper inflatable toroidal chamber of a smaller diameter, as well as a gas source for inflatable mountain chambers, it is also equipped with a cylindrical chamber inflatable to atmospheric pressure with holes for bleeding overpressure at the time of landing placed inside the cavity formed by a cylindrical arrangement of inflatable toroidal chambers smaller diameter and sealed on the reverse side of the placement of a toroidal chamber of a larger diameter, the backpack support element is attached to the upper inflatable toroidal chamber of a smaller diameter with ribbons made with the possibility of delamination or separation along the length into equally strong parts under load, and the gas source for inflatable mountain chambers is made in the form of simultaneously activated manually generated gas generators placed in the cavities of each isolated volume of inflatable chambers.

The specified technical result is achieved by the fact that the damper

the device for the device for emergency descent of a person from a high-altitude object is a cylinder-shaped chamber inflated to atmospheric pressure with holes for bleeding off excess pressure when it is loaded by external force, while this cylinder-shaped chamber is placed under the supporting element to which the person to be rescued is attached and attached to inflatable chambers for emergency man descent from a high-altitude object.

The specified technical result is achieved by the fact that in the damper device, the cylinder-shaped chamber is made divided into at least two cavities, each of which is connected with the atmosphere.

The specified technical result is achieved by the fact that in the damper device, the cylinder-shaped chamber is divided into at least two cavities, which are interconnected and one of which communicates with the atmosphere.

The specified technical result is achieved in that the supporting structure of the satchel for the device for emergency descent of a person from a high-altitude object is a satchel wall made in the form of an anatomical tool tray in the shape of the back of a person, attached to a person and by means of explosive elements to inflatable chambers of the device for emergency descent of a person from a high-rise object.

The specified technical result is achieved in that the inflatable chamber filling system of the emergency man descent device from a high-altitude object is simultaneously manually activated gas generators, each of which is placed in the corresponding cavity of the inflatable chamber.

The specified technical result is achieved by the fact that in the inflatable chamber filling system of the emergency man descent device, at least one of the spokes has a gas generator connecting two chambers isolated from the volume of other inflatable chambers and spokes.

The indicated features for each object are significant and interconnected with the formation of a stable set of essential features sufficient to achieve the specified technical result.

The present invention is illustrated by a specific example, which, however, is not the only possible, but clearly demonstrates the possibility of achieving the above set of features of the required technical result.

Figure 1 is a top view of a device for emergency descent of a person from a high-altitude object;

figure 2 is the same as in figure 1, side view;

figure 3 - the first embodiment of a cylindrical camera

4 is a second embodiment of a cylindrical camera

figure 5 - installation of a gas generator in the spoke.

According to the present invention, there is considered a device for the emergency descent of a person from a high-altitude object, which contains a satchel with means for securing it on the back of the person being saved and the part of which is adjacent to the back of this person is made in the form of a supporting element and inside which an inflatable frame is placed.

The specified frame includes an inflatable toroidal chamber associated with inflatable spokes, which are connected to the upper toroidal chamber of a cylindrical inflatable structure composed of one above the other mountainous inflatable chambers with a diameter smaller than the diameter of the first of the mentioned inflatable chambers, to form a conical brake screen.

To the upper inflatable toroidal chamber of smaller diameter is attached a supporting element of the satchel. The gas source is intended for inflatable mountain chambers and the creation in them of a stable pressure exceeding atmospheric.

The device also contains a damper device in the form of a cylinder-shaped chamber inflatable to atmospheric pressure with calibrated openings for venting excess pressure at the time of landing. This chamber is located inside the cavity formed by

a cylindrical arrangement of inflatable toroidal chambers of smaller diameter. On the bottom side, this chamber is sealed (on the side opposite to the placement of a toroidal chamber of larger diameter). The chamber of the damper device can be made divided into at least two cavities, each of which communicates with the atmosphere through a separate calibrated hole. Separated cavities can communicate with each other, and one of which communicates with the atmosphere.

The supporting element of the knapsack is made in the form of an anatomical tool tray in the shape of a human back, attached to the upper inflatable toroidal chamber of smaller diameter with ribbons made with the possibility of delamination or separation along the length into equal strength parts under load. In general, the support structure of a knapsack for an emergency descent device for a person from a high-altitude object is a satchel wall made in the form of an anatomical tool tray in the shape of a person’s back, attached to a person and by means of explosive elements to inflatable chambers of a person’s emergency descent device from a high-altitude object.

The gas source for the inflatable mountain chambers is made in the form of simultaneously manually activated gas generators located in the cavities of each isolated volume of the inflatable chambers and spokes. In the general case, the inflatable chamber filling system of the emergency man descent device from a high-altitude object is simultaneously manually activated gas generators, each of which is placed in the corresponding cavity of the inflatable chamber and the spokes connecting these chambers, isolated from the volume of other inflatable chambers and spokes.

A specific embodiment of the invention is described below.

The device for emergency descent of a person from a high-altitude object is an inflatable braking device (NTU). This device is designed for the individual rescue of people and valuable goods located on any floor of high-rise buildings, during a fire or other emergency situations requiring urgent evacuation. The possibility of creating such a device appears due to the fact that NTU combines both an effective means of braking during descent in the atmosphere and a shock-absorbing device.

When using NTU, special management skills are not required, you can use it almost instantly, it protects during the descent from impacts against walls and exposure to high temperature and open flame, the presence of a cushioning system. A cushioning system ensures safe landing.

NTU is the main component of the rescue system (FIGS. 1, 2) and is designed to create a form for the device and provide the estimated speed of descent and landing. NTU consists of two cascades: the main 1 (ONTU), which has the shape of a "well", and additional 2 (DNTU), which has the shape of a truncated cone. In an inflated, deployed configuration, the device has the shape of a conical-cylindrical hollow body, is aerodynamically stable and self-orientating in flight, so that it will constantly tend to descend in the "well down" direction.

The main 1 and additional cascades 2 are connected by inflatable needles 3, which are placed along the generatrices of the DNTU cone and are covered with a conical airtight cover. The hermetic shell of NTU is filled with gas under excess pressure, as a result of which it does not change its shape during descent. The outer side of the NTU is equipped with a heat-shielding coating that ensures safety when passing through open fires.

DNTU is designed to provide effective aerodynamic drag, consists of an upper torus 4, to which spokes 3 are attached, having a connection with the volume of the upper torus. The lower part of the spokes is attached to the power torus 5 ONTU. The spokes are made in the form of inflatable shells, which can be connected by cavities with cavities of tori 4 and 5 or have an independent internal volume, i.e., an isolated volume.

ONTU has the shape of a "well" formed by tori 6, interconnected along a generatrix and connected to a power torus 5. The lower torus 6 is closed by an airtight membrane 7. In the upper plane of the upper torus of ONTU, explosive elements 8 are attached, to the other end of which a lodgement 9 is attached. The explosive elements provide the extinguishing of part of the kinetic energy of the person being saved at the moment the NTU touches the ground.

A device for emergency descent of a person from a high-altitude object is placed in a satchel, in which the lodgement is a supporting element for fitting to a person’s back. The satchel is equipped with means of fastening it on the back of the person being saved 10. The satchel itself is not shown, it can be of the same design as described in RU No. 2288758. Placement of the person 10 is carried out in the lodgement 9 of the device Type A. The person is attracted by the back system to the lodgement. The lodgement is part of a satchel in the form of which NTU with all its systems is laid. The lodgement has an anatomical shape of the human back, to ensure uniform pressure at the time of landing. The lodgement is designed to accommodate a person during the flight in a lying position and its fixation. A man is attracted by a tethered system to the lodgement with his back.

In the cylindrical cavity of ONTU there is a damping bag 11 made of durable airtight material. The bag has the shape of a cylinder with bottoms. The bag has calibrated holes 13 to relieve excess pressure at the time of landing. The bag with the help of stretch marks is attached to the inner part of the ONTU and the upper part to the lodgement. When NTU is filled with gas, the bag unfolds and is filled with air to atmospheric pressure. At the time of landing, the inertial mass of a person presses on the bag through the lodgement, creating excessive pressure in it, which ensures the extinguishment of part of the kinetic energy of the person being saved when the NTU touches the ground. To achieve more effective braking, the damping bag 11 can be divided into the cavities of FIG. 3, each of which is connected to the atmosphere by the openings 13. The cavities of the damping bag 11 can communicate with each other by the openings 13 according to the circuit shown in FIG. 4, one of which communicates with the atmosphere.

The device is made with a shock absorption system (damping system of the device), designed to reduce the value of shock overloads to a safe level.

The damping system of the device consists of two elements: discontinuous elements 8 and a damping bag 11. The discontinuous elements are tapes that, when loaded, delaminate or separate along the length into two equally strong parts, while extinguishing

kinetic energy. Explosive elements can be performed by a variable breaking strength. Such discontinuous elements increase the range of quenching of kinetic energy from a small person to a large weight. The damping bag can be made in several ways. The first is one-volume with calibrated holes for use in the entire range of weights of the person being saved. The second is a lot of horizontal sections with different calibrated with holes in sections. A multi-section bag provides a lower damping height with a large weight of a person.

The gas filling system is designed to deploy and create excess pressure in the MTU. The NTU gas filling system consists of individual cold gas generators 12 installed in each closed volume. This approach allows you to abandon the supply pipelines, which when laying NTU in the form of a satchel increase its volume. Each gas generator is activated manually. The activation process can be mechanical, electrical or electromechanical, but the main thing is happening simultaneously for all gas generators. The design solution of both the gas generator itself and its activation systems are not considered in the framework of this application, since they relate to known means. The boost and deployment process should be fast. The total time required to deploy the device rolled up and packaged in the form of a device, activation of the gas generator and full boost of the NTU should not exceed 10 seconds.

The principle of operation of the device is to quench the kinetic energy of the person being saved in the process of lowering it to the ground.

The satchel with the supporting element is mounted on the back of the person being saved 10. The man is placed in a sitting or standing position on the platform or in the opening of a high-rise object so that his back with the satchel is facing into free space outside the object. The person being saved or someone else drives a gas source (a system of gas generators located in each isolated cavity). During the descent, the device stabilizes and lands approximately horizontally.

When the landing gondola ONTU, which has an internally located bag 11, comes in contact with the surface of the earth, the kinetic energy of the descent person is extinguished by bleeding air from the cavity of the bag 11 through calibrated holes. In this case, the quenching of kinetic energy is supplemented by deformation of the ONTU tori. If the limit values of the loads are exceeded, separation or separation along the length into two equally strong parts of the tapes of the discontinuous elements occurs. With such a parallel combined process of depreciation, nonlinear quenching of the kinetic energy of the landing person occurs.

During the flight of the device DNTU provides effective aerodynamic braking to a speed of less than 15 m / s. Landing loads are extinguished by a damping system when touched with the ground. Overload during landing does not exceed 16 units. and its duration is less than 0.5 seconds.

Claims (8)

1. A device for the emergency descent of a person from a high-altitude object, containing a satchel with means for attaching it to the back of the person being saved and a part adjacent to the back of that person, which is made in the form of a supporting element, and an inflatable frame including an inflatable mountainous chamber is placed inside the satchel, associated with inflatable spokes, which are connected with the upper toroidal chamber of a cylindrical inflatable structure, composed of one above the other mountainous inflatable chambers with a diameter smaller than howling from the above-mentioned inflatable chambers to form a cone-shaped brake screen, while a support element of the satchel and a gas source for inflatable mountain chambers are attached to the upper inflatable toroidal chamber of a smaller diameter, characterized in that it is equipped with a cylinder-shaped inflatable chamber up to atmospheric pressure with openings for release of excess pressure at the time of landing placed inside the cavity formed by the cylindrical arrangement of inflatable toroidal chambers of smaller diameter and seal From the side opposite to the positioning of the toroidal chamber of larger diameter, the supporting element of the satchel is attached to the upper inflatable toroidal chamber of smaller diameter with ribbons made with the possibility of delamination or separation along the length into equally strong parts under load, and the gas source for inflatable mountain chambers is made in the form of simultaneously activated manual gas generators placed in the cavities of each isolated volume of the inflatable chambers. 2. A device for emergency descent of a person from a high-altitude object according to claim 1, characterized in that at least one of the spokes has a gas generator connecting two chambers isolated from the volume of other inflatable chambers and spokes. 3. A damper device for the device for emergency descent of a person from a high-altitude object, which is a cylinder-shaped chamber inflated to atmospheric pressure with holes for bleeding off excess pressure when it is loaded with an external force, while this cylinder-shaped chamber is placed under the supporting element to which the rescued person is attached, and attached to the inflatable chambers of the emergency descent device from a high-altitude object. 4. The damper device according to claim 3, characterized in that the cylinder-shaped chamber is divided into at least two cavities, each of which is connected with the atmosphere. 5. The damper device according to claim 3, characterized in that the cylinder-shaped chamber is divided into at least two cavities that are interconnected and one of which communicates with the atmosphere. 6. The supporting structure of the knapsack for the device for emergency descent of a person from a high-altitude object, which is a satchel wall made in the form of an anatomical tool tray in the shape of the back of a person attached to a person and by means of explosive elements to inflatable chambers of the device for emergency descent of a person from a high-altitude object. 7. The system for filling the inflatable chambers of the device for emergency descent of a person from a high-altitude object, which is simultaneously manually activated gas generators, each of which is placed in the corresponding cavity of the inflatable chamber. 8. The inflatable chamber filling system of the emergency man descent device according to claim 7, characterized in that at least one of the spokes has a gas generator connecting two chambers isolated from the volume of other inflatable chambers and spokes.