RU86106U1 - DEVICE FOR HUMAN EMERGENCY DESCENT FROM A ALTITUDE OBJECT (OPTIONS) - Google Patents

Abstract

1. Device for emergency descent of a person from a high-altitude object, comprising means for fastening on the back of the person to be saved, including a central toroidal chamber inflatable from a gas source, connected on one side with inflatable spokes arranged conically during inflation and connected by inflatable bridges and, on the other hand, with an inflatable structure composed of spokes of a lower toroidal inflatable chamber, with a membrane attached to the central toroidal chamber to accommodate the rescued people century and there is an autonomous source of gas filling, characterized in that the lower toroidal inflatable chamber is made with a diameter larger than the diameter of the central toroidal chamber and smaller than the diameter of the base of the cone, formed by spokes straightened along the cone, and connected with the central toroidal chamber by inflatable spokes, while between the spokes of each toroidal chamber the lower and upper are tightened with an airtight fabric, or the spokes with toroidal chambers are covered with airtight covers, and in the lower toroidal chamber the membrane is not stretched to form two truncated cone-shaped pyramids with a common base and with large bases directed to opposite sides of different diameters, to form a cone-shaped brake screen, an autonomous gas source is connected from one of the toroidal inflatable chambers or from one of the inflatable spokes, the internal volumes of all toroidal chambers and spokes, in turn, are interconnected and form a single volume, and the airtight fabric of the lower toroidal chamber is perforated. ! 2. �

Description

The utility model relates to means of saving people and considers a device designed to save people in emergency situations, mainly for lowering people from the upper floors of high-altitude objects in a fire or in other emergency situations.

A rescue device is known for receiving on earth people jumping or falling from a great height, containing a pneumatic chamber including elastic pipes that form the contours of the upper and lower bases and connecting frame posts covered by a flexible shell including a horizontal shock-absorbing membrane (RU No. 2150980 , A62B 1/22, publ. 1999).

The disadvantage of this device is that the volume of the frame is a significant part of the total volume of the camera.

A device is known for emergency descent of a person from a high-altitude object, containing a satchel with means for fastening it on the back of a person being saved, connected through an intermediate membrane with a parachute folded in it, including inflatable chambers designed to form the bases of the pneumatic carcass, interconnected to form an elastic skirts, forming a conical brake screen, and a landing nacelle formed by inflatable chambers (RU publ. application No. 2003124165/12, 08/05/2003).

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 a gas gauge attached to the knapsack and connected with inflatable chambers by means of flexible elastic gas pipelines, and inflatable chambers for forming a landing gondola, in it inflatable chambers of a 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, this landing gondola is equipped with vertical and horizontal partitions, lower and upper, forming cavities, holes are made in the lower partition, and the upper partition is fastened to the lower Considerations pneumatic carcass and with a knapsack (RU №2288758, A62V 1/00, B64D 25/14, publ. 2006.12.10).

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 satchel with means for attaching it to the back of the person being saved and the part adjoining to the back of that person is made in the form of a support element and inside which is placed an inflatable frame including a toroidal chamber inflatable from a gas source, associated with inflatable needles, which are connected with the upper toroidal chamber of a cylindrical inflatable structure, composed of one above another placed toroidal inflatable chambers di with an ameter smaller than the diameter of the first of the mentioned inflatable chambers to form a cone-shaped brake screen, and a support element of the satchel attached to the upper inflatable toroidal chamber of a smaller diameter, a cylinder-shaped chamber inflated to atmospheric pressure with calibrated holes to relieve excess pressure at the time of its loading by external force from impact on the ground, placed under the supporting element to which the person to be saved is attached, inside the cavity formed by the cylindrical arrangement above of obvious toroidal chambers of smaller diameter and sealed on the reverse side of the placement of the toroidal chamber of larger diameter, the supporting element of the satchel 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 equally strong parts under load, and the gas source for inflatable toroidal chambers is made in the form of cold gas generators placed in the corresponding cavity and an inflatable chamber, while at least one of the spokes has a gas generator connecting two chambers isolated from the volume of other inflatable chambers and spokes (RU No. 66206, А62В 1/00, B64D 25/14, publ. 2007.09.10).

The disadvantage of this device is its significant size and weight, as well as its low efficiency in terms of providing energy extinguishing when the system lands with a person.

This decision was made as a prototype for the declared objects.

The technical result achieved by the proposed utility model is to reduce the mass of the device by reducing the need for gas to fill it and increasing its efficiency by simplifying the design.

The specified technical result for the first embodiment is achieved by the fact that the device for emergency descent of a person from a high-altitude object, containing fastening means on the back of a rescued person, including a central toroidal chamber inflatable from a gas source, connected to the cone on one side when inflating and which are interconnected by inflatable jumpers, and on the other hand with an inflatable structure composed of spokes of a lower toroidal inflatable chamber, while A membrane is attached to the toroidal chamber to accommodate the person to be saved, and there is an autonomous gas filling source, characterized in that the lower toroidal inflatable chamber is made with a diameter larger than the diameter of the central toroidal chamber and smaller than the diameter of the base of the cone formed by spokes straightened along the cone and connected to the central torus-shaped chamber inflatable needles, while an airtight fabric is stretched between the spokes of each toroidal chamber of the lower and upper, or spokes with a toroidal my cameras are covered with airtight covers, and a membrane is stretched in the lower toroidal chamber to form two truncated cone-shaped pyramids with a common base and large bases directed to opposite sides of different diameters, to form a cone-shaped brake screen, an autonomous gas-filling source, connected from one of the toroidal inflatable chambers or with one of the inflatable spokes, the internal volumes of all toroidal chambers and spokes, in turn, are interconnected and form a single volume, and the air honepronitsaemaya toroidal chamber bottom fabric is perforated.

The specified technical result for the second embodiment is achieved by the fact that the Device for the emergency descent of a person from a high-altitude object, containing fastening means on the back of the rescued person, including a central toroidal chamber inflatable from a gas source, connected on one side with inflated spokes, which are connected with an upper toroidal inflatable chamber, with a diameter larger than the diameter of the central toroidal chamber, and on the other hand with an inflatable structure composed of a lower toroidal inflatable chamber a second chamber, wherein a membrane is attached to the central toroidal chamber to accommodate the person to be saved, and there is an autonomous gas filling source, characterized in that the lower toroidal inflatable chamber is made larger in diameter than the diameter of the central toroidal chamber and smaller than the diameter of the upper toroidal chamber and connected to the central toroidal chamber by inflatable knitting needles, while an airtight fabric is stretched between the knitting needles of each lower and upper toroidal chamber or the needles of each toroidal kame They are covered with airtight covers, and a membrane is attached to the lower toroidal chamber to form two truncated cone-shaped pyramids with a common base and large bases directed to opposite sides of different diameters, to form a cone-shaped brake screen, an autonomous gas supply source connected to one of the toroidal inflatable chambers or one of the inflatable spokes, the internal volumes of all toroidal chambers and spokes, in turn, are interconnected and form a single volume, and air Nitzan toroidal chamber bottom fabric is perforated.

These features are significant and interconnected with the formation of a stable set of essential features sufficient to achieve the specified technical result.

This useful model is illustrated by a concrete example, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result by the given set of features.

Figure 1 is a side view of a device for emergency descent of a person from a high-rise object - 1 option;

figure 2 is a top view of a device for emergency descent of a person from a high-altitude object - 1 option;

figure 3 is a side view of a device for emergency descent of a person from a high-rise object - 2 option;

figure 4 is a top view of a device for emergency descent of a person from a high-rise object - 2 option;

According to this utility model, a device is considered for emergency descent of a person from a high-altitude object, which is an inflatable brake device in function. 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 it combines both an effective means of braking during descent in the atmosphere and a shock-absorbing device. When using the device does not require special management skills, you can use it almost instantly, it protects during the descent from hitting the walls and the effects of high temperature and open flame, the presence of a cushioning system. The presence of a cushioning system ensures safe landing,

The device is the main component of the rescue system (Fig. 1) and is intended to give the device a given shape and to provide the estimated speed of descent and landing. The device consists of two stages: a pneumatic shock absorber, having the shape of a truncated cone, and a conical parachute), having the shape of a reverse truncated cone, but with a much larger diameter. In the inflated, unfolded (working) state, the device has the form of two truncated cones connected “towards each other, with different diameters of large bases, and the central toroidal chamber is the small bases of both cones. With this design, the device is aerodynamically stable and self-orientating in flight, so that when it decreases, it will constantly tend to turn in such a way that the large cone is on top, the small cone is on the bottom.

A device for emergency descent of a person from a high-altitude object according to the first embodiment (Figs. 1, 2) comprises means for fastening on the back of a rescued person, including a central toroidal chamber 1 inflatable from a gas source connected to inflatable spokes 2 located on one side during inflation and which are interconnected by inflatable bridges 3, and on the other hand with an inflatable structure composed of spokes 4 of the lower toroidal inflatable chamber 5, while attached to the central toroidal chamber 1 membrane 6 to accommodate the saved person. The lower toroidal inflatable chamber 5 is made with a diameter larger than the diameter of the central toroidal chamber 1 and smaller than the diameter of the base of the cone formed by spokes 2 straightened along the cone and connected to the central toroidal chamber 1 by inflatable needles 4.

An airtight fabric 7 is stretched between the spokes of the toroidal chambers 7 or the spokes with toroidal chambers are covered with airtight covers. Airtight fabric or airtight covers are perforated.

A membrane (not shown) is stretched in the lower toroidal chamber to form two truncated cone-shaped pyramids with a common base in the zone of the central torus-shaped chamber and with large bases directed to opposite sides of different diameters to form a cone-shaped brake screen.

An autonomous source of gas filling is communicated from one of the toroidal inflatable chambers or from one of the inflatable spokes, the internal volumes of all toroidal chambers and spokes, in turn, are interconnected and form a single volume.

The following describes the specific implementation of the first option. According to the first embodiment, the device (Figs. 1, 2) comprises means for fastening on the back of the person being saved (made in the form of a satchel, not shown), which includes a central toroidal chamber 1 inflated from a gas source connected to one of the inflated knitting needles 2 which are interconnected by inflatable bridges 3 with the formation of an upper toroidal inflatable chamber with a diameter larger than the diameter of the central toroidal chamber 1, and on the other hand with an inflatable structure composed of a lower toroidal inflatable chamber measures 5. A membrane 6 is attached to the central toroidal chamber 1 to accommodate the person to be saved. The lower toroidal inflatable chamber 5 is made with a diameter larger than the diameter of the central toroidal chamber 1 and smaller than the diameter of the upper toroidal chamber and is connected to the central toroidal chamber by inflated spokes 4. An airtight fabric 7 is stretched between the spokes 2 and the spokes 4 of the toroidal chambers to form two truncated cone-shaped pyramids with a common base and with large bases directed in opposite directions of different diameters to form a conical brake screen. The cavities of the spokes and toroidal chambers are interconnected by flows and communicated with an autonomous source of gas formation.

The upper and lower cones are made in the form of inflatable airtight spokes, which are placed along the forming cones and are covered with a conical airtight cover, while, strictly speaking, the cones degenerate into pyramids, the bases of which are polygons with the number of angles equal to the number of spokes, from 6 pcs. up to 16 pcs., in our case, 8 pcs.

The spokes of the upper and lower cones, the central chamber are interconnected by gas flows and make up a single volume, isolated and sealed. The device 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 device may be provided with a heat-insulating coating, which ensures safety when passing through open fires.

The upper cone is designed to provide effective aerodynamic drag and stabilize the device in flight in the form of an “inverted truncated cone” formed by a central toroidal chamber 1 and spokes 2 with jumpers 3.

The lower cone - the pneumatic shock absorber is designed to provide effective braking of the rescued object when landing consists of inclined cylindrical spokes 4, which are the generatrix of the cone and are interconnected by a lower inflatable chamber 5.

The lower and central tori are closed with an airtight fabric (material) along the lower boundaries of the tori, an airtight fabric (material) is also attached to the spokes of the upper cone on the inside (from the axis of symmetry of the device), which has several calibrated holes for communicating the internal volume of the “air bag” with the atmosphere . When the pneumatic frame of the device (tori, knitting needles, jumpers) is filled with gas using an autonomous filling system to excess pressure during deployment of the device from the folded state, outboard (from the atmosphere) air enters the damping "pneumatic bag" and the lower cone takes on the specified working form.

Placement of a person is carried out in a lodgement on the membrane 6 of the device. A man is attracted by a tethered system to the lodgement with his back. The lodgement is part of a satchel in the form of which a device with all its systems is laid. The lodgement has the anatomical shape of the human back to ensure uniform pressure on the person at the time of landing and is firmly attached to the power torus.

The depreciation system (damping system of the device) is designed to reduce the values of shock overloads to a safe level at the time of landing and works as follows:

When the lower chamber touches the landing surface due to the elasticity of the spokes, the lower torus loses speed in the coordinate system associated with the landing surface to almost zero, while the man in the lodgement, the central chamber and the upper cone, due to the greater mass, continue to move towards the surface touchdowns. Moreover, since the elasticity of the lower knitting needles is limited during compression, there is a “knitting of the knitting needles" or elastic deformation of the lower knitting needles. By the time of “breaking” the spokes of the lower cone, the speed of a person with a lodgement, power torus is significantly reduced, but the movement to the landing surface continues. Further, with significant movements, the damping “pneumatic bag” deforms, as a result of which the pressure inside it increases, and the higher the speed of movement of a person with a tool tray and power torus, respectively, the stronger the excess pressure in the damping “pneumatic bag” increases. Excessive pressure inside the bag, acting on the power torus with a gas-tight material attached to it, creates an additional force, in addition to the elasticity of the spokes, which finally extinguishes the kinetic energy of a person with a lodgement, which leads to a complete stop of the latter. It should be noted that as the overpressure in the damping "pneumatic bag" increases through calibrated holes, air flows out of the pneumatic bag into the atmosphere, and the higher the overpressure inside the bag, the higher the rate of air flow, which leads to stabilization or reduction of overpressure inside the bag. With the correct selection of the number, diameters and location of these holes, it is possible to ensure the overload experienced by a person during landing, within acceptable values. Thus, the organized damping system is universal and allows for the landing of a person with any mass within the given limits.

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 - his back. The lodgement is part of a satchel in the form of which a device 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. Lodgement - a power element, by means of discontinuous elements attached to the power torus ONTU. Fixation of a person placed in the lodgement is carried out using a tethered system. The satchel is worn from the back.

In the process of flight, the device provides effective aerodynamic braking to an acceptable (!!!!!! What) speed of less than 11 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.

According to the second embodiment, the central toroidal chamber is connected on one side with inflatable spokes, arranged conically during inflation and which are connected by inflatable jumpers without forming an upper toroidal chamber.

A device for emergency descent of a person from a high-altitude object according to the second embodiment (Figs. 3, 4) also contains means for fastening on the back of the rescued person (in the form of a satchel, not shown), including a central toroidal chamber 1 inflatable from a gas source, connected on the one hand with inflatable needles 2, which are connected with the upper toroidal inflatable chamber 8, made with a diameter larger than the diameter of the central toroidal chamber 1, and on the other hand, with an inflatable structure composed of lower toroidal inflatable the main chamber 5. A membrane 6 is attached to the central toroidal chamber 1 to accommodate the person to be saved, and there is an autonomous source of gas filling (not shown). The lower toroidal inflatable chamber 5 is made with a diameter larger than the diameter of the central toroidal chamber 1 and smaller than the diameter of the upper toroidal chamber 8 and is connected to the central toroidal chamber 1 by inflatable needles 4. An airtight fabric 7 is stretched between the spokes of each lower and upper toroidal chamber or the spokes of each toroidal chamber are covered by airtight covers. Airtight fabric 7 or airtight covers are perforated.

A membrane 9 is attached to the lower toroidal chamber 5 from below to form two truncated cone-shaped pyramids with a common base and with large bases directed in opposite directions of different diameters, to form a cone-shaped brake screen.

An autonomous source of gas filling is communicated from one of the toroidal inflatable chambers or from one of the inflatable spokes, and the internal volumes of all toroidal chambers and spokes, in turn, are interconnected and form a single volume.

The design of the second embodiment functions similarly to the previously considered design of the first embodiment.

This utility model is industrially applicable, can be manufactured using materials and technologies used to create automotive or aviation security systems.

Claims (2)

1. Device for emergency descent of a person from a high-altitude object, comprising means for fastening on the back of the person to be saved, including a central toroidal chamber inflatable from a gas source, connected on one side with inflatable spokes arranged conically during inflation and connected by inflatable bridges and, on the other hand, with an inflatable structure composed of spokes of a lower toroidal inflatable chamber, with a membrane attached to the central toroidal chamber to accommodate the rescued people century and there is an autonomous source of gas filling, characterized in that the lower toroidal inflatable chamber is made with a diameter larger than the diameter of the central toroidal chamber and smaller than the diameter of the base of the cone, formed by spokes straightened along the cone, and connected with the central toroidal chamber by inflatable spokes, while between the spokes of each toroidal chamber the lower and upper are tightened with an airtight fabric, or the spokes with toroidal chambers are covered with airtight covers, and in the lower toroidal chamber the membrane is not stretched to form two truncated cone-shaped pyramids with a common base and with large bases directed to opposite sides of different diameters, to form a cone-shaped brake screen, an autonomous gas source is connected from one of the toroidal inflatable chambers or from one of the inflatable spokes, the internal volumes of all toroidal chambers and spokes, in turn, are interconnected and form a single volume, and the airtight fabric of the lower toroidal chamber is perforated. 2. Device for emergency descent of a person from a high-altitude object, comprising means for fastening on the back of the person being saved, including a central toroidal chamber inflatable from a gas source, connected to one of the inflatable needles on one side, and connected to an upper toroidal inflatable chamber with a diameter larger than the central toroidal diameter chamber, and on the other hand, with an inflatable structure composed of a lower toroidal inflatable chamber, while a membrane for attaching to the central toroidal chamber is attached The buildings of the rescued person and there is an autonomous source of gas filling, characterized in that the lower toroidal inflatable chamber is made with a diameter larger than the diameter of the central toroidal chamber and smaller than the diameter of the upper toroidal chamber and connected with the central toroidal chamber by inflatable spokes, while the spokes of each lower and upper toroidal chamber are stretched airtight fabric, or the spokes of each toroidal chamber are covered with airtight covers, and attached to the lower toroidal chamber a membrane for the formation of two truncated cone-shaped pyramids with a common base and with large bases directed in opposite directions of different diameters, for the formation of a cone-shaped brake screen, an autonomous gas filling source is connected from one of the toroidal inflatable chambers or from one of the inflatable spokes, the internal volumes of all torus chambers and the spokes, in turn, are interconnected and form a single volume, and the airtight fabric of the lower toroidal chamber is perforated.