RU143388U1 - RESCUE DEVICE - Google Patents

Abstract

A rescue device containing a walling in the form of a bottom and a side wall, made with the possibility of folding in the vertical direction under the action of gravity when supporting it from the bottom and unfolding in the same direction when it is suspended from the upper part, slings designed to connect the upper part of the side wall with the external suspension of the helicopter, and a support frame fixed to the bottom with a protective roof, characterized in that the bottom is made round and the side wall is made in the form of covering the last bellows for sealingly fixed inside diameter of one of its corrugations on the outer diameter of the round bottom to form an upper chamber for placing objects saved and the lower damper chamber filled with compressed air, the latter is mounted in the bellows with an adjustable throttle valve.

Description

The utility model relates to rescue equipment and is designed to evacuate people, for example, those in distress on torn ice floes, in mountains, deserted areas, on the roofs of high-rise buildings covered by fire, on islands of solid land during mudflows and floods, etc.

The closest in technical essence to the proposed utility model is a rescue device selected as a prototype, containing a walling in the form of a bottom and a side wall made with the possibility of folding in the vertical direction under the action of gravity while supporting it from the bottom and unfolding in the same direction when it suspension for the upper part, slings designed to connect the upper part of the side wall with the external suspension of the helicopter, and a support frame fixed to the bottom with a protective roof th

(see RF patent 2224692, publ. 02.27.2004).

The disadvantage of the prototype is the lack of reliability of the side wall when it is constantly folding and unfolding, in addition, it does not mitigate shock side loads when in contact, for example, with trees or other protruding elements of buildings and structures, the interaction with which can cause injuries to evacuated people, which makes it difficult to rescue the operation, as well as the bottom, does not provide shock damping when abruptly lowered onto hard surfaces, as it is made of solid solid material.

The technical result consists in expanding the operational capabilities of the rescue device, by ensuring the safety of salvaged objects, primarily people, by damping the bottom when landing and mitigating side impacts by the protruding parts of the side wall corrugations while increasing the reliability of the latter due to the presence of a compliant accordion-like construction , eliminating the grinding of the material of the side wall when it is folding and unfolding.

The technical result is achieved by the fact that in the rescue device containing the enclosing structure in the form of a bottom and a side wall, made with the possibility of folding in the vertical direction under the action of gravity while supporting it from the bottom and unfolding in the same direction when it is suspended from the upper part, slings designed to connect the upper part of the side wall with the external suspension of the helicopter, and the support frame mounted on the bottom with a protective roof, the bottom is made round, and the side wall is made a bellows enclosing the latter hermetically secured inside diameter of one of its corrugations on the outer diameter of the round bottom to form top accommodation chamber saved objects and the lower damper chamber filled with compressed air, the latter is mounted in the bellows with an adjustable throttle valve.

In FIG. 1 shows a rescue device mounted on a solid surface with an open side wall,

in FIG. 2 - rescue device on the external suspension of the helicopter in flight,

in FIG. 3 is a longitudinal section of a bellows fragment.

The rescue device contains a walling in the form of a bottom 1 and a side wall 2, made with the possibility of folding in the vertical direction under the action of gravity while supporting it from the bottom and unfolding in the same direction when it is suspended from the upper part, slings 3 designed to connect the upper part the side wall 2 with the external suspension 4 (for example, a flexible element) of the helicopter (pos. not indicated), and the support frame 5 attached to the bottom 1 with the protective roof 6. In this case, the support frame 5 can be additionally connected with external load 4, for example, cargo slings 7. Bottom 1 is circular, and the side wall 2 is formed as covering the last (i.e., a circular bottom 1) of the bellows 8, is hermetically fixed inner diameter (see. FIG. 3 D _app) one of its corrugations along the outer diameter of the round bottom 1 with the formation of an upper chamber 9 for accommodating rescue objects (not shown in the drawing) and a lower damper chamber 10 filled with compressed air, while in the bellows 8 of the latter there is a valve 11 with an adjustable throttle (for example, PD throttle ) (See. http://www.1stanok.ru/pages/pnevmo6.html#67). Adjustable throttle can change the nature of the damping (softening) landing rescue device by changing the throttle hole (not shown in the drawings).

The rescue device operates as follows.

The rescue device is brought into operation by means of a source of compressed air (not shown in the drawing), the lower damper chamber 10 is filled with compressed air through a valve 11 with an adjustable throttle and slings 3 and 7 are connected to the external suspension 4 of the helicopter.

When approaching the helicopter to the location of the evacuated people, the rescue device is installed with the bottom of the damper chamber 10 on a hard surface. When the sling 3 is weakened, the bellows 8 of the upper chamber 9, under the influence of its weight, falls, forming a passage for evacuated people from all sides. A protective roof 6, located above the supporting frame 5, protects people in the rescue device from the air flow from the side of the helicopter propeller. When the helicopter rises, the slings 3 stretch and raise the bellows 8 of the upper chamber 9 until its upper contour closes with the protective roof 6, forming together with it a closed volume protected from external influences (wind, fire, smoke, etc.), and due to the decomposed bellows 8 of the upper chamber 9 protects the evacuated people from traumatic contact with trees and protruding structures of buildings and structures when moving the rescue device. Thus, evacuees are isolated from adverse environmental influences and injuries during transportation, which increases their chances of salvation. After lifting the bellows 8 of the upper chamber 9, the helicopter lifts the rescue device behind the cargo line 7, connecting the external suspension 4 of the helicopter with the supporting frame 5. After transporting the rescue device on the external suspension 4 of the helicopter, it is mounted on a hard surface at the landing site of the evacuated people. When the rescue device is lowered onto a hard surface, the lower damper chamber 10 provides shock damping when there is a sharp contact with the hard surface, since it is filled with compressed air and when the pressure rises in it, the compressed air starts to bleed through the valve 11 with an adjustable throttle. When lowering, the cargo line 7 subsequently weakens and only after that the lines 3 begin to lower, and with them under the influence of their weight the bellows 8 of the upper chamber 9 is folded, opening the exit from the rescue device.

Claims (1)

A rescue device containing a walling in the form of a bottom and a side wall, made with the possibility of folding in the vertical direction under the action of gravity while supporting it from the bottom and unfolding in the same direction when it is suspended from the upper part, slings designed to connect the upper part of the side wall with the external suspension of the helicopter, and a support frame fixed to the bottom with a protective roof, characterized in that the bottom is made round and the side wall is made in the form of covering the last bellows for sealingly fixed inside diameter of one of its corrugations on the outer diameter of the round bottom to form an upper chamber for placing objects saved and the lower damper chamber filled with compressed air, the latter is mounted in the bellows with an adjustable throttle valve.