RU2456212C1 - Gas-filled soft envelope - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: soft envelope houses gas generation source and spring device for opening and filling as well as overpressure release valves. Proposed envelope represents, at least, three-layer design. Density of material of every next layer, starting from outer layer, decreases. Spring device allows simultaneous envelope opening in all directions while overpressure release valves allow releasing pressure with gradual increase.

EFFECT: optimum damping of lifting or falling object, reduced consumption of gas, accelerated inflation.

14 cl, 13 dwg

Description

The shell is a universal tool for use in areas where shock absorbing functions are required over a wide range of external forces. Preferred areas of use of the claimed invention are: raising sunken objects, maintaining objects on the surface of the water, saving objects when falling from a height, maintaining objects in air, hermetically separating two media.

The task of the claimed invention is to provide a combined structure composed of dissimilar elastic elements.

The analogues of the claimed invention include:

1) A soft shell, disclosed due to the inertial gravity of the cargo placed in its lower part according to patent RU 2180639 C1.

Moreover, the disadvantages of the aforementioned shell include disclosure only in the vertical direction. In addition, the elastic hinges in the shell structure do not serve to cushion when dropped.

2) Fillable shell in the design of the poly-ram according to patent RU 2299831 C1 does not provide the necessary speed of disclosure of the latter.

3) The closest analogue to the claimed invention is a flexible, fillable shell according to RU 2399389 C1, including "spokes" inflated by internal sources of gas formation and a shell that opens when the spokes are deployed.

The disadvantages of the prototype include the provision of depreciation at the moment of touching a solid surface with only the shock-absorbing - damping properties of the air bag, which is not enough for safe descent and landing.

The technical result from the use of a soft shell filled with gas is to ensure optimal cushioning of a falling or lifted object, reducing the amount of gas for pressurizing the shell, the possibility of using high-temperature sources of gas generation and low heat-resistant materials of the shell to pressurize, accelerating the inflation of large-volume shells. As a result of using high-temperature and low-temperature gas sources for inflating the proposed soft shell, in combination with preliminary mechanical opening of the shell, the time range of the shell inflation is expanded.

The claimed soft shell containing a gas source placed inside and a spring device for opening and filling it, as well as overpressure relief valves, to ensure optimal cushioning of a falling or lifted object, is made of at least three layers, with the material density of each subsequent layer starting from external, less than the density of the material of the previous layer, the spring device is configured to simultaneously open the shell in all directions, and the valves are reset and overpressure made with the ability to bleed air with a gradual increase.

In addition, the shell may include valves for sucking air during opening.

The outer layer of the shell may be made of a material with metal threads or coating.

Following the outer layer can be made of soft foam.

The inner layer of the shell is made of airtight material.

The spring device for opening and filling the shell is made pneumatic or mechanical.

The elasticity of the springs of the spring device when external pressure is applied to them is less than the elasticity of the shell layers as a whole, i.e. increases from a value less than the elasticity of the inflation shell, to a value greater than the elasticity of the inflation shell.

To explain examples of the implementation of the claimed variants of the device inflated with gas soft shell and methods of its application, the following figures are given:

Figure 1 - device inflated with gas soft shell (diagram).

Figure 2 - tension rescue canvas;

a) sectional view of the canvas, b) general view.

Figure 3 - inflated gas soft shell with a mechanical opening:

a) “umbrella”, b) “fan”.

Figure 4 - mounting a soft shell on the body of the craft.

Figure 5 - catamaran with inflatable floats and a system for lowering the shells and lifting the object from the bottom.

6 - trimaran with inflatable floats, with a system for lowering and lifting, strapping the object and mounting lifting means on it.

7 - soft inflatable plug-cap: a) holes, b) wells.

Fig. 8 is an inflatable soft shell in a rescue parachute and an aircraft cushioning device.

Figure 9 - inflatable soft shell in a vehicle:

a) in the “bumper”, b) in the construction of the protective “capsule”: in the inflatable elements of the skeleton-frame and intermediate inflatable shock-absorbing pillows.

The invention is illustrated by a description of examples of its implementation with reference to the accompanying drawings, in which (Figs. 1-9) are shown schematically examples of devices using a gas-filled soft shell (Fig. 1).

The proposed device includes a soft multilayer inflatable shell 1, which has an external soft and light hydrophobic poroplasty layer 2, under it is a more dense plastic stretch layer 3, under it is a more dense gas-tight material of the body (wall) 4 of the inflatable shell 1. The outer layer 2 can be protected by a metal network 5, including "chain mail" containing metal clips 6.

A gas source is contained inside the shell 7. A spring device is deployed inside the shell, opening the shell 1, which is a set of springs 8 that are triggered by a signal or manually, while the springs 8 can be mechanical or pneumatic. In the lateral and lower parts of the shell there are air suction valves 9 when opening the springs, as well as valves 10 that release gas or air mixture from the shell when excessive pressure is created inside the shell from the force acting on the shell from the outside or from the inside of the gas source.

As shown in FIG. 2, the rescue rescue web is a shell structure including a shell 1 consisting of an outer soft and light hydrophobic porous plastic layer 2 adjacent to a denser plastic stretch layer 3 located on a gas-tight more dense material of the shell 4 of the shell 1. The spring device, located inside the shell and revealing it, consists of a set of springs 8 having a tightening and fixing elements 11, automatically and / or manually triggered. Along the perimeter and in the lower part of the shell 1 there are valves 9, sucking in air from the outside when the springs open, as well as valves 10, releasing air from the shell when external force is applied to it.

When the body falls from a height onto the shell 1 of the tensioned rescue cloth, it dampens and dampens, while the upper shock-absorbing layers of the shell act on the springs 8 and the air leaves the shell through the valves 10. To reduce the volume of the shell during transportation, the springs 8 can be compressed using clamps 11 .When automatically or manually opening the shell 1, the clamps 11 release the springs 8, and air from the outside is sucked in through the valves 9 into the shell.

Figure 3 shows the gas-inflated soft shell 1 with a) an "umbrella" and b) a fan-shaped mechanical opening and subsequent pressurization of the shell from the gas source 7. Figure 3 also shows the arcs 12 of the mechanical frame of the shell 1.

As shown in figure 4, the soft shell 1, mounted on the body of the vehicle 13 in an inflated state, is inflated by the proposed method and moves below the waterline by moving belts 14 connected to the shell.

Figure 5 shows a catamaran with inflatable shell floats of the proposed design, having a tripping device 15 with a balancer 17, comprising a block system 16 with an armature 22, a shock absorber spring 21 and a cable 18, on which the soft shells inflated with gas are fixed 1. Upper and lower blocks They are also connected by an intermediate cable 19. On the intermediate cable 19 there are disconnecting transverse rails 20 with spring “oarlocks” 23, through which the main cable 18 moves freely. At the moment of passage through the “oarlock”, the cable 18 is secured The shell “1 oarlock” attached to it opens in a spring-like manner.

Figure 6 shows the trimaran 28 with inflatable floats, shells 1, having a lifting device. At a depth, a diver or a robotic arm carries out a "spider" strapping 25 of the lifted object 27, pulls together the main and intermediate strapping ropes 26, attaches the inflated shells 1 to the "network", and also sets ratchet grippers 33 with inflatable shells 1 in the middle part of the object.

Figure 7 shows soft gas shells-plugs-plugs 1: a) holes-holes in the body of the object 30, b) well 29. In addition to the shock-absorbing-sealing layers of the shell 1 have a protective metal mesh 5 with clips 6, and also hermetically connected with sheath 1, pipe 31 with valve 32 for pumping gas or air and pumping liquid.

As shown in Fig. 8, the aircraft has a flying wing rescue parachute with gas-inflated soft shells 1 and a shock-absorbing damping device for a hard landing, also containing gas-inflated soft shells 1.

Figure 9 shows: a) a bumper of a vehicle with an inflatable soft shell 1, b) a protective "capsule" of the vehicle has gas-inflated soft shells 1 in the inflatable elements of the skeleton frame and in the spaces between the frame elements.

Claims (14)

1. A soft shell containing a gas source located inside and a spring device for opening and filling it, as well as overpressure relief valves, characterized in that it is made of at least three layers, and the density of the material of each subsequent layer, starting from the outer, is lower than the density of the material of the previous layer, the spring device is capable of simultaneously opening the shell in all directions, and the overpressure relief valves are configured to bleed air ear with a gradual increase. 2. The shell according to claim 1, characterized in that it includes valves for sucking air during opening. 3. The shell according to claim 1, characterized in that the outer layer is made of a material with metal threads or coating. 4. The shell according to claim 1 or 3, characterized in that the next after the outer layer is made of soft foam. 5. The shell according to claim 1, characterized in that the inner layer of the shell is made of airtight material. 6. The shell according to claim 1, characterized in that the spring device for opening and filling the shell is made pneumatic or mechanical. 7. The shell according to claim 1 or 6, characterized in that the elasticity of the springs of the spring device when exposed to external compression pressure is less than the elasticity of the layers of the shell as a whole. 8. The shell according to claim 1, characterized in that it is intended for use in a stretch rescue canvas. 9. The shell according to claim 1, characterized in that it is intended for use in a tripping device on the water. 10. The shell according to claim 1, characterized in that it is intended for use as a stopper plugs holes-holes. 11. The shell according to claim 1, characterized in that it is intended for use as a cork-plug of the well. 12. The shell according to claim 1, characterized in that it is intended for use in a rescue parachute. 13. The shell according to claim 1, characterized in that it is intended for use in the bumper of the vehicle. 14. The shell according to claim 1, characterized in that it is intended for use in a protective capsule of a vehicle.

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