RU109413U1 - LIFE INFLATABLE DEVICE - Google Patents

Abstract

 An inflatable rescue device containing an inclined trough formed from two longitudinal and two transverse inflatable cylinders hermetically connected to each other, on which a sheet of rubberized material is glued, two inflatable handrails installed at the top of the longitudinal inflatable cylinders to prevent evacuated people from falling upon entering chute, attachment points of the upper part of the chute, a source of compressed gas enclosed in a cylinder, and a connecting hose, characterized in that on longitudinal inflatable cylinders inflatable barriers are installed, towering 0.4-0.45 m above the longitudinal inflatable cylinders and ensuring safe evacuation of people throughout the rescue inflatable device, the upper transverse inflatable cylinder is equipped with a carbon fiber step for safe entry into the device, and as a working gas for filling the inclined trough, handrails and fences uses compressed air to an overpressure of 0.4-0.5 kgf / cm2.

Description

The utility model relates to rescue equipment and is intended for emergency assistance in critical situations involving a threat to life and health. The utility model is intended primarily for the evacuation of people from low-rise buildings, in particular, buildings of pre-school and school educational institutions, boarding houses for the disabled and elderly people, for people with disabilities, as well as for emergency evacuation of passengers from an emergency plane.

A rescue inflatable device is known - an emergency inflatable ladder containing an inclined trough formed from two longitudinal and two transverse inflatable cylinders of large diameter hermetically connected to each other and on which a sheet of rubberized material is glued, along which people can slide down. In the upper part of both longitudinal cylinders of the gutter, two racks-handrails from inflatable cylinders of smaller diameter are strengthened to protect people from falling when leaving the aircraft on the gutter, the attachment points to the aircraft are located in the upper part of the gutter, which is connected to a source of compressed gas made in the form of a balloon with carbon dioxide, while all the inflatable cylinders of the gutter are made of diagonally duplicated rubberized material on the nylon. The emergency ladder inoperative is installed in the niche of the passenger deck of the aircraft (see the manual of Samara State University named after Academician Korolev, authors Voloshin F.A., Kuznetsov A.N., Pokrovsky V.Ya., Solovyov A.Ya. “Airplane TU-154, construction and maintenance ”, M., Mechanical Engineering, 1975).

The disadvantages of the known ladder include the following:

- the ladder is filled with carbon dioxide and if the connecting hose or ladder is damaged, frostbite of the survivors is possible, because the carbon dioxide temperature at the outlet is about minus 76 degrees. Celsius

- the gangway does not have fences along the entire length of the longitudinal cylinders, so it is possible for the survivors to fall, especially if children or people with disabilities make the descent;

- bringing the ladder into working condition is possible only by a few members of the aircraft maintenance personnel in connection with the complex design of the installation and its mounting inoperative in the niche of the aircraft.

The objective of the claimed utility model is to increase the reliability, safety and improve the performance of the device for using the emergency inflatable ramp as a rescue device for low-rise buildings of school and preschool educational institutions, boarding houses for people with disabilities.

The solution to this problem is achieved by the fact that in the known rescue inflatable device, including an inclined trough, formed from two longitudinal and two transverse inflatable cylinders hermetically connected to each other, on which a sheet of rubberized material is glued, two inflatable handrails mounted on the longitudinal cylinders to protect people from falling at the exit of the gutter, the attachment points of the upper part of the gutter, a source of compressed gas, connecting hoses, along the entire length of the longitudinal inflatable cylinders inflatable guards were installed, rising 0.4-0.45 m above the inflatable cylinders and ensuring safe evacuation of people throughout the rescue inflatable device, the upper transverse inflatable cylinder is equipped with a carbon fiber step for safe entry onto the inflatable rescue device, and as compressed gas To fill the gutter of the handrails and fences, safe compressed air to an overpressure of 0.4-0.5 kgf / cm ^{2 is used} .

The essence of the utility model is illustrated by drawings, where:

- figure 1 shows the rescue inflatable device in the working position, General view;

- figure 2 shows part of the rescue inflatable device in the working position, a top view;

- figure 3 shows the rescue inflatable device in the idle position, the mount inside the building;

- figure 4 shows the rescue inflatable device in the inoperative position, side view.

The rescue inflatable device comprises an inclined trough 1 formed of two longitudinal 2 and two transverse 3 inflatable cylinders hermetically connected to each other, made of a two-layer diagonally duplicated rubberized material on a capron. A sheet 4 made of rubberized material is glued to the inflatable cylinders, designed to slide the rescued people down to the ground when evacuating them from the building. To protect the evacuated people from falling when exiting the window 5, inflatable handrails 6 are installed in the upper part of the device, rising above the longitudinal cylinders 2 to a height of 0.6-0.65 m, and to ensure the safe evacuation of people throughout the length of the longitudinal inflatable cylinders 2 inflatable barriers 7, towering 0.4-0.45 m above the inflatable cylinders.

A carbon fiber step 8 is mounted in the upper part of the upper transverse cylinder 3, which ensures safe entry onto the rescue inflatable device. In step 8 there are fasteners 9 with which it is fastened with carabiners to mounting devices mounted in the wall (not shown in the drawing). Washers with loops 10 are glued to the sides of the longitudinal cylinders 2, to which rubber bands are attached, which serve for the correct deployment of the rescue inflatable device when it is filled. The device itself is attached to mounting devices mounted on a wall (not shown in the drawing) using cables 11 attached to mounts 12 that are mounted in the upper transverse inflatable cylinder 3.

All inflatable parts of the device when it is used are filled with compressed air from the cylinder 13, through the connecting hose 14. The cylinder 13 is mounted on the wall in the immediate vicinity of the rescue inflatable device, which is inoperative when folded, laid in a cover 15 on a shelf 16 directly under the window from which will be evacuated.

In the lower transverse inflatable cylinder 3, a safety valve 17 is installed to vent excess air when filling the rescue inflatable device

Rescue inflatable device operates as follows. In the event of an emergency, for example, in a fire that occurred in a preschool educational institution and the impossibility of evacuating people along the escape routes provided for this, open window 5, remove the rescue inflatable device from shelf 16, lay it with a step 8 made of high-strength carbon fiber reinforced plastic on the windowsill and pulling on the bracket pulling the cord from the cover 15, after which the cover opens and the device is pushed into the window opening. The inflatable rescue device is lowered to the ground by the lower transverse inflatable cylinder 3. The carbon fiber step is fastened with one end of the carabiners for fasteners 9, the other end of the carabiners for fasteners mounted in the wall (not shown in the drawing) to prevent it from rising upwards when filling the ramp with compressed air. By a counterclockwise movement of the hand, the valve of the cylinder 13 is opened and through the connecting hose 14 the device is filled with compressed air to an overpressure of 0.4-0.5 kgf / cm ² taking the form of an inclined trough 1 with inflatable handrails 6 and inflatable barriers 7. Excess air is vented through safety valve 17.

If necessary, for the correct deployment of the rescue inflatable device when it is filled with compressed air, rubber bands are used, fixed to the washers with loops 10. Thus, the rescue inflatable device assumes a working position for performing rescue operations.

The dimensions of the rescue inflatable device are estimated to be 7.6 × 1.5 × 1 m, which allows it to be installed at an angle to the window opening of the second floor of the building and corresponds to the width of a standard window opening.

The advantages of the claimed utility model include the fact that the rescue inflatable device is brought into working position by one person in a time not exceeding one minute without the use of power sources.

The use of guards on an inclined gutter provides reliable protection against falling from the device during descent.

The use of compressed air as a working gas for filling cylinders, handrails and fences significantly increases the safety of rescue operations.

The claimed design of the rescue inflatable device allows you to quickly and efficiently carry out the evacuation of people, including children of preschool and school educational institutions, as well as people with disabilities.

Claims (1)

An inflatable rescue device containing an inclined trough formed from two longitudinal and two transverse inflatable cylinders hermetically connected to each other, on which a sheet of rubberized material is glued, two inflatable handrails installed at the top of the longitudinal inflatable cylinders to prevent evacuated people from falling upon entering trough, attachment points for the upper part of the trough, a source of compressed gas enclosed in a cylinder, and a connecting hose, characterized in that on longitudinal inflatable cylinders inflatable barriers are raised, rising 0.4-0.45 m above the longitudinal inflatable cylinders and ensuring safe evacuation of people throughout the rescue inflatable device, the upper transverse inflatable cylinder is equipped with a carbon fiber step for safe entry to the device, and as a working gas for filled inclined gutter, handrails and fences use compressed air to an excess pressure of 0.4-0.5 kgf / cm ² .