RU2364433C1 - Descent life-saving appliance - Google Patents

Abstract

FIELD: instrument engineering.

SUBSTANCE: invention refers to life-saving equipment and aims at emergency recovery, e.g. in fire and locked flights of steps by smooth descent outside of a burning building. In a body comprising two chambers, there is a shaft with a rigid flag in one chamber. The other chamber contains a coiled tape that is attached to the shaft with its one end and bears external clamps on the other end. The first chamber accommodating the flag contains bulk material that is dispersion working medium. The second chamber is covered with an axial-advance head. The second chamber is provided with ledges forming pockets on inner surface of the chamber. To fix the head, screws are used, also serve as complementary ledges in the chamber.

EFFECT: invention aims at higher braking reliability, descent-travelling comfort and design simplification.

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Description

The launching rescue device is designed to save a person in emergency situations, for example as a result of a fire and blocking flights of stairs, by smooth automatic descent outside the space of a burning building.

A device for descent from high-altitude objects is known (see autos certificate No. 978875, A623). The device comprises a housing with a coil with a cable placed in it, connected with a brake device having a stator and a rotor, a descent speed controller equipped with a pusher. The stator is filled with magnetic filler, which prevents the rotation of the drum with a cable.

The disadvantage of this device is the design complexity, low reliability, high cost.

A device for the emergency descent of people from high-rise buildings (RU 2265465 C1) (prototype). The device comprises a prefabricated housing with a drum placed in it with a cable and a braking mechanism.

The disadvantage of this device is low reliability, design complexity, high cost.

The technical result of the invention is to increase reliability during braking, smooth automatic descent and simplification of design.

This is achieved by the fact that in the launching rescue device comprising a prefabricated 2-chamber housing with a shaft with a tape (cable) and a flag placed therein, with attachment points for belts or kerchiefs for a trigger, according to the invention, the braking mechanism is made in the form of a camera with a flag, in which the bulk material is placed - a discrete working medium (DLS) in the form of spheres based on phenol formaldehyde, bakelite, polystyrene, polyethylene, metal, etc. with a diameter of up to 2.5-3 mm.

The braking mechanism is made in the form of a closed volume (a chamber with a flag) filled with DLS, in the medium of which the flag located on the shaft rotates with a pre-adjusted value of external friction.

The amount of external friction in the chamber (the value of the DLS density) is controlled by the axial movement of the chamber lid.

For braking and smooth downward movement, the chamber has pockets with protrusions, which makes it possible to carry out external friction of the flag on the DLS particles and DLS particles with each other, rather than on the inner and end surfaces of the chamber.

A technical solution with features distinguishing the claimed solution from the prototype is not known. This suggests that the claimed solution is new and has an inventive level.

The essence of the proposed technical solution is illustrated by the drawing, which shows the trigger rescue device.

The launching rescue device comprises a housing 1, consisting of two chambers 2 and 3. A shaft 4 with a flag 5 is placed inside the chambers, which is fixedly mounted on it in the chamber 2. In the chamber 3, a ribbon (cable) 6 is placed in a convoluted form, which is attached at one end to the shaft (not shown), and at the other end, bearing external fasteners (not shown). Bulk material is placed inside the chamber 2 (discrete working medium of DLS). The chamber 2 is closed by a lid 7 having the possibility of axial movement. The camera 2 is made with protrusions 8, forming pockets on the inner surface of the camera. Screws 9 fasten the cover 7 and act as additional protrusions in the chamber 2.

Trigger rescue device operates as follows. External fasteners on the tape must be attached to any internal elements of the building, for example, heating pipes. The device is either held by hands by handles (not shown) or attached to a headscarf worn by a person. The rescued is selected through a window or openings on the outer part of the wall of the building. Under the influence of the weight of a person, the shaft 4 with the tape starts to rotate, the flag 5, rotating together with the shaft 4, passes through the DLS located in the chamber 2. External friction between the flag 5 and the DLS particles limit the rotational speed of the flag 5 and the shaft 4. The DRS particles captured flag 5, round the flag itself, and also make a relative motion relative to each other. In order for external friction to be guaranteed between the DLS particles and not between the DLS and the inner diameter of the chamber, in the chamber 4 there are protrusions 8 and 9, due to which inner pockets are formed in which the inhibited layer of the DLS is constantly located.

Since the device should not have large dimensions, its minimum dimensions are determined by the minimum possible dimensions of the chamber 2 and 3. The dimensions of the chamber 3 are determined by the length of the rolled tape or cable (approximately 20 ... 30 meters), and the dimensions of the chamber 2 by its minimum radial area, determined by the dimensions flag, the gaps between the ends of the flag and the protrusions and the size of the inhibited layer. The value of the inhibited layer of DLS is approximately equal to 2.5 diameters of the DLS particles. Then the minimum area of the chamber 2 in the radial direction should be equal

S _min = (A + 5 diameters of the DLS spheres) × (B + 10 diameters of the DLS spheres),

where A and B are the height and width of the flag, respectively.

The amount of external friction is pre-set, depending on the weight of the person being saved, the applied DLS, the number of DLS, pressure on the DLS from the side of the movable cover.

Claims (1)

A launching rescue device comprising a prefabricated housing with a shaft with a tape / cable and a braking mechanism, characterized in that the braking mechanism is made in the form of a flag fixed on the shaft, located in one of the chambers filled with bulk material - a discrete working medium, closed by a cover with the possibility of axial movement, and on the inner walls of the chamber with bulk material made protrusions forming pockets, while the gaps between the protrusions and the ends of the flag is not less than 2.5-3 particle diameters of discrete p environment, and the minimum radial area of the camera with the flag is defined as S _min = (flag height + 5 diameters of the spheres of the discrete working environment) · (flag width + 10 diameters of the spheres of the discrete working environment).