RU53917U1 - RESCUE LIFTING DEVICE FOR EVACUATING PEOPLE FROM ALTITUDE OBJECTS IN EMERGENCY SITUATIONS - Google Patents

Abstract

The invention relates to a rescue. equipment, namely, to the launching devices and can be used for the rapid evacuation of any unprepared person and valuable cargo from high-altitude objects in emergency situations (fires, natural disasters, technological disasters). The trigger device consists of a housing, an inertial ball brake mechanism having a rotor and a pulley placed on the same axis, a clamping mechanism with rollers and a steel rope covering the pulley and passing through the clamping mechanism. A steel rope of the required length, determined when ordering, is wound on a plastic reel. The rescue trigger is mobile, for the descent of people (valuable goods) is attached with a carbine to either a stationary bracket or to structural elements of high-rise objects. The rescue launching device provides a smooth descent of a person (valuable cargo) with a constant (not more than 1.5 m / s) speed, independent of the weight of a person (valuable cargo) from any height determined by the length of the steel rope. The rescue trigger device is reusable, which is ensured by alternately lifting the working branch of the steel rope to the required height (after the next descent) by simply pulling the free branch of the rope manually automatically, which is automatically released from the clamp. The rescue trigger device is characterized by the structural simplicity and reliability of the brake device, portability and low weight.

Description

The invention relates to rescue equipment, namely, to launching devices and can be used to quickly evacuate unprepared people of any age and physical condition (even infirm) from high-altitude objects in emergency situations (fires, natural disasters, technological disasters), as well as construction industry, in the oil and gas industry, at the facilities of the petrochemical and energy industries.

2. The level of technology

Known trigger device for the evacuation of people from tall buildings in case of fire, containing a housing, a cable mounted on the outside of the housing, a clamping mechanism with rollers mounted in the housing, a brake mechanism having a rotor and a pulley placed on the same axis [German patent No. 2528410, class 62 B 1 / 08.1977].

Known trigger device closest to the invention [Copyright certificate of the USSR No. 718113, class. A 62 B 1/08, 1980], comprising a housing, a cable fixed on the outside of the housing, a clamping mechanism with rollers mounted on the housing, a brake mechanism having a rotor and a pulley placed on one axis in which the internal cavity of the housing has wave-like wall, the rotor has 4 blades, and the inter-blade space is filled with balls of the same diameter, and the clamping mechanism has a balancer on which the rollers are installed, interacting with the rope.

The disadvantages of the known devices are the structural complexity of the braking mechanisms, their lack of reliability (the effect of skewing the rotor axis during the dynamic action of the rope on the pulley at the time of loading the working branch of the rope, the effect of jamming of the brake mechanism and slipping of the rope along the pulley), as well as the fact that the device can be used only at normal temperature and for a certain height. These devices require a high precision of one hundred manufacturing, and deviations in manufacturing accuracy or wear of parts that occur during acceptance tests and operation significantly reduce the reliability

devices and prevent the receipt of a technical result, which is provided by the claimed invention.

3. Disclosure of invention

The technical problem solved by the invention is to increase the reliability of the rescue trigger device in operation, to enable the device to operate at elevated temperatures (including during fires), to remove restrictions from the range of working heights, to reduce the weight of the device and improve its conditions operation, as well as reducing labor costs in its manufacture.

The stated technical problem is solved in that in the known device comprising a housing, a cable fixed on the outside of the housing, a clamping mechanism with rollers mounted on the housing, a brake mechanism having a rotor and a pulley placed on one axis in which the internal cavity of the housing has wave-like walls, the rotor has blades, and the inter-blade space is filled with balls of the same diameter, and the clamping mechanism has a balancer on which rollers are mounted that interact with the rope according to the invention, and rope reeving uses another circuit to increase the angle of wrap the rope pulley and prevent it from slipping on the pulley streams, used in the braking mechanism 2-bladed rotor that improves the reliability of the brake mechanism of operation and simplifies its production.

In addition, the invention uses a 2-way mounting scheme for fixing the axis of the rotor in order to prevent skewing and jamming during dynamic action of the rope on the pulley at the time of loading the working branch of the rope.

In addition, the invention uses a steel rope in order to increase the reliability of the device at elevated temperatures, reduce the weight and dimensions of the trigger device.

In addition, the length of the steel rope can be any and is determined by the required descent height.

4. The principle of operation of the rescue trigger

Figure 1 shows the proposed trigger device, front view; figure 2 is a section aa in figure 1.

The trigger device consists of a housing formed by parts of 1.2 s

internal wave-like walls, of a rotor 4 located inside the housing, balls 5, a pulley 3 located on the same shaft with the rotor 4, balancer 6, rollers 7, 8, 9, 10 and rope 11.

The pulley 3 has two annular grooves for the rope 11, twice enveloping the pulley to prevent them from slipping relative to each other. The trigger device operates as follows.

In the initial position, the working branch of the rope 11 connected to the rescue belt should be pulled up as far as possible, and the free branch of the rope 11 of a given length should be wound on a compact reel.

In the event of an emergency, for example, on any floor of a multi-story building, the trigger device, both when it is in place, like a fire extinguisher, and when delivered by firefighters to a place, is fixed (suspended) through a hole in the upper part of part 1 with a carbine or kapron rope or to a stationary bracket (in a window opening or on a balcony), or to structural elements of high-rise objects. A coil with a wound free rope branch is thrown to the ground, the rescuer puts on a life belt, pulling out the working branch of the rope as much as necessary and jumping down, starts a smooth descent with an average speed of about 1.5 m / s.

In this case, the rope 11, twice bending around the drive pulley 3, rotates it together with the blade rotor 4. The balls 5 located in the inter-blade space make a circular motion with simultaneous complex oscillation, pressing and rolling in the inner wave-like walls of the parts 1 and 2. With increasing rotation speed rotor 4 in excess of permissible friction arising under the action of centrifugal forces between the balls, between the balls and the internal wave-like walls of the parts 1, 2, as well as the blade rotor 4, creates the necessary moment of resistance ju drive pulley 3, providing a slower descent.

In addition, the loaded working branch of the rope 11, passing along the roller 10, acts through the balancer 6 and the roller 7 on the idle branch of the rope, pressing it to the surface of the annular groove of the roller 8. The clamping force is proportional to the weight of the man descent, which creates the necessary additional moment of resistance to rotation of the drive pulley 3, providing stabilization of the descent speed of a person regardless of his weight.

After the descent to the ground, the person unfastens the lifebelt, and if it is necessary to descend to the next person, then, pulling down the idle branch of the rope manually both from the ground and by the rescued ones at height, the worker is lifted

rope branches with a life belt to the required height. In this case, the idle branch is automatically released from the clamp and the force required to pull it becomes acceptable for manual work.

Such a design of the launching device made it possible to create a light and mobile braking mechanism that ensures stability of the launching speed regardless of the weight of the launched load due to the clamping of the free branch of the rope with a force proportional to the weight of the rope, allowing multiple actions by lifting the working end of the rope one at a time after the descent , as well as virtually eliminating the impact on the work of climatic changes in the environment.

Claims (3)

1. Rescue trigger device for the evacuation of people from high-altitude objects in emergency situations, comprising a housing in which a ball inertial brake mechanism is located, consisting of a rotor and a pulley placed on the same axis and shaped cavities filled with steel balls, a clamping mechanism located on the housing with rollers and a rope passing through a clamping mechanism, characterized in that a two-bladed rotor is used in the brake mechanism, two blocks are not connected to each other, bespechivaet increase the angle of wrap the rope pulley and rope pretension free branch. 2. The device according to claim 1, characterized in that a two-support scheme for mounting the rotor axis in the housing is used. 3. The device according to any one of claims 1 and 2, characterized in that a steel rope of small cross section is used.