RU2784283C1 - Method for rescuing a climber from a high level vertical stone surface - Google Patents

Abstract

FIELD: people rescuing methods.

SUBSTANCE: invention relates to methods for rescuing people on a vertical stone surface of a rock using mobile technical means in the process of rescuing. The method consists in that a rescue rock climber is equipped behind the climber to be rescued and a mobile technical device clinging to the rock is used to move him, having an electric motor with a cable from an autonomous mobile ground source. Two branches of the cable, each equipped with a branch of the halyard, are supported in the air by a flying unmanned balloon, and from the balloon the first branch of the cable with the halyard is connected to a mobile technical device, and the second branch of the cable with a halyard is connected to an autonomous mobile ground source of electrical energy. The climber-rescuer, when moving up, or both climbers, when moving down, attach their safety belts to the halyard of the first branch of the cable, and in the event of a sudden fall of a mobile technical device from a vertical stone surface, the rocks hang in the air on it, supported by a flying unmanned balloon, with which the operator , located on an autonomous mobile ground source of electrical energy, lowers them at a speed of no more than one meter per second, which ensures their health and life during the descent, while moving them by pulling the second branch of the cable with a halyard to a safe place for landing.

EFFECT: people rescuing method improvement.

1 cl, 1 dwg

Description

The invention relates to methods for rescuing people on a vertical stone surface of a rock using mobile technical means in the process of rescuing.

A well-known method of rescuing a climber from a vertical stone surface of a rock is to use a mobile technical device, such as a helicopter (see, for example, the Internet, Yandex, e-mail address bbc.com›russian/multimedia/2014/07…us_hiker_rescue… The unsuccessful climber was saved by a helicopter .7 July 2014), from which the end of the halyard is served to the climber in the air, the other end of which is fixed on a helicopter.

The disadvantage of this method of rescue is the scope of the rotating blades of the helicopter propeller, which does not allow the helicopter to be located close to the location of the climber in flight due to the danger of hitting the vertical stone surface of the rock with the blades in order to evacuate the climber.

The known method used in the source of information (closest in technical essence to the proposed and taken as a prototype: Perminov, N. A. Mobile means for evacuating people from high levels of vertical stone walls in an emergency / N. A. Perminov // Security in Technosphere: collection of articles / Udmurt.region, department of the All-Russian Society of Organization "Russian Scientific Society for Risk Analysis", Federal State Budgetary Educational Institution of Higher Professional Education "Udmurt State University", scientific editor V. M. Kolodkin - Izhevsk: [Udmurt University], 2016. - Issue 10. - P. 126-129), in which, in order to rescue a climber from a vertical stone surface of a rock, a rescue rock climber is equipped, using a self-propelled mobile technical device clinging to the rock, on which he rises along the vertical stone surface of the rock behind the rescued climber and goes down with him.

The disadvantage of this rescue method is the inability to escape both the rescue climber and the rescued climber in the event of a sudden fall of a mobile technical device from a vertical stone surface of a rock due, for example, to the presence of a loose soil area, the strength of which will be low for hooking and hanging on it a heavy mobile technical device .

The objective of the invention is to ensure the rescue of a rescue climber, or at the same time a rescue climber and a rescue climber, located on a mobile technical device that moves along a vertical stone surface of a rock, in case of a sudden fall.

The scheme of implementation of the proposed method is shown in Fig.1.

The essence of the proposed method of rescuing a climber 1 from a vertical stone surface 2 of a rock lies in the fact that for the movement of the rescue climber 3 along the vertical stone surface of the rock behind the rescued climber 1, a mobile technical tool 4 clinging to the rock is used, while the mobile technical tool 4 contains an electric motor (not shown in the diagram), powered by electrical energy through a cable consisting of two branches 5 and 6, connected by a branch 6 with the possibility of changing its length with the drum 7 of an autonomous mobile source 8 of electrical energy on the ground 9 and supported along the length by an elastic sheath in the air above the level of location of the mobile technical means 4, while the elastic shell is a flying unmanned balloon 10 filled with air and containing equipment 11 for heating the air inside it with electricity. The cable branches provided with the first 5 branch 12 of the halyard of the same length and the second 6 with a halyard branch 13 of the same length are pulled from the air heating equipment 11 of the flying unmanned balloon 10: the first branch 5 of the cable with the halyard branch 12 - to the mobile technical device 4, exposing its length more than the height of the vertical surface of the rock, thereby ensuring the protection of the flying unmanned balloon 10 from snagging on the rock, the second branch 6 of the cable with the branch 13 of the halyard, with the possibility of changing its length - on the drum 7 of an autonomous mobile source 8 of electrical energy on the ground 9 Before starting to move up the rock, the lower end of the first branch 12 of the halyard is attached to the safety belt (not indicated in the diagram) of the rescue climber 3, and before starting to move down, they do the same on the safety belt (not indicated in the diagram) of the rescued climber 1 , in both cases, the flying unmanned balloon 10 is informed of the amount of lift that provides in the event of a sudden fall i mobile technical device 4 from a vertical stone surface 2 rocks the rate of descent of the rescue climber 3 or both climbers 1 and 3 hanging or hanging on a halyard 12 on a flying unmanned balloon 10, not more than one meter per second, at the moment of a sudden fall, automatically providing disconnection of the lower end of the first branch 5 of the cable from the electric motor (not shown in the diagram) of the mobile technical device 4 with the power supply turned off in it, and to ensure a smooth descent of the rescue climber 3 or both climbers 1 and 3 from the cliff to the ground 9 with the help of a flying unmanned balloon 10 maintain the supply of electrical energy through the second branch 6 of the cable from an autonomous mobile source 8 on the ground 9 to the air heating equipment 11 of the flying unmanned balloon 10, and, after the rescue climber 3 or both climbers 1 and 3, connected or connected by a belt or safety belts (not indicated in the diagram) with the first branch of the 12th halyard, pov is or hung on it in the air outside the mobile technical means 4, the operator 14 adjusts the speed of his or their descent by changing the magnitude of the lifting force of the flying unmanned balloon 10, turning on and off periodically the power supply of its equipment 11 with electric energy through the second branch 6 of the cable, while simultaneously using autonomy and the mobility of the source 8 of electrical energy to attract by rotation of the drum 7 flying unmanned balloon 10 for the second branch 13 of the halyard to the place of safe landing of the climber-rescuer 3 or both climbers 1 and 3 on the ground 9.

As a result of the rescue climber 3 or both climbers 1 and 3 together with the vertical stone surface 2 of the rock due to the sudden fall of an electrically powered mobile technical device 4 on which the rescue climber 3 moved one or both climbers 1 and 3 moved together , the following technical means: a flying unmanned balloon 10 with equipment 11 for heating the air in it with electric energy from an autonomous mobile source 8 on the ground 9, interconnected by a cable branch 6 and a halyard branch 13, and with a self-propelled mobile vehicle 4 by a cable branch 5 and the branch 12 of the halyard, using them in the above way, it is possible to prevent the possibility of falling of the rescue climber 3 or both climbers 1 and 3 together with the suddenly falling self-propelled mobile vehicle 4 and thereby save their health and life.

Claims (1)

A method for rescuing a climber from a vertical stone surface of a rock, characterized in that a mobile technical device clinging to the rock is used to move the rescue climber along the vertical stone surface of the rock to and with him back, clinging to the rock, while the mobile technical device contains an electric motor powered by electrical energy through a cable connected with the possibility of changing its length with an autonomous mobile source of electrical energy on the ground and supported along the length by an elastic sheath in the air above the level of the mobile technical facility, while the elastic sheath is a flying unmanned balloon containing electricity to heat the air in it equipment, from which two cable branches are pulled, each equipped with a halyard branch of the same length, where the first branch is connected to a mobile technical device, while ensuring its length is greater than the height of the vertical stone surface rocks, and the second branch, which has the ability to change its length, is connected to an autonomous mobile source of electrical energy on the ground, and before moving up, the lower end of the first branch of the halyard is attached to the safety belt of the rescue climber, and when moving down, to the safety belt of the rescued climber, while the flying unmanned balloon is informed of the magnitude of the lifting force, which, in the event of a sudden fall of the mobile technical device from the cliff, the speed of descent of the hanging or hanging in the air outside the mobile technical device on the first branch of the halyard of the climber-rescuer or both climbers on the flying unmanned balloon is not more than one meter per second, and at the same time ensure automatic disconnection of the lower end of the first branch of the cable from the electric motor of the mobile technical device with the power supply turned off in it, and to maintain the speed of descent, the supply of electric energy is maintained through the second branches from an autonomous mobile source of electrical energy on the ground to the air heating equipment of a flying unmanned balloon and after the rescue climber or both climbers, connected or connected by a safety belt or safety belts with the first branch of the halyard, hung or hung on it in the air outside the mobile of a technical device in case of its sudden fall, the speed of its or their descent is corrected by changing the magnitude of the lifting force of a flying unmanned balloon, turning on and off periodically the power supply of its equipment with electrical energy through the second branch of the cable, while simultaneously using the autonomy and mobility of the source of electrical energy to attract a flying unmanned balloon for the second branch of the halyard to the place of safe landing of the rescue climber or both climbers on the ground.

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