SU1584962A1 - Arrangement for slinging fire extinguisher - Google Patents

Abstract

The invention relates to the field of fire extinguishing, in particular, to devices designed to deliver fire extinguishers to a fire in places that are difficult of access for humans, or where it is impossible to install automatic fire extinguishing installations. The purpose of the invention is to simplify the design and increase the efficiency of the device for throwing fire extinguishers. A device for throwing a fire extinguisher contains a receiver tube and means for twisting the fire extinguisher, an actuator for launching and throwing a fire extinguisher mounted on the receiver tube. The barrel tube along the perimeter of the outer surface is made of spherical elements, the direction of rotation vector of which is aligned with the direction of twist of the fire extinguisher in the barrel tube. The drive for throwing a fire extinguisher is an elastic element in the form of a flat membrane, which is connected to a driver of force deformation of the membrane and with a drive actuator, made in the form of an electrical energy storage device and a discharge switch. 2 hp f-ly, 2 ill.

Description

The invention relates to fire fighting equipment and can be used in extinguishing fires in hard-to-reach places, in particular in extinguishing fires in places where a person cannot be found for reasons threatening their viability, and it is impossible to install automatic fire extinguishing installations.

The aim of the invention is to simplify the design and increase the efficiency of the device for throwing a fire extinguisher.

This goal is achieved by the fact that in a device for throwing a fire extinguisher containing a trunk tube, a support, means for twisting the fire extinguisher and an actuator mounted on it for launching and throwing a fire extinguisher, the stem tube is made around the perimeter of the outer surface of spherical elements, the direction vector of rotation of which is aligned with the vector of the direction of twist of the fire extinguisher in the barrel tube, and the drive for throwing the fire extinguisher is an elastic element in the form of a flat membrane connected to the exciter deformations and with a drive for starting, made in the form of a storage of electric energy and a switch-over switch.

While the elastic element of the actuator can be made in the form of corrugated

00 4

WITH

oh

145

a triangular, trapezoidal, wave-shaped corrugated tubular membrane, which makes it possible to form a linear or nonlinear elastic force characteristic.

FIG. 1 schematically shows the proposed device; in fig. 2 is a plot of the selection of the number of spherical elements for filling.

nor the cross section of the barrel tube.

The device comprises a barrel 1, along the perimeter of the shell of which along the entire length of the pipe there are Spherical elements 2, fixed appropriately, inside the barrel pipe there is a missile fire extinguisher 3, freely supported, for example, on a corrugated elastic element 4. To the central part of the elastic element is attached the core, movably entering the coil of the solenoid 5. The circuit is controlled by the thyristor key 6, which opens, pulsed, allowing the energy storage 7 to be discharged through the accelerating resistor Adding 8 and solenoid coil 5,

The device works as follows.

A fire extinguisher 3, containing a remote start system, is lowered into the barrel tube 1 before being connected to the elastic element 4. The elastic element is a flat corrugated membrane with a cylindrical core attached to the central part of the membrane. The diameter of the membrane, its thickness, the number and shape of the corrugations, the material is selected, based on the required elastic properties in accordance with the mass of the fire extinguisher from a given distance of throwing. The membrane is activated by pulling the core into the coil of the solenoid 5 over the distance necessary to give the fire extinguisher 3 sufficient acceleration upon termination of the pulse generated by the thyristor key 6 when the membrane blasts back to its original position. The engaging force in the coil of the solenoid is formed when the energy storage device 7 is discharged through the accelerating resistance 8 and the winding of the coil 5.

. Returning to the initial position, the membrane 4 imparts an acceleration to the fire extinguisher 3, which performs translational motion along the barrel tube,

0

0

, " five

, 0

0

45

five

contact with spherical elements 2, and causes the latter to rotate. At the same time, the rotation vector 9 of the spherical elements is oriented along the normal to the axis of rotation and coincides with the twist vector 10 of the fire extinguisher. Passing through the barrel tube 1, the fire extinguisher 3 acquires a rotational motion that allows it to withstand a given direction of flight and improves the accuracy of hitting the fire. The size and number of spherical elements 2 along the perimeter of the surface of the barrel tube 1 is determined based on the value of the moment of inertia, which for the step is equal to

, 2, t,

T -r-- t Z

 five

4 where t is the mass of the ball; t V - T T3;

g - the radius of the ball and the material of the ball with a specific weight p. It is desirable that the moment of inertia be minimal, since this is associated with a decrease in the radius of the proportional dependence, i.e. the smaller the radius of the spherical element, the smaller the moment of inertia, and this, in turn, leads to an increase in the total number of spherical elements and increases the resistance to friction at the points of contact between the elements and the fire extinguisher.

Claims (3)

1. A device for throwing a fire extinguisher containing a receiver tube, means for twisting the fire extinguisher and a drive mounted thereon to start the throwing of the fire extinguisher, characterized in that, in order to simplify the design and increase the efficiency of the throwing, the barrel tube along the outer surface perimeter is made of spherical elements, the rotation direction vector of which is aligned with the vector of the direction of twist of the fire extinguisher the barrel tube, and the actuator for throwing the fire extinguisher consists of an elastic element in the form of a flat membrane, and 9-6 force deformation of the membrane, vypol- -. in the form of a controlled solenoid, the measles of which is installed at the membrane. 2. The device according to claim. Characterized in that the elastic element is made in the form of a corrugated membrane, with triangular, trapezoidal, wave-shaped corrugations. 3. The device according to paragraphs. 1 and 2, that is, the elastic element is made in the form of a corrugated membrane with a linear or nonlinear force elastic characteristic. 1 X. 30 to /. Зкг-м1