RU1356282C - Protecting helmet - Google Patents

Abstract

The invention relates to safety helmets. The purpose of the invention is to improve the protection of the protective glass of the helmet from moisture condensation, as well as to increase the uniformity of the heat from the surface of the face of the operator working in the helmet. Ventilation gas velocity field, outlet. The invention relates to helmets-type headgear. The aim of the invention is to improve the working conditions in the helmet by reducing moisture condensation on the protective glass and increasing the uniformity of heat removal from the surface of the face of the operator working in the helmet. In FIG. 1 shows a safety helmet, general view; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - helmet with streams of venting gas, axonometric; in FIG. 4 is a section BB in FIG. 3. The protective helmet 1 comprises a protective glass 2, ventilation means consisting of a tee 3, ventilation channels (tubes) 4, slotted jet nozzles 5 and partitions inside the nozzle. The axis of rotation of the generatrix 6 of the glass 2 is indicated by the letter O, the line of intersection of the helmet with the plane of the jet nozzles 5 consists of equal vectors lying in the planes of the sections of the helmet and glass passing in the corners of the solution of the jet nozzles 5 and containing the axis of rotation of the generatrix 6 of the protective surface glass 2, At the meeting point of flows from slotted jet nozzles along the entire arc of the protective glass, many turning points of conditional jets of 8 oncoming flows form. Sections of the outlet ends of the slotted jet nozzles 5 for leveling the velocity fields are made along circular arcs whose centers coincide with the vertices of the jet nozzles and the axis of rotation of the protective glass generatrix. 4 ill. symmetry (along the glass generatrix) - 7, and conventional gas jets - 8. The ventilation means works as follows. The venting gas supplied to the helmet is divided in tee 3 into two equal flows, which through the ventilation ducts (hoses) enter the slotted jet nozzles B, which allow the venting gas to exit from them in such a way that the velocity field of the gas exiting the diffusers consists of equal in magnitude velocity vectors lying in the planes of the sections passing in the solution, jet nozzles and containing the axis of rotation of the generatrix of glass. Coming out of the jet nozzles, venting gas propagates over the surface of the protective glass, creating a protective gas sheet near its surface. ; At the meeting point of streams located in the plane, feathers were eaten

Description

perpendicular to the axis of symmetry of the protective glass along its entire arc, form a linear set of turning points of conditional stream jets. In the vicinity of the internal points of the set of turning points, the whole mass of gas is the counter condition of the stream jets leaving the jet nozzles and lying in the same section plane containing the axis of rotation of the protective glass generatrix, changes its direction of propagation perpendicular to the glass, without leaving the plane of the initial propagation. As a result, in the front of the helmet, in the vicinity of the plane perpendicular to the axis of symmetry of the helmet and the glass, a total converging flow is generated, propagating from the protective glass along its entire arc in this plane towards the head.

Thus, the operator’s external respiratory organs and face are blown by a counter flow of venting gas uniformly distributed throughout

Claims (1)

SUMMARY OF THE INVENTION A safety helmet comprising a safety glass with a convex surface of the body of revolution with a generatrix extending through the axis of the growth and ventilation means having two symmetrically arranged slotted nozzles of an arc-shaped slit type mounted on the side surfaces of the feed helmet gas, characterized in that, in order to improve the working conditions in the helmet by reducing moisture condensation on the protective glass and increasing the uniformity of the thermal height of the face with a sufficient height of the protective glass. In the face of the operator, two symmetrically arranged vortices from the venting gas. In connection with that. that the ventilating gas entering the helmet first forms a gas sheet near the surface of the glass, then blows off the external organs of the respiratory system and the face by the frontal flow running on them, the relative human-washed vapor of liquid from the glass is improved compared to the known ventilation devices without additional increasing the flow rate of the venting gas, protecting the glass from moisture condensation on it and increasing the uniformity of heat removal from the surface of the operator’s face. Tests of the ventilation means showed that using it improves the general physiological state of the operator in the helmet under the conditions of his work, removal from the surface of the face of the operator working in the helmet, each nozzle nozzle is directed from the occipital part of the helmet to the protective glass, and its axis symmetry is located in the plane of symmetry of the protective glass, the nozzle inlet and the center of the nozzle exit arc are located on the axis of rotation of the protective glass generatrix, and the magnitude of the arc the cut is limited by planes passing through the axis of rotation of the protective glass forming and the extreme points of the protective glass. Azl Ui.f Fi9. 2 .J FieL Editor T. Gor Cheva Compiled by T.Kazinova Tehred M. Morgenthal Corrector E. Lonchakova. Order 551 Mintage VNIIIPI of the State Committee for Inventions and Discoveries under the USSR SCST 113035, Moscow. Zh-35, Rauska nab, 4/5 Production and Publishing Plant Patent, Uzhhorod, 101 Gagarin St.