RU2311863C2 - Casing of protective helmet - Google Patents

Abstract

FIELD: head protective equipment.

SUBSTANCE: casing of protective helmet has cap equipped with longitudinal rigidity rib and shock-absorbing members formed as slots provided on inner surface of cap, at both sides of rigidity rib, with thickness of cap in slots being gradually reduced. Inner sides of slots are gradually making continuation of rigidity rib, and depth of slots gradually fades away. Width of slots is 4-6 mm.

EFFECT: simplified construction and improved shock-absorbing function of helmet casing.

2 dwg

Description

The present invention relates to safety, and more specifically to a means of protecting the human head from shock.

A large number of designs of helmets are known, the body of which has a stiffening rib extending along the longitudinal axis of symmetry and providing rigidity to the housing while reducing its mass (Industrial safety helmets. Album catalog. VTsSSPS, VNII labor protection. - Sverdlovsk, 1981. - 28 p. ) Moreover, the walls of the dome of the housing usually have a variable thickness, decreasing from the top of the dome to its base. This provides an additional reduction in the mass of the body, and due to the large thickness of the dome in the apex of the body, good protection against sharp falling objects.

Protective helmets are known in which the casing partially assumes the function of shock absorption due to the presence of cushioning elements made by changing the shape of the surface of the casing. A design of a helmet is known in which the shock-absorbing elements of the housing are made in the form of grooves located in the ribs of the side surfaces of the dome, having constrictions at the vertices that form hinges that allow the upper part of the dome to move relative to these constrictions with absorption of impact energy (RF patent No. 2147818, IPC A42B 3 / 00, 1999). The described case of the protective helmet is the closest to the claimed according to most of the essential features and is accepted by us as a prototype.

The disadvantage of the prototype is the technological complexity of the grooves located in the ribs on the side surfaces of the dome, since when casting the body it is difficult to remove the plastic from the grooves, which are almost closed volumes.

The task of the invention is to simplify the design of the housing while maintaining its shock-absorbing function.

To solve the problem in a protective helmet housing containing a dome with a longitudinal stiffening rib having elements for shock absorption, according to the invention, shock absorbing elements are made in the form of grooves located on the inner surface of the dome on both sides of the stiffening rib with decreasing dome thickness in them, while the inner sides of the grooves smoothly pass into the stiffener, and the depth of the grooves when approaching the base of the dome comes to naught. Furthermore, grooves width is 4-6 mm.

The analysis of the prior art did not allow to identify an analogue characterized by features identical to all the essential features of the claimed technical solution, i.e. it meets the requirement of novelty.

Not detected are also signs that are distinctive in the claimed technical solution, i.e. the proposed solution meets the requirement of novelty.

The essence of the invention is illustrated by drawings, where in Fig.1 shows a cross section of the helmet body with a plane perpendicular to the base and passing through the top of the dome, Fig.2 is a view of the inner part of the housing.

The protective helmet case contains a dome 1, the wall thickness of which decreases from the top to the base 2 of the dome 1. The dome 1 has a longitudinal stiffener 3. On the inner surface of the dome 1 along the stiffener 3, grooves 4 are made on both sides with a decrease in the thickness of the dome. The inner sides of the grooves 4 smoothly pass into the stiffener 3, and the depth of the grooves 4 when approaching the base 2 of the dome 1 comes to naught.

The protective helmet case works as follows.

With a vertical impact, the thin walls of the grooves bend 4. The stiffener 3, while maintaining local stiffness and being on the suspension formed by the thin walls of the dome 1 in the grooves 4, moves inside the dome. As a result of bending the walls of the grooves 4, shock absorption occurs.

When struck with a sharp object in the thin wall of groove 4, for example, with a cone, when testing a protective helmet for perforation resistance (GOST R 12.4.207-99. Protective helmets. General technical requirements. Test methods. - Introduced. 07/01/2002. Group T-58 -M.: Ed. Standards.), It will be broken, but the cone will get stuck between the stiffener 3 and the thickened part of dome 1 and will not reach the layout of the head. Increasing the width of the grooves of more than 6 mm increases the depth of advancement of the cone inside the helmet and increases the likelihood of contact between the cone and the head layout, especially with a small vertical safe clearance (vertical distance between the outer surface of the shock absorber of the internal equipment and the inner surface of the helmet body, the minimum value of which cannot be less than 25 mm). Reducing the width of the grooves less than 4 mm dramatically reduces the effect of cushioning the case. When a sharp object strikes an edge or other vertex region of the helmet, there will also be no contact with the head, because these parts of the helmet have increased strength.

The proposed housing is simple to manufacture, increases the cushioning properties of the protective helmet, and also reduces its weight.

Claims (2)

1. The body of the protective helmet, comprising a dome with a longitudinal stiffener, having elements for shock absorption, characterized in that the elements for shock absorption are made in the form of grooves located on the inner surface of the dome on both sides of the stiffener with a decrease in the thickness of the dome in them, when In this case, the inner sides of the grooves smoothly pass into the stiffener, and the depth of the grooves, when approaching the base of the dome, comes to naught. 2. The body of the protective helmet according to claim 1, characterized in that the width of the grooves is 4-6 mm

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