PL71647Y1 - Frame for fixing a safety helmet shell - Google Patents

Abstract

The subject of the application is a frame for mounting a protective helmet shell, characterized by the fact that it is composed of a rim to which inserts (6) are attached from the outside, evenly distributed along the circumference of the rim and stabilizing the position of the helmet, and angular connectors (3). The rim is made of a flat bar formed in the shape of an oval, the ends of which (2) have bean-shaped holes (4) and which are connected to each other by one of the angular connectors (3). The angle connectors (3) have holes (8) for attaching the frame to the plate of the measuring device. The inserts (6) are made of flat bars and are slidably attached to the rim using a screw connection (5) in horizontal bean-shaped holes (7) made in the rim.

Description

Description of the design: The subject of the utility model is a frame for mounting a protective helmet shell, enabling a simple way to perform strength tests to determine the mechanical parameters of protective helmets. Known and used methods and stands for strength tests to determine the impact resistance of protective helmets are presented in the following standards: EN 397 "Industrial protective helmets for general use", EN 14052 "Industrial helmets with increased protective parameters". During strength tests, a complete protective helmet, including the shell, harness, sweatband, and headband, is placed on a so-called head model, which is attached to a rotating base, enabling angular change of its position together with the helmet. Head mock-ups are solids that meet the design requirements of the PN EN 960:2007 standard. This means that various sizes of mock-ups are used for testing, depending on the adjustment range used in the tested helmet, and a significant geometric parameter is head circumference, defined as the length of the rim measured at the reference plane specified in the standard. The use of head mock-ups in dynamic tests involves determining the value of energy converted into strain and deformation of the shell and ligament, as well as the energy transmitted through the helmet structure towards the cervical spine. Furthermore, other methods are also known for determining the mechanical impact resistance of protective helmets, the methodology of which depends on factors such as temperature, type of material, and the atmosphere of harmful gases. As a result, the mounting systems also have different designs, which should ensure proper positioning and fixing of the tested material. A strength testing station using a head model is known, for example, from the publication of Chinese utility model CN204740116 (U). This solution uses a head-shaped casting supported on rods and equipped with a neck imitation and a set of sensors on the underside. A similar solution for the head mold construction is known from the publication of Chinese utility model CN206847898 (U). This solution also proposes a head-shaped casting mounted on a positioning base attached to the frame of the testing device. The head-shaped casting has a pin on the underside, which is mounted in a socket and whose end contacts the measuring sensors. The structure of the frame for mounting the protective helmet shell consists of a rim to which inserts are attached externally, evenly spaced along the circumference of the rim and stabilizing the helmet's position, as well as angular connectors. The rim is made of an oval-shaped flat bar with bean-shaped holes in its ends. The ends of the rim are connected by one of the angular connectors. The angular connectors have holes for attaching the frame to the measuring device plate. The inserts are made of flat bars and are attached to the outer edge of the frame. to the rim by means of a screw connection in horizontal bean-shaped holes made in the rim, which enables their sliding along the axis of the frame rim. The bean-shaped holes in the ends of the rim enable the length of the rim circumference to be changed. A frame with the above design enables testing of protective helmets of various sizes. The form of the frame according to the present utility model is shown in the drawing, in which: - Fig. 1 illustrates the frame in a top view; - Fig. 2 illustrates the frame in a side view; - Fig. 3 illustrates the frame in a perspective view from above. The frame for fastening the protective helmet shell is composed of a ring 1, made of a metal flat bar formed in the shape of an oval. The rim 1 has ends 2, which are connected to each other by an angular connector 3. The ends 2 are connected after determining the length of the circumference of the rim. The length of the circumference of the rim 1 is set thanks to the bean-shaped holes 4 made in the ends 2. After determining the length of the circumference, the ends 2 are fastened with a screw connection 5. Six inserts 6 are attached to the rim 1 from the outside, which are evenly spaced along the circumference of the rim 1. Their task is to stabilize the position of the helmet. The inserts 6 are made of flat bars and are slidably attached to the rim 1 in horizontal bean-shaped holes 7 made in the rim 1 by means of screw connection 4. A second angle connector 3 is attached to the rim 1, opposite to the connected ends 2. Both angle connectors 3 have holes 8 for attaching the frame to the measuring device plate. PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL

Claims (1)

1.