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AN IMPACT RESISTANT PAD

20230346054 ยท 2023-11-02

    Inventors

    Cpc classification

    International classification

    Abstract

    An impact resistant pad, for example, for a garment such as a glove (10). The impact resistant element is formed of a plurality of upstanding interconnected walls (1) arranged in a lattice pattern, the lattice being arranged in a Penrose tiling pattern.

    Claims

    1. An impact resistant pad comprising an impact resistant element formed of a plurality of upstanding interconnected walls arranged in a lattice pattern, the lattice being arranged in a Penrose tiling pattern.

    2. The impact resistant pad according to claim 1, wherein the impact resistant element is connected to an underlying substrate.

    3. The impact resistant pad according to claim 2, wherein the underlying substrate is part of a garment.

    4. The impact resistant pad according to claim 1 wherein the walls are resiliently deformable

    5. The impact resistant pad according to claim 1, wherein the mean height of the wall is 1-20 mm.

    6. The impact resistant pad according to claim 1, wherein the mean width of the wall is 0.2-5.0 mm.

    7. The impact resistant pad according to claim 1, wherein intersection between three or more walls is defined as a node, and wherein the mean spacing between nodes is 3-30 mm.

    8. A garment incorporating the pad according to claim 1.

    9. The garment according to claim 8 incorporating a plurality of the pads according to claim 1.

    10. The garment according to claim 9, wherein further comprising flexible impact absorbing features formed of a plurality of interconnecting walls having auxetic properties.

    11. The garment according to claim 8, wherein the garment is a glove.

    12. A case for a mobile communication device with a screen, incorporating a pad according to claim 1.

    13. A method of forming an impact resistant pad according to claim 1 by 3D printing the walls.

    Description

    [0020] Examples of an impact resistant pad will now be described with reference to the accompanying drawings, in which:

    [0021] FIG. 1 is a perspective view of a pad with a rear wall;

    [0022] FIGS. 2-4 show examples of different sizes of Penrose lattices that can be used for the pad;

    [0023] FIG. 5 is a plan view of a glove showing the layout of a number of pads on the glove;

    [0024] FIG. 6 is a plan view of a glove showing how the Penrose lattice is positioned on the glove; and

    [0025] FIG. 7 is a perspective view of a mobile phone case incorporating a pad.

    [0026] The impact resistance pad has a plurality of upstanding walls 1 with a distinctive configuration. The pad may be a self-contained pad as shown in FIG. 1, which has a rear wall 2 from which the pads are upstanding. Alternatively, it may be incorporated into an underlying structure as described below. In this case, it may still have the rear wall 2, or this may be provided by components of the underlying structure.

    [0027] The walls 1 are arranged such that they follow a path which is defined by the junctions of adjacent tiles in a Penrose tiling.

    [0028] The Penrose tiling is known in the art. It is a form of aperiodic tiling. The tiling covers a plane with non-overlapping polygons or other shapes such that the shifting any tiling of the shapes by a finite distance, without rotation, cannot produce the same tiling.

    [0029] One form of a Penrose lattice structure is shown in FIGS. 1 to 4. The central part of the structure is shown in FIG. 2. This is based around seven kite-shaped polygons 3 having the same shape and size arranged around a central point 4. Outside of the central structure there are further rings of various kite-shaped structures, FIGS. 3 and 4 then show further rings of polygons based around the same central core as FIG. 2.

    [0030] All three of these arrangements from FIGS. 2 to 4 have the same outer perimeter, such that the lattice effectively increases in the density from FIGS. 2 to 4.

    [0031] Several different categories of Penrose lattice are known in the art, such as pentagonal tiling, kite and dart tiling, and rhombus tiling. Any one of these are suitable for use in the present invention.

    [0032] As will be apparent from FIGS. 1 to 4, the elements making up the lattice have a reasonably uniform size meaning that they provide reasonably uniform coverage of the surface without leaving undue gaps to ensure that the surface for which impact resistance is required does not have unwanted exposed areas. The density of the lattice can be set in order to ensure that the open areas between the walls are not unduly large.

    [0033] As will also be appreciated from FIGS. 1 to 3, any impact perpendicular to the plane of the page (for FIGS. 2 to 4) is transmitted along with the walls as it is spreads through the pattern structure. Although the tiles of the lattice have a relatively constant shape, the walls do not follow a regular pattern. As the impact spreads through adjacent walls, where these walls meet, it is unlikely that the shockwave at this point will be in the same phase as the shockwave from an adjacent wall. The shockwave is therefore likely to be cancelled to some extent at an intersection.

    [0034] A first implementation of the pad is shown in FIG. 5 which relates to a glove 10. Such a glove is intended for applications where protection of the hands against impact is required.

    [0035] The glove may be covered with a single pad having a Penrose lattice pattern. In this case, a relatively large pad 11 covers the part of the glove which, in use, will cover the back of the wearer's hand. In the part of the glove which will, in use, cover the knuckles, there is a region 13 with a number of upstanding walls 13 which have an auxetic configuration. These provide a reasonable degree of flexibility in the vicinity of the knuckle joints. However, when a wearer grips an object, the auxetic nature of walls will provide enhanced protection for the knuckle joints at that time. In the finger and thumb regions 14, a more conventional protective pad may be used.

    [0036] A second implementation of the impact resistant pad is shown in FIG. 7 which represents a phone case 20. In most ways, this is conventional in that it has a generally rectangular configuration. It has four side walls 21 with a number of openings 22 to allow access to ports in the phone and a number of depressible features 23 to allow operation of the phone buttons. The case has a rear face 24 which is provided with the impact resistant pad 26 with the walls being arranged with a previously described Penrose lattice pattern. These ways may either extend internally of the case such that they contact the rear of the phone, or may be an outwardly protruding ribs protruding from the rear face of the case. The pattern shown in FIGS. 1 to 4 shows the pattern applied to a circular configuration. However, it is simply a matter of redefining the boundary of the pattern to have the rectangular configuration of the case. It is not necessarily for the tiling pattern to have the above described circular boundary.