The present invention relates to a shock absorbing device incorporating a plurality of wavy shaped elements made of a superelastic material arranged in a crossing pattern, wherein pairs of crests or troughs of said wavy shaped elements made of a superelastic material are restrained to each other in a locking manner by way of connecting elements.

A force defusing structure includes first and second plurality of spherical shaped objects. A first spherical shaped object is proximally positioned to two or more second spherical shaped objects. When a force is applied to the first spherical shaped object, the first spherical shaped object collides with the two or more second spherical shaped objects to defuse the force based on a multi-dimensional collision between the first spherical shaped object and the two or more second spherical shaped objects.

Embodiments disclosed herein are directed to protective garments and systems that include a protective garment for protecting one or more body regions of an individual wearing the protective garment.

Embodiments disclosed herein are directed to protective garments and systems that include a protective garment for protecting one or more body regions of an individual wearing the protective garment.

A cushion composite structure having a plurality of meshes is provided, including a support layer and a fabric layer. The support layer includes a support structure and a polymer layer. The polymer layer is disposed on the support layer and in the meshes, wherein the Tm point of the polymer layer is less than 70 C. The fabric layer is disposed on the support layer.

An article of protective equipment for protecting a body part of a user includes a lattice structure with a plurality of struts forming three dimensional volumetric structures. The lattice structure includes a plurality of internal layers, each internal layer having at least one different physical property from the other internal layers, wherein the plurality of internal layers comprises at least one internal layer having physical properties such that the at least one internal layer is capable of compressing more than at least one other internal layer in response to an impact to the article of protective equipment.

An impact force dampening and defusing structure includes a plurality of components arranged in a grid array. A component has a three-dimensional geometric shape that includes an impact receiving surface area and an impact defusing surface area. The impact defusing surface area is larger than, and a distance d from, the impact receiving surface area. The component includes a material composition and, when an impact force strikes the impact receiving surface area of the component and the impact force dampening and defusing structure is in position to protect a body part, the component contributes to reducing pressure on the body part based on the material composition, the distance d, the impact receiving surface area, and the impact defusing surface area.

A manufacturing method of protective pad for sportswear and the protective pad obtained by the manufacturing method are disclosed. The manufacturing method has the steps of: 1. making separate paddings using spongy materials; 2. choosing several paddings being made; adhering the several paddings with fabric pieces by heat press using a heat press mold and heat press formation devices, thereby forming the protective pad for sportswear. Specifically, the heat press mold contains cavities for accommodating the paddings; before heat press, laying a first fabric piece on the heat press mold, and then placing the paddings into the cavities; and after that laying a second fabric piece over the paddings; applying glues between the first fabric piece, the second fabric piece and the paddings; finally, adhering the first fabric piece, the second fabric piece and the paddings by heat press using the heat press formation devices.

A pad for a garment includes a one piece structure comprising interconnected elements made from a compressible material. The elements are arranged such that, when the pad is in a non-deformed state, each element is spaced apart from adjacent elements by a void. The elements are interconnected such that, when the pad is deformed, a zigzag arrangement of at least three elements is formed and/or a void enclosed by at least two adjacent elements expands.

A pad for a garment includes a one piece structure comprising interconnected elements made from a compressible material. The elements are arranged such that, when the pad is in a non-deformed state, each element is spaced apart from adjacent elements by a void. The elements are interconnected such that, when the pad is deformed, a zigzag arrangement of at least three elements is formed and/or a void enclosed by at least two adjacent elements expands.