公开(公告)号：US11684095B2

公开(公告)日：2023-06-27

申请号：US16138864

申请日：2018-09-21

Applicant: Simon Fraser University

Inventor： Daniel Eamon Abram ,  Farid Golnaraghi ,  Gaofeng Gary Wang ,  Combiz Jelveh

IPC: A41D13/015 ,  A42B3/06 ,  B32B7/08 ,  A63B71/08 ,  A63B71/10 ,  A63B71/12 ,  A41D31/18 ,  A41D13/05 ,  A41D13/06 ,  A41D13/08 ,  A42B3/12 ,  A42B3/14

CPC classification number: A41D13/015 ,  A41D13/0506 ,  A41D13/0512 ,  A41D13/0518 ,  A41D13/0531 ,  A41D13/0543 ,  A41D13/065 ,  A41D13/08 ,  A41D31/185 ,  A42B3/064 ,  A42B3/121 ,  A63B71/08 ,  A63B71/081 ,  A63B71/10 ,  A63B71/12 ,  A63B71/1225 ,  A63B71/1291 ,  B32B7/08 ,  A41D2600/10 ,  A41D2600/104 ,  A42B3/14 ,  A63B2071/125 ,  A63B2071/1208 ,  A63B2071/1233 ,  A63B2071/1258 ,  A63B2071/1275 ,  A63B2071/1283 ,  A63B2209/10 ,  B32B2250/04 ,  B32B2307/56 ,  B32B2437/04 ,  B32B2571/00

Abstract: The present disclosure seeks to reduce the effects of rotational and linear acceleration experienced by the body of a user in response to an impact force. Modular disengaging systems of the present disclosure are generally suitable for coupling to protective equipment to provide a disengaging motion between various layers such that the effects of the impact force to the body of the user are reduced. Generally described, the modular disengaging systems of the present disclosure include layers configured to facilitate relative lateral motion therebetween upon an impact force.

公开(公告)号：US12041983B2

公开(公告)日：2024-07-23

申请号：US16491803

申请日：2018-03-06

Applicant: SIMON FRASER UNIVERSITY

Inventor： Daniel Eamon Abram ,  Farid Golnaraghi ,  Gaofeng Gary Wang

IPC: A41D13/015 ,  A42B3/06 ,  A42B3/12 ,  B32B3/26 ,  B32B5/18 ,  B32B5/24 ,  B32B5/26 ,  B32B7/12 ,  B32B25/04 ,  B32B25/08 ,  B32B25/10 ,  B32B25/20 ,  B32B27/06 ,  B32B27/08 ,  B32B27/12 ,  A63B71/12

CPC classification number: A41D13/015 ,  A42B3/064 ,  A42B3/121 ,  A42B3/127 ,  B32B3/266 ,  B32B5/18 ,  B32B5/245 ,  B32B5/26 ,  B32B7/12 ,  B32B25/045 ,  B32B25/08 ,  B32B25/10 ,  B32B25/20 ,  B32B27/065 ,  B32B27/08 ,  B32B27/12 ,  A63B71/1225 ,  A63B2071/1233 ,  A63B2071/1241 ,  A63B2071/125 ,  A63B2071/1258 ,  A63B2071/1275 ,  A63B2071/1283 ,  A63B71/1291 ,  A63B2209/00 ,  B32B2250/05 ,  B32B2307/51 ,  B32B2307/56 ,  B32B2307/712 ,  B32B2307/724 ,  B32B2307/7265 ,  B32B2437/04 ,  B32B2571/00 ,  B32B2605/003

Abstract: Generally described, aspects of the disclosed subject matter are directed to impact mitigating membranes. In accordance with aspects of the present disclosure, the impact mitigating membranes generally include a laminar core having a first lamina and a second lamina coupled to the first lamina and configured to shift relative to the first lamina to dissipate kinetic energy resulting from an oblique impact force. The laminar core may include a lubricating layer or self-lubrication between the lamina to reduce friction. In general, the laminar core is surrounded by first and second encapsulating layers positioned adjacent each lamina. An anchoring attachment coupled to one or more of the first and second encapsulating layer and associating with the laminar core constrains relative lateral motion between the laminar core and the first and second encapsulating layers.

公开(公告)号：US20190265141A1

公开(公告)日：2019-08-29

申请号：US16289140

申请日：2019-02-28

Applicant: Simon Fraser University

Inventor： Daniel Eamon Abram ,  Farid Golnaraghi ,  Gaofeng Gary Wang

IPC: G01N3/303

Abstract: The present disclosure generally relates to a suspension-based impact test system for testing impact of a testing object against an impacting object. The impact test system includes components to couple the testing object to a suspension arm through a coupling member, and the suspension arm interfaces a motion-guiding mechanism. The impact test system generally includes a detachment mechanism for releasing the testing object from the suspension arm when initiated by a release system. The testing object releases from the constraints such that the testing object can move freely just prior to contacting the impacting object.

公开(公告)号：US20160120256A1

公开(公告)日：2016-05-05

申请号：US14992749

申请日：2016-01-11

Applicant: Simon Fraser University

Inventor： Farid Golnaraghi ,  Gaofeng Gary Wang ,  Daniel Eamon Abram ,  Combiz Jelveh

IPC: A42B3/06 ,  F16F7/12 ,  A41D13/015

CPC classification number: A42B3/064 ,  A41D13/015 ,  F16F7/12

Abstract: An impact diverting mechanism having a top layer and a bottom layer is provided. The two layers are connected such that the top layer is configured to move in relation to the bottom layer when impacted, and therefore is able to divert impact and reduce rotational and linear acceleration on the bottom layer. The impact diverting mechanism may be attached to, or configured to attach to, an object in need of protection, such as a helmet.

Abstract translation: 提供了具有顶层和底层的冲击转向机构。 这两层连接成使得顶层被配置为在受到撞击时相对于底层移动，因此能够转移冲击并降低底层上的旋转和线性加速度。 撞击转向机构可以附接到或配置成附接到需要保护的物体，例如头盔。

公开(公告)号：US10143255B2

公开(公告)日：2018-12-04

申请号：US14992749

申请日：2016-01-11

Applicant: Simon Fraser University

Inventor： Farid Golnaraghi ,  Gaofeng Gary Wang ,  Daniel Eamon Abram ,  Combiz Jelveh

IPC: A41D13/015 ,  A42B3/06 ,  F16F7/12

Abstract: An impact diverting mechanism having a top layer and a bottom layer is provided. The two layers are connected such that the top layer is configured to move in relation to the bottom layer when impacted, and therefore is able to divert impact and reduce rotational and linear acceleration on the bottom layer. The impact diverting mechanism may be attached to, or configured to attach to, an object in need of protection, such as a helmet.

公开(公告)号：US20190021413A1

公开(公告)日：2019-01-24

申请号：US16138864

申请日：2018-09-21

Applicant: Simon Fraser University

Inventor： Daniel Eamon Abram ,  Farid Golnaraghi ,  Gaofeng Gary Wang ,  Combiz Jelveh

IPC: A41D13/015 ,  A63B71/12 ,  A41D13/05 ,  A41D13/06 ,  A41D13/08 ,  A41D31/00 ,  A42B3/06 ,  A42B3/12 ,  B32B7/08

Abstract: The present disclosure seeks to reduce the effects of rotational and linear acceleration experienced by the body of a user in response to an impact force. Modular disengaging systems of the present disclosure are generally suitable for coupling to protective equipment to provide a disengaging motion between various layers such that the effects of the impact force to the body of the user are reduced. Generally described, the modular disengaging systems of the present disclosure include layers configured to facilitate relative lateral motion therebetween upon an impact force.