Shock absorbers for integration into protective structures generally take the form of hollow, fluid-filled, compressible cells. In various embodiments, the cell enclosure includes one or more orifices, or vents, through which a fluid (such as air or water) can escape from the inner chamber formed by
Shock absorbers for integration into protective structures generally take the form of hollow, fluid-filled, compressible cells. In various embodiments, the cell enclosure includes one or more orifices, or vents, through which a fluid (such as air or water) can escape from the inner chamber formed by the enclosure.
대표청구항▼
1. A compressible cell for attenuating impact forces imparted thereto, the cell comprising: an enclosure defining an inner chamber for containing a fluid, the enclosure comprising a non-corrugated bottom wall, a top wall including at least one corrugation defining a periphery around a central portio
1. A compressible cell for attenuating impact forces imparted thereto, the cell comprising: an enclosure defining an inner chamber for containing a fluid, the enclosure comprising a non-corrugated bottom wall, a top wall including at least one corrugation defining a periphery around a central portion of the top wall and being spaced from the bottom wall, and a side wall extending between the top and bottom walls, the side wall and the at least one corrugation of the top wall resistively yielding in response to an impact imparted to the top wall so as to attenuate impact forces while allowing the cell to compress, the enclosure further comprises at least one orifice for resistively venting fluid from the inner chamber so as to at least partially attenuate the impact. 2. The cell of claim 1, wherein the at least one corrugation increase resistance to compression of the cell as they contact the bottom wall. 3. The cell of claim 1, wherein the top wall is configured to allow lateral movement of a center region thereof relative to a periphery thereof. 4. The cell of claim 1, wherein the side wall varies in thickness between the top wall and the bottom wall. 5. The cell of claim 1, wherein the cell is configured for use between an exterior shell and an interior liner of an impact-attenuating helmet, the top wall being domed so as to conform to an inner surface of the exterior shell. 6. The cell of claim 5, wherein the enclosure is tapered at the top wall so as to fit between the shell and the liner in a peripheral region of the helmet. 7. The cell of claim 1, wherein the at least one corrugation of the top wall is configured to increase resistance to compression of the cell upon contact with the bottom wall. 8. In a safety article comprising a compressible cell that includes an enclosure defining an inner chamber, a top wall having at least one corrugation defining a periphery around a central portion of the top wall, a non-corrugated bottom wall, and a side wall extending between the top and bottom walls, the safety article being worn on a body with the bottom wall closer to the body than the top wall, a method for protecting the body from damage due to impacts, the method comprising: attenuating an impact imparted on the top wall at least partially with the side wall by resistive yielding thereof; andupon contact of the corrugations with the bottom wall, attenuating the impact at least partially with the side wall and the corrugations of the top wall by resistive yielding thereof. 9. The method of claim 8 wherein the enclosure has an orifice, the method further comprising attenuating the impact at least partially by venting fluid from the inner chamber through the orifice. 10. In a safety article comprising a compressible cell that includes an enclosure defining an inner chamber, a side wall, and top and bottom walls at least one of which is uncorrugated and includes at least one feature vertically joined thereto and extending therefrom only partially into the inner chamber, the safety article being worn on a body with the bottom wall closer to the body than the top wall, a method for protecting the body from damage due to impacts, the method comprising: in response to an impact imparted to the top wall, attenuating the impact at least partially with the side wall by resistive yielding thereof; andupon contact of the at least one vertically extending feature with a wall opposite thereto, attenuating the impact at least partially with the vertically extending features. 11. The method of claim 10, wherein the enclosure has an orifice, the method further comprising attenuating the impact at least partially by venting fluid from the inner chamber through the orifice.
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이 특허에 인용된 특허 (108)
Hefling Dennis V. (Ballwin MO) Winningham Matthew (Maryland Heights MO) Black Randy D. (Webster Groves MO) Yeast Sally (Plano TX), Adjustable baseball batter\s helmet.
Asper Jean-Jacques (Croix De Rozon CHX) Cottenceau Rmi (Viry FRX), Helmet for protection against impacts and a method of manufacturing the said helmet.
Lewicki Stephen (7 Forest View Rd. Wallingford 19086) Lewicki Gregory D. (47 Springhouse La. Media PA 19063) Lewicki Stephen J. (7 Forest View Rd. Wallingford PA 19086), Method of making inflatable cellular assemblies of plastic material.
Zhang Ning (No. 10 ; Unit 5 ; Bldg. 11 ; 2nd North St. Shuinian River Chengdu ; Sichuan Province CNX) Zhou Jirong (Chengdu CNX) Peng Xiaolan (Chengdu CNX), Pneumatic bumper mounted on a base.
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