A protective helmet for successive impacts includes a head cap adapted to surround and move with a wearer's head and an outer shell which surrounds the head cap. An energy absorbing flexible liner predominantly comprised of radially oriented foam columns is attached to both the head cap and outer sh
A protective helmet for successive impacts includes a head cap adapted to surround and move with a wearer's head and an outer shell which surrounds the head cap. An energy absorbing flexible liner predominantly comprised of radially oriented foam columns is attached to both the head cap and outer shell. The liner establishes a preset initial relative position and spacing between the head cap and the outer shell and compliantly absorbs energy imparted to the outer shell during a helmet impact to enable the outer shell to move linearly and angularly relative to the head cap during the helmet impact and to be returned to the initial relative position with the head cap following the impact.
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1. A helmet for protecting a wearer from successive impacts, the helmet comprising: a head cap having inner and outer surfaces, the head cap surfaces being generally head-shaped and not spherical, the head cap adapted to surround at least a portion of the cranial part of a wearer's head, and being s
1. A helmet for protecting a wearer from successive impacts, the helmet comprising: a head cap having inner and outer surfaces, the head cap surfaces being generally head-shaped and not spherical, the head cap adapted to surround at least a portion of the cranial part of a wearer's head, and being sufficiently securable thereto such that when secured to the wearer's head, at least the inner surface of the head cap substantially follows a motion of the surrounded cranial portion of the head during an impact to the helmet containing a normal force component and a tangential force component;a strap assembly connected to the head cap and adapted to surround at least one of the chin and the jaw of the wearer enabling at least in part releasably securing the head cap to the wearer's head, the head cap being connected to the strap assembly at least one of two ways: directly, and indirectly through at least one additional element;an outer shell comprised of a hard, impact resistant material, the outer shell having inner and outer surfaces, the outer shell surrounding at least a portion of the head cap, the inner surface of the outer shell being spaced from the outer surface of the head cap at an initial relative position prior to an impact, the outer shell being locally temporarily inwardly deformable at a point of impact and the outer shell also being globally movable both linearly and angularly relative to the head cap inner surface in response to an impact; andan elastic liner between and attached to both the head cap and the outer shell, the liner and the head cap establishing the initial relative position between the inner surface of the outer shell and the outer surface of the head cap prior to an impact, the liner being comprised of a plurality of generally radially oriented slender individual and independent columns made of a flexible foam and having an average slenderness ratio between 3 and 30, each foam column having a top surface and an adhesive layer between the top surface and a portion of the outer shell directly above it, a bottom surface and an adhesive layer between the bottom surface and a portion of the head cap directly below it, and side surfaces extending between the top surface and bottom surface, the foam columns and the adhesive layers in aggregate having sufficient cross-section and strength to sustain a 600 pound tensile force between the outer shell and the head cap without damage to a foam column or adhesive layer, and where in a pre-impact position the side surfaces of at least a portion of adjacent foam columns are positioned in direct contacting slidable engagement and remain positioned in direct contacting slidable engagement in an impact position. 2. The helmet as recited in claim 1 further comprising: an inner conformal sub-liner adapted to be located between at least a portion of the head cap and the wearer's head. 3. The helmet as recited in claim 2 wherein the inner conformal sub-liner is constructed of a material selected from the group consisting of at least one of open cell foam padding, air breathing fabric padding, air breathing fabric mesh, and air bladders. 4. The helmet as recited in claim 1 wherein the plurality of foam columns exhibit elastic properties and energy absorbing properties such that the elastic properties help to restore the liner, head cap and outer shell to a pre-impact state following an impact so the helmet can regain its protective properties for a subsequent impact. 5. The helmet as recited in claim 1 wherein flexible foam columns are constructed at least in part of viscoelastic foam whereby the compression of the viscoelastic foam during an impact adds to the liner's linear energy absorption. 6. The helmet as recited in claim 1 wherein flexible foam columns are constructed of open cell foam, wherein the open cell foam is reticulated to provide greater air through flow and to provide greater surface friction during impact between rubbing neighboring columns resulting in greater energy absorption. 7. The helmet as recited in claim 1 wherein the flexible foam of an axially compressing column is compressible by at least 60%. 8. The helmet as recited in claim 1 wherein the flexible foam of an axially stretching column has a pre-impact length which is stretchable by at least 60% of said pre-impact length. 9. The helmet as recited in claim 1 where the term wearer refers to a mechanical equivalent dummy head and neck combination effectively representing a human wearer, wherein a resultant peak angular acceleration of the wearer's head is limited to 5,500 rad/sec2 in response to at least one of: a 45° off-center helmet-to-helmet impact with a second like helmet wearer at a closing velocity between impact points of about 7.8 m/sec, and an impact against a fixed metal anvil having a 45° impact surface with a half inch thick polyurethane elastomer covering at a closing velocity between impact points of about 5.5 m/sec. 10. The helmet as recited in claim 1 wherein the foam columns are substantially full volume foam columns. 11. A helmet for protecting a wearer from successive impacts, the helmet comprising: a head cap having inner and outer surfaces, the head cap surfaces being generally head-shaped and not spherical, the head cap adapted to surround at least a portion of the cranial part of a wearer's head, and being sufficiently securable thereto such that when secured to the wearer's head, at least the inner surface of the head cap substantially follows a motion of the surrounded cranial portion of the head during an impact to the helmet containing a normal force component and a tangential force component;a strap assembly connected to the head cap and adapted to surround at least one of the chin and the jaw of the wearer enabling at least in part releasably securing the head cap to the wearer's head, the head cap being connected to the strap assembly at least one of two ways: directly, and indirectly through at least one additional element;an outer shell comprised of a hard, impact resistant material, the outer shell having inner and outer surfaces, the outer shell surrounding at least a portion of the head cap, the inner surface of the outer shell being spaced from the inner surface of the head cap at an initial relative position prior to an impact, the outer shell being locally temporarily inwardly deformable at a point of impact and the outer shell also being globally movable both linearly and angularly relative to the head cap inner surface in response to an impact; andan elastic liner between and attached to both the head cap and the outer shell, the liner and the head cap establishing the initial relative position between the inner surface of the outer shell and the inner surface of the head cap prior to an impact, the liner being comprised of a plurality of generally radially oriented slender flexible individual and independent substantially full volume foam columns having an average slenderness ratio between 3 and 30, each foam column having a top surface and an adhesive layer between the top surface and the portion of a outer shell directly above it, a bottom surface and an adhesive layer between the bottom surface and a portion of the head cap directly below it, and side surfaces extending between the top surface and bottom surface, wherein the side surfaces of at least a portion of adjacent foam columns are positioned in pre-impact direct contacting sliding engagement, at least a portion of said side surfaces of said portion of adjacent foam columns rubbing against each other during the impact to absorb at least a portion of the impact energy and which cause the liner through relative motions within and between the foam columns to exhibit a substantial portion of linear compliance, linear energy absorption, angular compliance and angular energy absorption. 12. A helmet comprising: a head cap having inner and outer surfaces, the head cap surfaces being generally head-shaped and not spherical, the head cap adapted to surround at least a portion of the cranial part of a wearer's head, and being sufficiently securable thereto such that when secured to the wearer's head, at least the inner surface of the head cap substantially follows a motion of the surrounded cranial portion of the head during an impact to the helmet containing a normal force component and a tangential force component;a strap assembly connected to the head cap and adapted to surround at least one of the chin and the jaw of the wearer enabling at least in part releasably securing the head cap to the wearer's head, the head cap being connected to the strap assembly at least one of two ways: directly, and indirectly through at least one additional element;an outer shell comprised of a hard impact resistant material, the outer shell having inner and outer surfaces, the outer shell surrounding at least a portion of the head cap, the inner surface of the outer shell being spaced from the outer surface of the head cap at an initial pre-impact relative position; andan elastically compliant liner located in the space between the outer surface of the head cap and the inner surface of the outer shell, the liner being comprised of a plurality of generally radially oriented side-by-side individual and independent foam columns, said columns being comprised of flexible elastic foam and having a top surface and an adhesive layer between the top surface and a portion of the outer shell directly above it, a bottom surface and an adhesive layer between the bottom surface and a portion of the head cap directly below it, and foam side surfaces between the top surface and the bottom surface, and the foam side surfaces of adjacent columns are unattached and are situated side-by-side in slidable direct contacting engagement, said foam columns having an average slenderness ratio between 3 and 30, the radially oriented columns being in a generally unbent condition with said head cap outer surface and outer shell inner surface in the pre-impact relative position, said head cap outer surface and outer shell inner surface having an impact relative position with at least a portion of the outer shell inner surface transversely displaced with respect to a corresponding portion of the head cap outer surface, the foam columns between the portion of the outer shell inner surface transversely displaced with respect to the corresponding head cap outer surface portion being in a generally bent configuration and generally in the form of an S curve, first and second adjacent foam columns generally in the form of an S curve with a contacting side surface of the first adjacent column having a longitudinally stretched area and a longitudinally compressed area and a contacting side surface of the second adjacent column in slidable contact with the side surface of the first adjacent column having a longitudinally compressed area adjacent to the longitudinally stretched area of the first side surface and a longitudinally stretched area adjacent to the longitudinally compressed area of the first side surface, the plurality of foam columns spanning and occupying a substantial portion of the space between the head cap and the outer shell, said head cap outer surface and outer shell inner surface having an post-impact relative position which is the same as the pre-impact relative position. 13. The helmet as recited in claim 12 wherein flexible foam columns are constructed at least in part of viscoelastic foam whereby the compression of the viscoelastic foam during an impact adds to the liner's linear energy absorption. 14. The helmet as recited in claim 12 wherein flexible foam columns are constructed of open cell foam, wherein the open cell foam is reticulated to provide greater air through flow and to provide greater surface friction during impact between rubbing neighboring columns resulting in greater energy absorption. 15. The helmet as recited in claim 12 wherein the flexible foam of an axially compressing column is compressible by at least 60%. 16. The helmet as recited in claim 12 wherein the flexible foam of an axially stretching column has a pre-impact length which is stretchable by at least 60% of said pre-impact length. 17. The helmet as recited in claim 12 further comprising an inner conformal sub-liner adapted to be located between at least a portion of the head cap and the wearer's head, wherein the inner conformal sub-liner is composed of at least one of: open cell foam padding, air breathing fabric padding, air breathing fabric mesh, air bladders and combinations thereof. 18. The helmet as recited in claim 12 where the term wearer refers to a mechanical equivalent dummy head and neck combination effectively representing a human wearer, wherein a resultant peak angular acceleration of the wearer's head is limited to 5,500 rad/sec2 in response to at least one of: a 45° off-center helmet-to-helmet impact with a second like helmet wearer at a closing velocity between impact points of about 7.8 m/sec, and an impact against a fixed metal anvil having a 45° impact surface with a half inch thick polyurethane elastomer covering at a closing velocity between impact points of about 5.5 m/sec. 19. The helmet as recited in claim 12 wherein the foam columns are substantially full volume foam columns.
Durocher, Jacques; Laperrière, Jean-François; Généreux, Marie-Claude; Côté, Denis; Lambert, Sébastien, Hockey helmet with an outer shell made of two different materials.
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