Helmet (1) comprising a foam liner (2) having at least one through hole (5) crossing the foam liner (2) along its thickness; a shell (3) covering at least in part the outside of the foam liner (2); at least one cellular energy-absorbing insert (4) comprising a plurality of interconnected open cells (8) that are configured to absorb energy by plastic deformation in response to a compressive load crushing the cellular energy-absorbing insert (4); wherein the cellular energy-absorbing insert (4) is arranged inside the foam liner (2); wherein the at least one through hole (5) lies in correspondence of said cellular energy-absorbing insert (4); and wherein the at least one through hole (5) is closed from outside.
Helmet (1) comprising: a shell (2): one or more inserts (3) of a cellular energy-absorbing material: one or more retainers (4) crossing the one or more inserts (3) from side to side and fixed to the shell (2) at opposing sides of each insert (3) for constraining it to the shell (2), the one or more retainers (4) are shaped so laterally and inwardly trap the one or more inserts (3).
Protective article (1) for protecting a part of a human body (200), preferably an articulation (300) of the human body (200), comprising a slender body (2) made of an elastic material comprising a plurality of holes (3) that pass-through the body (2) from an outer surface (6) to an inner surface (5) and a plurality of hinge portions (17) arranged between adjacent holes (3), characterized in that the body (2) is configured such that: at rest, the holes (3) have a shape with a central portion (8) that is narrower than its end portions (7); and when the protective article (1) is pulled according to an in-plane direction, the central portion (8) of the holes (3) along this direction widen and the adjacent hinge portions (17) rotate.
Impact-absorbing pad (1) for a garment (100) having a body made of an elastic material and comprising a plurality of holes (3) that pass-through its thickness (T) from an outer surface (6) to an inner surface (5) and a plurality of hinge portions (17) arranged between adjacent holes (3), wherein the pad (1) comprises a central part (C) and a peripheral part (P), and the peripheral part (P) comprises a stitching part (S) arranged close to a perimetral edge (10) of the pad (1), wherein the thickness (T) of the pad (1) is greater in correspondence of the central part (C) than in correspondence of the stitching part (S); and wherein the pad (1) is configured such that: at rest, the holes (3) have a shape with a central portion (8) that is narrower than its end portions (7); and, when the impact-absorbing pad (1) is pulled according to an in-plane direction, the central portion (8) of the holes (3) arranged along this direction widen and the adjacent hinge portions (17) rotate.
A41D 13/00 - Vêtements protecteurs de travail ou de sport, p. ex. blouses de chirurgien ou vêtements protégeant des coups ou des chocs
A41D 13/015 - Vêtements protecteurs de travail ou de sport, p. ex. blouses de chirurgien ou vêtements protégeant des coups ou des chocs avec des moyens absorbeurs de chocs
Helmet (1) comprising a shell (2); at least one insert (3) of a cellular energy-absorbing material arranged inside the shell (2); at least one side retainer (4) fixed to the shell (2) and shaped to laterally retain an outermost portion (3A) of the at least one insert (3) with respect to the shell (2) leaving free an innermost portion (3B) of said at least one insert (3).
Helmet (1) comprising: at least a cellular energy‐absorbing insert (2); a foam liner (3) comprising at least one recess (4) shaped to accommodate the at least one cellular energy‐absorbing insert (2); the foam liner (3) also comprises one or more air vents (6) for allowing an air transit from outside the helmet (1) to the cellular energy‐absorbing insert (2); wherein the cellular energy‐absorbing insert (2) comprises one or more cut‐outs (5) provided in correspondence of said one or more vents (6).
Helmet (1) comprising: at least a cellular energy‐absorbing insert (2); a foam liner (3) comprising at least one recess (4) shaped to accommodate the at least one cellular energy‐absorbing insert (2); the foam liner (3) also comprises at least one vent (6) for allowing an air transit from outside the helmet (1) to the cellular energy‐absorbing insert (2); wherein the at least one vent (6) is partially closed such that the at least one cellular energy‐absorbing insert (2) is not visible from outside the helmet (1) through the vent (6).
Helmet (1) comprising: at least a cellular energy‐absorbing insert (2); a foam liner (3) comprising at least one recess (4) shaped to accommodate the at least one cellular energy‐absorbing insert (2); the foam liner (3) also comprises at least one vent (6); a continuous protective layer (10) that crosses the at least one vent (6) and closes the vent/s (6) such that the at least one cellular energy‐absorbing insert (2) is not visible from outside the helmet (1) through the vent (6).
Helmet (1) comprising: at least a cellular energy‐absorbing insert (2); a foam liner (3) comprising at least one recess (4) shaped to accommodate the at least one cellular energy‐absorbing insert (2); a cover layer (5) arranged between the foam liner (3) and the at least one cellular energy‐absorbing insert (2); wherein the cover layer (5) is attached to the at least one cellular energy‐absorbing insert (2) so that the cellular energy‐absorbing insert (2) slides together with the cover layer (5) over the foam liner (3) in response to an oblique impact.
Helmet (1) comprising: at least a cellular energy‐absorbing insert (2); a foam liner (3) comprising at least one recess (4) shaped to accommodate the at least one cellular energy‐absorbing insert (2); the foam liner (3) also comprises at least one vent (6) for allowing an air transit from outside the helmet (1) to the cellular energy‐absorbing insert (2); wherein the at least one vent (6) is partially closed such that the at least one cellular energy‐absorbing insert (2) is not visible from outside the helmet (1) through the vent (6).
A protective case (1) configured to reversibly receive and retain a mobile device (10) comprising a rigid chassis (2) configured to receive the mobile device (10): a plurality of shock-absorbing bumpers (3) shaped to interlock with respective portions of said chassis (2).
Headrest (1) for a racing vehicle (10) comprising a cockpit (11) wherein a driver (20) wearing a helmet (30) can sit, comprising a flexible casing (2) configured to be anchored to a vehicle body (12) and at least one energy-absorbing member (3) comprising at least one honeycomb cellular structure (9) arranged inside said casing (2). The energy-absorbing member (3) further comprising a foam pad (8) shaped so as to hold the at least one honeycomb cellular structure (9).
Helmet (1) comprising: a shell (2); a head receiving system (3); at least one cellular energy-absorbing structure (4) comprising a plurality of interconnected open-cells (9) configured to absorb energy by deforming during an impact on the shell (2); at least one clamping device (5) comprising a base (6) and a counter-base (7) connected to each other via a collapsible body (8) sized so as to enter one or more open-cells (9) of the cellular energy-absorbing structure (4); wherein the base (6) or the counter-base (7) of the clamping device (5) comprises a low friction part (26) configured to enable a relative movement of the cellular energy-absorbing structure (4) and the clamping device (5) with respect to the shell (2).
Helmet (1) comprising: a shell (2); a head receiving system (3); at least one cellular energy-absorbing structure (4) comprising a plurality of interconnected open-cells (9) configured to absorb energy by deforming during an impact on the shell (2); at least one clamping device (5) comprising a base (6) and a head (7) connected to each other via an elongated collapsible body (8) wherein the collapsible body (8) is sized so as to enter one or more open-cells (9) of the cellular energy-absorbing structure (4) and the head (7) is configured to lock the at least one clamping device (5) to the cellular energy-absorbing structure (4), wherein the base (6) or the head (7) is attached to an inner surface of the shell (2).
Child safety seat (1) for a vehicle (30) comprising a frame (2) shaped so as to accommodate a child (40) in a child area (3), the frame (2) comprising a sitting portion (2A), a backrest portion (2B) and side portions (2C); at least one impact absorbing assembly (4) connected to the frame (2) and comprising: a deformable polymeric layer (5); at least one honeycomb cellular insert (6) associated with the deformable polymeric layer (5). The at least one honeycomb cellular insert (6) comprises a plurality of open cells (7) having longitudinal axes (L) extending out of an inner/outer surface of the frame (2), said cells (7) being configured to absorb energy by plastic deformation in response to a longitudinal compressive load applied to said cells (7); and the deformable polymeric layer (5) is shaped so as to contain the at least one honeycomb cellular insert (6).
Helmet (1) comprising: a shell (2); a head receiving system (3); at least one cellular energy-absorbing structure (4) comprising a plurality of interconnected open-cells (9) configured to absorb energy by deforming during an impact on the shell (2); at least one clamping device (5) comprising abase (6) and a counter-base (7) connected to each other by means of a stretchable elongated body (8) to forma a single piece sized so as to pass through at least one open-cell (9) of the cellular energy-absorbing structure (4), wherein the stretchable elongated body (8) is configured to appreciably and reversibly elongate with respect to its original length if pulled.
Protective padding (1) for a bar (10) of a rollcage (100) of a vehicle (200) comprising a honeycomb cellular structure (2), a base sheet layer (4), an outer sheet layer (11), and connecting means (3) configured to connect the honeycomb cellular structure (2) to said bar (10); wherein said honeycomb cellular structure (2) comprises a plurality of interconnected open cells (8) having longitudinal axes (L) arranged so that, when the honeycomb cellular structure (2) is connected to the bar (10), part of said longitudinal axes (L) are oriented outwardly with respect to the bar (10) and towards the interior of the rollcage (100); said open cells (8) being configured to absorb energy by plastic deformation in response to a compressive load compressing the honeycomb cellular structure (2) against the bar (10); wherein the base sheet layer (4) is attached to a base face (15) of the honeycomb cellular structure (2) facing the outer surface (13) of the bar (10) and the outer sheet layer (11) is attached to a top face (16) of the honeycomb cellular structure (2) that is opposite to the base face (15).
Headrest (1) for a racing vehicle (10) comprising a cockpit (11) wherein a driver (20) wearing a helmet (30) can sit, comprising a flexible casing (2) configured to be anchored to a vehicle body (12) and at least one energy-absorbing member (3) comprising at least one honeycomb cellular structure (9) arranged inside said casing (2). The energy-absorbing member (3) further comprising a foam pad (8) shaped so as to hold the at least one honeycomb cellular structure (9).
Helmet (1) comprising: a shell (2); one or more inserts (3) of a cellular energy-absorbing material; one or more retainers (4) crossing the one or more inserts (3) from side to side and fixed to the shell (2) at opposing sides of each insert (3) for constraining it to the shell (2), the one or more retainers (4) are shaped so laterally and inwardly trap the one or more inserts (3).
Thermoforming apparatus (1) for thermoforming an article (2), preferably a permeable article (2′), comprising: an elastic membrane (3,3′); a mould (4,4′); a hot air source (5) configured to blow a hot airflow (6) towards a zone (7) of the apparatus (1) configured to receive the article (2,2′) to be thermoformed; an actuation system (8) configured to move the mould (4,4′) towards the membrane (3,3′) or vice versa to compress the heated article (2,2′) between the membrane (3,3′) and the mould (4) such that an elastic force of the membrane (3,3′) on the article (2,2′) forces the article (2,2′) to assume the shape of the mould (4).2. Thermoforming apparatus (1) according to claim 1, wherein the mould (4′) and/or membrane (3′) are perforated so to permit a transit of the hot airflow (6) from the hot air source (5) to said zone (7). Thermoforming process of an article (2,2′) in a thermoforming apparatus (1) comprising an elastic membrane (3,3′), a mould (4,4′) and a hot air source (5), comprising the steps of: heating the article (2,2′) through a hot airflow (6) blew by the hot air source (5); compressing the heated article (2,2′) between the membrane (3,3′) and/or the mould (4,4′) by uniquely moving the mould (4,4′) and the membrane (3,3′) one toward the other such that an elastic force of the membrane (3,3′) forces the article (2,2′) to assume the shape of the mould (4,4′).
B29C 33/04 - Moules ou noyauxLeurs détails ou accessoires comportant des moyens incorporés de chauffage ou de refroidissement utilisant des liquides, des gaz ou de la vapeur d'eau
B29C 51/08 - Emboutissage profond ou façonnage dans des moules en deux parties, c.-à-d. en utilisant uniquement des moyens mécaniques
B29C 51/26 - Éléments constitutifs, détails ou accessoiresOpérations auxiliaires
Body-protector (1,1′) comprising: a wearable article (2,2′); a shock-absorbing pad (3) anchored to the wearable article (2,2′); wherein the shock-absorbing pad (3) comprises a first member (4) configured to absorb shock energy by an irreversible plastic deformation and a second member (5) configured to absorb shock energy by a reversible elastic deformation and wherein the first member (4) is embedded in the second member (5); wherein the first member (4) comprises a plurality of cells (6) interconnected each other via their sidewalls (7) to form a pliable sheet (8) configured to absorb energy through irreversible deformation of said sidewalls (7) or said interconnections in response to a compressive load applied to said sheet (8). Said wearable article (2) being a glove (2′) wherein said shock-absorbing pad (3) is anchored to a back of the glove (2′).
A41D 31/28 - Matériaux spécialement adaptés aux vêtements de dessus caractérisés par une fonction ou une utilisation particulières amortissant les chocs
A41D 13/015 - Vêtements protecteurs de travail ou de sport, p. ex. blouses de chirurgien ou vêtements protégeant des coups ou des chocs avec des moyens absorbeurs de chocs
Protective shell (10) anchorable to a portable mobile device (20) comprising a honeycomb cellular structure (1) enclosed in a body (2) at least in part made of an elastic polymer, the body (2) comprising a back portion (9) configured to cover at least in part a backside (11) of the mobile device (20) and a side portion (12) configured to cover and fit with a sidewall (13) of the mobile device (20) so to anchor the body (2) to the mobile device (20); wherein said honeycomb cellular structure (1) comprises a plurality of open cells (3) connected each other via their sidewalls (14) to form at least a flexible sheet (15) configured to absorb energy through a deformation of said sidewalls (12) in response to a compressive load applied to said sheet (15); and wherein at least a part of the body (2) made of the elastic polymer fully encapsulates and permeates the open cells (3) of said honeycomb cellular structure (1).
Helmet for sport activities comprising a lattice structure shaped so to accommodate a part of a user head and comprising empty and full portions arranged so that a continuous network of interconnected air channels runs through the lattice structure. The lattice structure comprises on its inner side at least one pocket permeable to air. The pocket is shaped so to accommodate said at least one permeable energy absorbing pad. Method for manufacturing the helmet comprising the steps of providing a lattice structure shaped so to receive a part of a user head and comprising at least one inner pocket, and inserting at least one energy absorbing pad which is permeable to air into said at least one pocket.
Helmet (1) comprising a first protective collapsible portion (2), a second protective collapsible portion (4), and at least one energy absorbing pad (3) permeable to air arranged between said first and second protective collapsible portions (2,4), wherein the first collapsible portion (2) and the second collapsible portion (4) are coupled to each other through one or more mechanical couplings (11-16).
A protective case (1) configured to reversibly receive and retain a mobile device (10) comprising a rigid chassis (2) configured to receive the mobile device (10); a plurality of shock-absorbing bumpers (3) shaped to interlock with respective portions of said chassis (2).
Air diffusion terminal apparatus (1) for wall or ceiling (33), fluidly connectable to an air ventilation system (3), comprising: a frame (4) comprising a framework (8,9) and a through-hole (35), the framework (8,9) being configured to be installed and housed in a cavity of the wall/ceiling (33); a cartridge (5) configured to be insertable in the frame (4) according to a first direction (F) parallel to a longitudinal axis (L) of the through-hole (35) so to fill the through-hole (35) of the frame (4); said cartridge (5) comprising a plurality of housings (6) for receiving respective modules (7), said modules (7) comprising at least an air diffusion module in turn comprising deflecting blades (7A,7B,7C) or a plate (7D) provided with holes (7E) or nozzles (7F).
F24F 13/075 - Bouches pour diriger ou distribuer l'air dans des pièces ou enceintes, p. ex. diffuseur d'air de plafond ayant des tiges ou des lamelles parallèles orientant l'écoulement, p. ex. ayant des tiges ou des lamelles réglables individuellement
Helmet (1) comprising: a shell (2); a head receiving system (3); at least one cellular energy-absorbing structure (4) comprising a plurality of interconnected open-cells (9) configured to absorb energy by deforming during an impact on the shell (2); at least one clamping device (5) comprising a base (6) and a head (7) connected to each other via an elongated collapsible body (8) wherein the collapsible body (8) is sized so as to enter one or more open-cells (9) of the cellular energy-absorbing structure (4) and the head (7) is configured to lock the at least one clamping device (5) to the cellular energy-absorbing structure (4), wherein the base (6) or the head (7) is attached to an inner surface of the shell (2).
Helmet (1) comprising: a shell (2); a head receiving system (3); at least one cellular energy-absorbing structure (4) comprising a plurality of interconnected open-cells (9) configured to absorb energy by deforming during an impact on the shell (2); at least one clamping device (5) comprising a base (6) and a counter-base (7) connected to each other by means of a stretchable elongated body (8) to forma a single piece sized so as to pass through at least one open-cell (9) of the cellular energy-absorbing structure (4), wherein the stretchable elongated body (8) is configured to appreciably and reversibly elongate with respect to its original length if pulled.
Helmet (1) comprising: a shell (2); a head receiving system (3); at least one cellular energy-absorbing structure (4) comprising a plurality of interconnected open-cells (9) configured to absorb energy by deforming during an impact on the shell (2); at least one clamping device (5) comprising a base (6) and a counter-base (7) connected to each other via a collapsible body (8) sized so as to enter one or more open-cells (9) of the cellular energy-absorbing structure (4); wherein the base (6) or the counter-base (7) of the clamping device (5) comprises a low friction part (26) configured to enable a relative movement of the cellular energy-absorbing structure (4) and the clamping device (5) with respect to the shell (2).
Child safety seat (1) for a vehicle (30) comprising a frame (2) shaped so as to accommodate a child (40) in a child area (3), the frame (2) comprising a sitting portion (2A), a backrest portion (2B) and side portions (2C); at least one impact absorbing assembly (4) connected to the frame (2) and comprising: a deformable polymeric layer (5); at least one honeycomb cellular insert (6) associated with the deformable polymeric layer (5). The at least one honeycomb cellular insert (6) comprises a plurality of open cells (7) having longitudinal axes (L) extending out of an inner/outer surface of the frame (2), said cells (7) being configured to absorb energy by plastic deformation in response to a longitudinal compressive load applied to said cells (7); and the deformable polymeric layer (5) is shaped so as to contain the at least one honeycomb cellular insert (6).
Headrest (1) for a racing vehicle (10) comprising a cockpit (11) wherein a driver (20) wearing a helmet (30) can sit, comprising a flexible casing (2) configured to be anchored to a vehicle body (12) and at least one energy-absorbing member (3) comprising at least one honeycomb cellular structure (9) arranged inside said casing (2). The energy-absorbing member (3) further comprising a foam pad (8) shaped so as to hold the at least one honeycomb cellular structure (9).
B60N 2/24 - Sièges spécialement adaptés aux véhiculesAgencement ou montage des sièges dans les véhicules à des fins particulières ou pour des véhicules particuliers
Protective padding (1) for a bar (10) of a rollcage (100) of a vehicle (200) comprising a honeycomb cellular structure (2), a base sheet layer (4), an outer sheet layer (11), and connecting means (3) configured to connect the honeycomb cellular structure (2) to said bar (10); wherein said honeycomb cellular structure (2) comprises a plurality of interconnected open cells (8) having longitudinal axes (L) arranged so that, when the honeycomb cellular structure (2) is connected to the bar (10), part of said longitudinal axes (L) are oriented outwardly with respect to the bar (10) and towards the interior of the rollcage (100); said open cells (8) being configured to absorb energy by plastic deformation in response to a compressive load compressing the honeycomb cellular structure (2) against the bar (10);wherein the base sheet layer (4) is attached to a base face (15) of the honeycomb cellular structure (2) facing the outer surface (13) of the bar (10) and the outer sheet layer (11) is attached to a top face (16) of the honeycomb cellular structure (2) that is opposite to the base face (15).
Protective shell (10) anchorable to a portable mobile device (20) comprising a honeycomb cellular structure (1) enclosed in a body (2) at least in part made of an elastic polymer, the body (2) comprising a back portion (9) configured to cover at least in part a backside (11) of the mobile device (20) and a side portion (12) configured to cover and fit with a sidewall (13) of the mobile device (20) so to anchor the body (2) to the mobile device (20); wherein said honeycomb cellular structure (1) comprises a plurality of open cells (3) connected each other via their sidewalls (14) to form at least a flexible sheet (15) configured to absorb energy through a deformation of said sidewalls (12) in response to a compressive load applied to said sheet (15); and wherein at least a part of the body (2) made of the elastic polymer fully encapsulates and permeates the open cells (3) of said honeycomb cellular structure (1).
Thermoforming apparatus (1) for thermoforming an article (2), preferably a permeable article (2'), comprising: an elastic membrane (3,3'); a mould (4,4'); a hot air source (5) configured to blow a hot airflow (6) towards a zone (7) of the apparatus (1) configured to receive the article (2,2') to be thermoformed; an actuation system (8) configured to move the mould (4,4') towards the membrane (3,3') or vice versa to compress the heated article (2,2') between the membrane (3,3') and the mould (4) such that an elastic force of the membrane (3,3') on the article (2,2') forces the article (2,2') to assume the shape of the mould (4).2. Thermoforming apparatus (1) according to claim 1, wherein the mould (4') and/or membrane (3') are perforated so to permit a transit of the hot airflow (6) from the hot air source (5) to said zone (7). Thermoforming process of an article (2,2') in a thermoforming apparatus (1) comprising an elastic membrane (3,3'), a mould (4,4') and a hot air source (5), comprising the steps of: heating the article (2,2') through a hot airflow (6) blew by the hot air source (5); compressing the heated article (2,2') between the membrane (3,3') and/or the mould (4,4') by uniquely moving the mould (4,4') and the membrane (3,3') one toward the other such that an elastic force of the membrane (3,3') forces the article (2,2') to assume the shape of the mould (4,4').
B29C 51/00 - Façonnage par thermoformage, p. ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profondAppareils à cet effet
B29C 33/04 - Moules ou noyauxLeurs détails ou accessoires comportant des moyens incorporés de chauffage ou de refroidissement utilisant des liquides, des gaz ou de la vapeur d'eau
B29K 69/00 - Utilisation de polycarbonates comme matière de moulage
B29K 23/00 - Utilisation de polyalcènes comme matière de moulage
B29K 105/04 - Présentation, forme ou état de la matière moulée cellulaire ou poreuse
Body-protector (1,1') comprising: a wearable article (2,2'); a shock-absorbing pad (3) anchored to the wearable article (2,2'); wherein the shock-absorbing pad (3) comprises a first member (4) configured to absorb shock energy by an irreversible plastic deformation and a second member (5) configured to absorb shock energy by a reversible elastic deformation and wherein the first member (4) is embedded in the second member (5); wherein the first member (4) comprises a plurality of cells (6) interconnected each other via their sidewalls (7) to form a pliable sheet (8) configured to absorb energy through irreversible deformation of said sidewalls (7) or said interconnections in response to a compressive load applied to said sheet (8). Said wearable article (2) being a glove (2') wherein said shock-absorbing pad (3) is anchored to a back of the glove (2').
A41D 13/015 - Vêtements protecteurs de travail ou de sport, p. ex. blouses de chirurgien ou vêtements protégeant des coups ou des chocs avec des moyens absorbeurs de chocs
A41D 31/28 - Matériaux spécialement adaptés aux vêtements de dessus caractérisés par une fonction ou une utilisation particulières amortissant les chocs
A63B 71/14 - Moyens protecteurs du corps pour joueurs ou sportifs pour les mains, p. ex. gants de baseball, de boxe ou de golf
Helmet (1) comprising a first protective collapsible portion (2), a second protective collapsible portion (4), and at least one energy absorbing pad (3) permeable to air arranged between said first and second protective collapsible portions (2,4), wherein the first collapsible portion (2) and the second collapsible portion (4) are coupled to each other through one or more mechanical couplings (11-16).
Helmet for sport activities comprising a lattice structure shaped so to accommodate a part of a user head and comprising empty and full portions arranged so that a continuous network of interconnected air channels runs through the lattice structure. The lattice structure comprises on its inner side at least one pocket permeable to air. The pocket is shaped so to accommodate said at least one permeable energy absorbing pad. Method for manufacturing the helmet comprising the steps of providing a lattice structure shaped so to receive a part of a user head and comprising at least one inner pocket, and inserting at least one energy absorbing pad which is permeable to air into said at least one pocket.