Federico Dagnino has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
Abstract: A lock comprises: a body with a housing comprising a first and a second portion mutually adjacent along an longitudinal development direction corresponding to an insertion direction of a key; a first rotor with a further housing, rotationally housed within the first portion of the housing of the body; a second rotor comprising a first portion rotationally housed within the second portion of the housing of the body; a second portion rotationally housed within the further housing of the first rotor. The second rotor, inserting the key, translates along the longitudinal development direction of the body with respect to the first rotor and, by a first rotation portion of the key, rotates with respect to the first rotor, passing from disengaging to engaging the first rotor, wherein the first rotor and the second rotor, by a second portion of rotation of the key, integrally translate to actuate the lock.
Abstract: A lock (1) is described, comprising: a body (2) suitable to define a housing (3) having a longitudinal development direction (L) along an insertion direction (I) of a key (200), said housing (3) comprising a first portion (4) and a second portion (5) mutually adjacent along the longitudinal development direction (L) of the body (2); a first rotor (37) suitable to be rotationally housed within the first portion (4) of said housing (3) of such body (2) about the longitudinal development direction (L) of the body (2), said first rotor (37) being suitable to define a further housing (38); a second rotor (39) comprising a first portion (55) suitable to be rotationally housed within the second portion (5) of said housing (3) of the body (2) about the longitudinal development direction (L) of such body (2), said second rotor (39) comprising a second portion (56) suitable to be rotationally housed within the further housing (38) defined by the first rotor (37) about the longitudinal development direction (L) of such
Abstract: A lock (100) is described, comprising: a body (1) suitable for defining a housing (2) having a main development direction (D) along a direction of insertion (I) of the key; a first rotor (30) suitable for being rotationally housed inside said housing (2) of such a body (1) around the main development direction (D) of such a body (1), said first rotor (30) being suitable for defining a further housing to receive a second rotor (40) that can rotate inside said first rotor (30) around the main development direction (D) of such a body (1). The lock (100) is characterized in that said second rotor (40) can be rotated by the key between a position of disengagement and a position of engagement with said first rotor (30), in said position of engagement said first rotor (30) and said second rotor (40) being suitable for translating as a unit along the main development direction (D) of the body (1) to reach a position in which the lock (100) is actuated.
Abstract: A lock (100) is described, comprising: a body (1) suitable for defining a housing (2) having a main development direction (D) along a direction of insertion (I) of the key; a first rotor (30) suitable for being rotationally housed inside said housing (2) of such a body (1) around the main development direction (D) of such a body (1), said first rotor (30) being suitable for defining a further housing to receive a second rotor (40) that can rotate inside said first rotor (30) around the main development direction (D) of such a body (1). The lock (100) is characterised in that said second rotor (40) can be rotated by the key between a position of disengagement and a position of engagement with said first rotor (30), in said position of engagement said first rotor (30) and said second rotor (40) being suitable for translating as a unit along the main development direction (D) of the body (1) to reach a position in which the lock (100) is actuated.