A glove compartment lock device includes: a base member attached to a glove compartment; a knob member supported by the base member so as to be rotatable around a shaft portion between a closed position and an opened position; an arm member supported at a center portion in a longitudinal direction thereof by the base member so as to be swingable between a locked position and an unlocked position of the glove compartment and configured to come into contact with the knob member at one end portion thereof; and a spring member locked at one end portion thereof to the knob member, locked at another end portion thereof to another end portion of the arm member, and configured to generate a biasing force that rotates the knob member to the closed position and swings the arm member to the locked position. A rotation direction around the shaft portion in which the one end portion of the spring member rotates the knob member to the closed position and a rotation direction around the shaft portion in which the other end portion of the spring member swings the arm member to the locked position are opposite to each other.

A glove compartment lock device includes: a base member attached to a glove compartment; a knob member supported by the base member so as to be rotatable around a shaft portion between a closed position and an opened position; an arm member supported at a center portion in a longitudinal direction thereof by the base member so as to be swingable between a locked position and an unlocked position of the glove compartment and configured to come into contact with the knob member at one end portion thereof; and a spring member locked at one end portion thereof to the knob member, locked at another end portion thereof to another end portion of the arm member, and configured to generate a biasing force that rotates the knob member to the closed position and swings the arm member to the locked position. A rotation direction around the shaft portion in which the one end portion of the spring member rotates the knob member to the closed position and a rotation direction around the shaft portion in which the other end portion of the spring member swings the arm member to the locked position are opposite to each other.

The present disclosure refers to a latch assembly including a locking bar configured to be movable into (i) an engaged configuration with a storage compartment which enables an access door to be placed and held into a closed position and (ii) a disengaged configuration with the storage compartment in a vehicle to be placed into an opened position and a shape memory alloy (SMA) actuator. The SMA actuator comprises an SMA wire guided around a conductive pulley, and the SMA actuator is configured to move the locking bar into the disengaged configuration and permit the access door of the storage compartment in the vehicle to open. The present disclosure also refers to vehicle storage compartment with such a latch assembly and a method of activation and deactivation of such a latch assembly.

The present disclosure refers to a latch assembly including a locking bar configured to be movable into (i) an engaged configuration with a storage compartment which enables an access door to be placed and held into a closed position and (ii) a disengaged configuration with the storage compartment in a vehicle to be placed into an opened position and a shape memory alloy (SMA) actuator. The SMA actuator comprises an SMA wire guided around a conductive pulley, and the SMA actuator is configured to move the locking bar into the disengaged configuration and permit the access door of the storage compartment in the vehicle to open. The present disclosure also refers to vehicle storage compartment with such a latch assembly and a method of activation and deactivation of such a latch assembly.

There is provided an unlocking device, including: a rotating member; a housing; an operating member; and a biasing member. The rotating member includes a pressed portion, and a retaining portion. The housing includes an accommodating portion, an engaging portion that is engaged with the retaining portion, and an opening. The operating member includes a pressing portion, and is slidable in a direction substantially parallel to a rotation plane of the rotating member. The retaining portion and the engaging portion are located within a thickness range of the operating member when viewed in a sliding direction of the operating member.

There is provided an unlocking device, including: a rotating member; a housing; an operating member; and a biasing member. The rotating member includes a pressed portion, and a retaining portion. The housing includes an accommodating portion, an engaging portion that is engaged with the retaining portion, and an opening. The operating member includes a pressing portion, and is slidable in a direction substantially parallel to a rotation plane of the rotating member. The retaining portion and the engaging portion are located within a thickness range of the operating member when viewed in a sliding direction of the operating member.

A latch feature for a door includes an input body that is operable to move linearly between first and second positions relative to the door. The latch feature also includes an output body. The output body is coupled to the input body by a pivot member that is configured to pivot relative to the output body and the input body to allow the output body to move linearly toward the input body from an outboard position to an inboard position as the input body moves from the first position to the second position.

A latch feature for a door includes an input body that is operable to move linearly between first and second positions relative to the door. The latch feature also includes an output body. The output body is coupled to the input body by a pivot member that is configured to pivot relative to the output body and the input body to allow the output body to move linearly toward the input body from an outboard position to an inboard position as the input body moves from the first position to the second position.

Provided is a rotation member connecting structure that does not require an operation of connecting a rotation support member and the rotation member to each other and can prevent rattling of the rotation member with respect to a rotation member support member. In the rotation member connecting structure, a rotation support member 10 has a support shaft 20, and a rotation member 30 has a retention part 50. The support shaft 20 has a restriction part 25 that restricts axial movement of the support shaft 20 with respect to the retention part 50 and a sliding part 27 that slides over an inner periphery of the retention part. The rotation support member 10 and the rotation member 30 are made of materials that are not bonded to each other during molding by the resin materials. In the inner periphery of the retention part 50,a portion that closely contacts the sliding part 27 is formed to be continuous in a circumferential direction so that the rotation support member 10 and the rotation member 30 are molded in a connected state.

Provided is a rotation member connecting structure that does not require an operation of connecting a rotation support member and the rotation member to each other and can prevent rattling of the rotation member with respect to a rotation member support member. In the rotation member connecting structure, a rotation support member 10 has a support shaft 20, and a rotation member 30 has a retention part 50. The support shaft 20 has a restriction part 25 that restricts axial movement of the support shaft 20 with respect to the retention part 50 and a sliding part 27 that slides over an inner periphery of the retention part. The rotation support member 10 and the rotation member 30 are made of materials that are not bonded to each other during molding by the resin materials. In the inner periphery of the retention part 50,a portion that closely contacts the sliding part 27 is formed to be continuous in a circumferential direction so that the rotation support member 10 and the rotation member 30 are molded in a connected state.