A storage device 1 includes: a case member 2; a lid member 3 configured to change between a closed position, an opened position, and a half-opened position; a fin member 4 configured to be pivotally supported on the second end portion 32 of the lid member 3; a cover member 5 configured to be positioned so as to be fixed relative to the case member 2, and to be disposed backward of the lid member 3 on the back side; and an urging member 80. When the lid member 3 changes between the half-opened position and the opened position, the projecting tooth portions 46 of the fin member 4 are in sliding contact with the recessed groove portions 55 of the cover member 5 by urging force of the urging member 80.

A storage device 1 includes: a case member 2; a lid member 3 configured to change between a closed position, an opened position, and a half-opened position; a fin member 4 configured to be pivotally supported on the second end portion 32 of the lid member 3; a cover member 5 configured to be positioned so as to be fixed relative to the case member 2, and to be disposed backward of the lid member 3 on the back side; and an urging member 80. When the lid member 3 changes between the half-opened position and the opened position, the projecting tooth portions 46 of the fin member 4 are in sliding contact with the recessed groove portions 55 of the cover member 5 by urging force of the urging member 80.

A lid mechanism includes: a box main body; a lid; a locking element that includes a rod and a rod biasing member; and a flap element that includes a flap main body and a flap biasing member and a box contact portion which is configured to come into contact with the box main body, wherein: when the state of the lid changes from the closed state to the opened state, the pressing inclined surface provided in the rod contact portion of the flap main body presses the pressure receiving inclined surface provided in the rod; and when the state of the lid changes from the opened state to the closed state, the box contact portion of the flap main body comes into contact with the box main body such that the pressing of the pressing inclined surface to the pressure receiving inclined surface is released.

A lid mechanism includes: a box main body; a lid; a locking element that includes a rod and a rod biasing member; and a flap element that includes a flap main body and a flap biasing member and a box contact portion which is configured to come into contact with the box main body, wherein: when the state of the lid changes from the closed state to the opened state, the pressing inclined surface provided in the rod contact portion of the flap main body presses the pressure receiving inclined surface provided in the rod; and when the state of the lid changes from the opened state to the closed state, the box contact portion of the flap main body comes into contact with the box main body such that the pressing of the pressing inclined surface to the pressure receiving inclined surface is released.

A storage console includes a housing with a storage chamber, two closure members connected to the housing, an actuator movably arranged in the housing and a latch mechanism rotatably connected to the housing. The two closure members can be rotated to open or close the storage chamber. The latch mechanism includes two latch members and a synchronizer connected between the two latch members. The movement of the actuator actuates the two latch members to rotate to a lock position in which the two latch members engage with the two closure members or a release position in which the two latch members are separated from the two closure members. The two closure members of the storage console can be opened synchronously by use of the actuator and closed independently of each other.

A storage console includes a housing with a storage chamber, two closure members connected to the housing, an actuator movably arranged in the housing and a latch mechanism rotatably connected to the housing. The two closure members can be rotated to open or close the storage chamber. The latch mechanism includes two latch members and a synchronizer connected between the two latch members. The movement of the actuator actuates the two latch members to rotate to a lock position in which the two latch members engage with the two closure members or a release position in which the two latch members are separated from the two closure members. The two closure members of the storage console can be opened synchronously by use of the actuator and closed independently of each other.

Techniques for managing shape memory alloy actuators is described. An example system includes a shape memory alloy (SMA)-actuator configured to cause opening of a compartment included in the vehicle, with the SMA-actuator including a wire formed from an SMA material, and with the wire being configured to be adjusted in position or orientation based on a temperature of the wire. The system further includes a controller, the controller being in communication with one or more sensors, with the sensors being configured to obtain temperature measurements associated with the vehicle. The controller is configured to access a lookup table, with the lookup table mapping temperature measurements to operational parameters, determine operational parameters based on the lookup table, and cause implementation of the operational parameters to cause opening of the compartment, with the operational parameters being associated with adjustment of the temperature of the wire.

Techniques for managing shape memory alloy actuators is described. An example system includes a shape memory alloy (SMA)-actuator configured to cause opening of a compartment included in the vehicle, with the SMA-actuator including a wire formed from an SMA material, and with the wire being configured to be adjusted in position or orientation based on a temperature of the wire. The system further includes a controller, the controller being in communication with one or more sensors, with the sensors being configured to obtain temperature measurements associated with the vehicle. The controller is configured to access a lookup table, with the lookup table mapping temperature measurements to operational parameters, determine operational parameters based on the lookup table, and cause implementation of the operational parameters to cause opening of the compartment, with the operational parameters being associated with adjustment of the temperature of the wire.

A container is disclosed that has a housing and a lid. The lid has a planar portion and a latch that is freely movable parallel to the planar portion of the lid. The latch has a retention feature and a first reference surface that is perpendicular to the planar portion of the lid. There is a latch mechanism coupled to the housing that has an engagement element configured to engage the retention feature of the latch and a first alignment feature having a first alignment surface. The first alignment feature is configured to laterally displace the latch in a first direction such that the first reference surface aligns with the first alignment surface when the lid is brought together with the housing with the fastener laterally displaced away from the engagement element in a second direction that is opposite to the first direction.

A storage compartment includes a housing, a lid, a locking mechanism, and a closure mechanism. The lid is pivotally coupled to the housing about a pivot axis for movement between a closed position and an opened position. The locking mechanism is displaceable in a first direction to move between an unlocked position and a locked position, the first direction extending generally normal to the pivot axis. The closure mechanism is configured to inhibit movement of the lid from the closed position towards the opened position upon movement of the locking mechanism to the unlocked position due to movement of the housing in the first direction with respect to the lid.