A fuel tank structure that makes it difficult for mud, water, dust or the like to enter a fuel tank and that can restrict a fuel leakage path when a vehicle falls. A fuel cap includes a cap body mounted to a fuel supply port of a fuel tank, and a pressure adjusting device provided in the cap body to adjust a pressure in the fuel tank. In the fuel cap, a space is formed as a hermetically closed space in which the pressure adjusting device is accommodated, and the space communicates with an exterior of the fuel tank via a breather tube.

A fuel tank structure that makes it difficult for mud, water, dust or the like to enter a fuel tank and that can restrict a fuel leakage path when a vehicle falls. A fuel cap includes a cap body mounted to a fuel supply port of a fuel tank, and a pressure adjusting device provided in the cap body to adjust a pressure in the fuel tank. In the fuel cap, a space is formed as a hermetically closed space in which the pressure adjusting device is accommodated, and the space communicates with an exterior of the fuel tank via a breather tube.

There is provided a check valve for a fuel tank, including a cover to be welded to the fuel tank, a case welded to the cover and having a discharge port configured to discharge fuel into the fuel tank, and a valve body configured to open and close the discharge port. The cover includes a positioning portion on an outer circumferential surface. The case includes a vent hole which is arranged upward in a circumferential direction of the case when the check valve is mounted on the fuel tank, and a valve body supporting portion which supports the valve body inside the case. The valve body supporting portion includes a selecting portion for positioning the vent hole, which is provided on a discharge port side at a position away from the positioning portion by a predetermined angle in the circumferential direction of the case.

There is provided a check valve for a fuel tank, including a cover to be welded to the fuel tank, a case welded to the cover and having a discharge port configured to discharge fuel into the fuel tank, and a valve body configured to open and close the discharge port. The cover includes a positioning portion on an outer circumferential surface. The case includes a vent hole which is arranged upward in a circumferential direction of the case when the check valve is mounted on the fuel tank, and a valve body supporting portion which supports the valve body inside the case. The valve body supporting portion includes a selecting portion for positioning the vent hole, which is provided on a discharge port side at a position away from the positioning portion by a predetermined angle in the circumferential direction of the case.

A housing body (1) is designed in order to be mounted at least in regions in a mounting opening of an outer skin or outer body component (5) of a motor vehicle, and has an outer flange region (6), which surrounds the housing body (1) at least in regions and defines the outer geometry of the housing body at least in regions, the flange region having a multidimensional shape and being designed in order to rest against a support surface of the outer skin or outer body component (5) in the installed state of the housing body. The shape of the outer flange region (6) is designed such that the housing body (1) is mountable, as needed, in a mounting opening, mirrored relative to the motor vehicle longitudinal axis, in a left- or right-sided outer skin or outer body component, by moving the housing body from left to right.

A housing body (1) is designed in order to be mounted at least in regions in a mounting opening of an outer skin or outer body component (5) of a motor vehicle, and has an outer flange region (6), which surrounds the housing body (1) at least in regions and defines the outer geometry of the housing body at least in regions, the flange region having a multidimensional shape and being designed in order to rest against a support surface of the outer skin or outer body component (5) in the installed state of the housing body. The shape of the outer flange region (6) is designed such that the housing body (1) is mountable, as needed, in a mounting opening, mirrored relative to the motor vehicle longitudinal axis, in a left- or right-sided outer skin or outer body component, by moving the housing body from left to right.

A socket assembly may include a socket for receiving a plug, a flap for covering the socket, wherein said flap is rotatable about a shaft between a closed position and an open position and is biased into the closed position, a locking mechanism that locks the flap in the open position, and a release mechanism that releases the locking mechanism, when a plug is inserted in the socket. After a release of the locking mechanism, the locking mechanism can be activated only after the flap has been rotated from the open position to the closed position to an extent of at least 30%.

A door lock assembly includes a housing having a hollow structure, a lifting shaft provided inside the housing, a driving spring, and a buffering device. A top end of the lifting shaft is configured for assembling a refueling or charging port flap, the lifting shaft being slidably engaged with the housing along a first portion and threadably engaged with the housing along a second portion. One end of the driving spring is fixed and the other end abuts against the lifting shaft for driving the lifting shaft to move relative to the housing. The buffering device provides a buffering function in the when the lifting shaft is threadably engaged with the housing.

An apparatus (1) for opening and closing a lid (lid body) of a vehicle includes a linearly-movable shaft (10) supported by a housing (90) such that the shaft (10) is linearly movable along, and nonrotatable around, an axial center (X10); and a rotary shaft (30) supported by the linearly-movable shaft (10) such that it is linearly movable along and rotatable around the axial center (X10). A stopper (50) is supported by the housing (90) and is displaceable between a blocking position at which the stopper (50) prohibits the linearly-movable shaft (10) from moving from a second position to a first position, and a nonblocking position at which the stopper (50) is separated from the linearly-movable shaft (10). The stopper (50) is biased toward the blocking position and displaces to the nonblocking position in response to a manual opening operation for displacing the lid to the open position.

An apparatus (1) for opening and closing a lid (lid body) of a vehicle includes a linearly-movable shaft (10) supported by a housing (90) such that the shaft (10) is linearly movable along, and nonrotatable around, an axial center (X10); and a rotary shaft (30) supported by the linearly-movable shaft (10) such that it is linearly movable along and rotatable around the axial center (X10). A stopper (50) is supported by the housing (90) and is displaceable between a blocking position at which the stopper (50) prohibits the linearly-movable shaft (10) from moving from a second position to a first position, and a nonblocking position at which the stopper (50) is separated from the linearly-movable shaft (10). The stopper (50) is biased toward the blocking position and displaces to the nonblocking position in response to a manual opening operation for displacing the lid to the open position.