A vehicular seating suite configuration may include a plurality of vertically stacked seating suites configured to be positioned within a vehicle. Each seating suite may include an elongated generally horizontal seating surface angled away from a longitudinal axis of a vehicle and a generally vertical backrest portion adjacent to a proximal end of the elongated generally horizontal seating surface. The elongated generally horizontal seating surface and the generally vertical backrest portion may be configured to accommodate a person in a sitting position and the elongated generally horizontal seating surface may be configured to accommodate a person in a lying position.

A seat assembly is configured to be positioned within an interior cabin of a vehicle. The seat assembly includes a seat support structure that is configured to connect to a floor structure within the interior cabin of the vehicle. The seat support structure includes a seat base and a front end opposite from a rear end. Arm rests are pivotally coupled to the seat support structure. A seat back is pivotally coupled to the seat support structure proximate to pivotal coupling of the arm rests to the seat support structure. In at least one other embodiment, a seat back coupling upwardly and rearwardly extends from a middle portion of the rear cross beam. A seat back includes a narrowed mounting portion that pivotally couples to the seat back coupling without interfering with knee space formed in a back side of the seat back.

A construction machine includes a movable portion provided on an upper surface of a hood and pivotable along the upper surface of the hood, a fixer fixed to the upper surface of the hood to restrict a pivoting range of the movable portion, and a console supported by the movable portion. The construction machine further includes a guide to connect the movable portion to the fixer and guide the movable portion in a predetermined pivoting direction. The movable portion 6 has an opening whose dimension in the pivoting direction is larger than that of the fixer, and the fixer is located in the opening.

Provided is a vehicle including: an arm rest placed between a vehicle seat and a side door; and a moving mechanism configured to move the arm rest in the thickness direction of the side door such that the arm rest takes a usage position and a stored position. The usage position is a position at which the arm rest is usable for an occupant sitting on the vehicle seat. The stored position is a position at which the arm rest is stored in a storage portion provided in the side door.

An armrest includes a frame, a mounting portion included in the frame and having a mounting surface with which the mounting portion is mounted on a bracket of a seat, an armrest-side wire harness arranged in the frame, and an armrest-side connector connected to the armrest-side wire harness and being open in a direction from the mounting surface toward the bracket.

An armrest includes a cable to be connected to a seat-side cable arranged on a seat, and a body member that is mountable on the seat and includes a routing section therein in which the cable is arranged. The cable includes an arranged portion that is arranged in the routing section and a connecting operation section that extends outside the routing section when being connected to the seat-side cable. The connecting operation section is arranged in the routing section when the body member is mounted on the seat.

An armrest device is provided in which deformation of an armrest frame is suppressed. The armrest device includes an armrest frame, and a bracket by which the armrest frame is rotatably supported. The armrest frame has, at lengthwise extremities thereof, a base end closer to an axis of rotation and a distal end farther from the axis of rotation. The bracket includes a deformation restriction portion provided protrusively toward the armrest frame, the deformation restriction portion being a portion which faces toward the armrest frame in a direction of the axis of rotation of the armrest frame and which is located on one side of the axis of rotation on which the base end is located, when an armrest is in a use position.

A vehicle console assembly includes a body that defines a cutout. The cut out includes a contact surface. A lid is operably coupled to the body and includes a connector that defines an engagement member. The lid is operable between a raised position, a lowered position, and an intermediate engaging position therebetween defined by a predefined opening angle. The engagement member is space-apart from the context surface when the lid is in the lowered position and engages the contact surface when the lid is in the intermediate engaging position. A biasing member is disposed proximate the connector. A hinge pin extends through the cutout, the biasing member, and the engagement member.

The present disclosure relates to an armrest for car seats including a connection bracket coupled to a car seat, a rest body connected to the connection bracket so as to be turnable about a fourth axis of rotation, a third cam connected to the rest body so as to be turnable about the fourth axis of rotation, a gas cylinder connected to the third cam, the gas cylinder being configured to be extended and contracted in a longitudinal direction, and a manipulation button installed at the rest body, the manipulation button being configured to manipulate the gas cylinder.

An arm rest assembly and aircraft passenger seat including the same. The arm rest includes a friction mechanism for resisting abrupt rotational movements of the arm rest. A rotationally fixed frame member defining a rotational axis and receives a rotational member of the arm rest configured to rotate around the rotational axis. A groove formed in an outer circumferential surface of the rotational member seats a O-ring disposed between the groove and an inner circumferential surface of the frame member. Tolerance between the frame member and arm rest is such that the O-ring is held in the groove in a compressed state and frictionally engagement each of the rotational member and the frame member.