An in-cabin partition may allow for automatically adjusting the size of a space, in a mobility vehicle, for passengers and cargo according to circumstances and/or needs. A mobility vehicle may be provided with the in-cabin partition. The in-cabin partition may include at least one rail installed in a cabin, a slider movable along the rail, a first driver mounted on the rail and the slider and configured to provide driving force for moving the slider, and a partition body fixed on the slider.

A passenger seat arrangement for installation in an aircraft comprises a seat unit with a backrest element and a seat element. The seat arrangement also comprises a supporting frame carrying the seat unit and comprising at least one seat mounting, which has a first backrest holder, to which the backrest element can be releasably fixed in a load-transferring manner in a first position on the seat mounting, and a second backrest holder, to which the backrest element can be releasably fixed in a load-transferring manner in a second position on the seat mounting. When the passenger seat arrangement is installed in the aircraft, the backrest element is pivoted in relation to a longitudinal axis of the aircraft in a state in which it is fixed to the first backrest holder relative to a state in which it is fixed to the second backrest holder.

A conveyance seat is provided. The conveyance seat comprises a first side frame portion disposed in a first side of a seat width direction extending substantially in an up-down direction, a second side frame portion disposed in a second side of the seat width direction extending substantially in the up-down direction, a drive mechanism configured to generate driving force so as to pivot the first side frame portion and the second side frame portion in the front-rear direction of the seat, a walk-in mechanism disposed in an opposite side of the drive mechanism in the seat width direction across the first side frame portion, a motor fixing portion disposed on the first side frame portion and provided with a fixing surface on which the drive mechanism is secured and a bracket configured to secure the drive mechanism to the fixing surface.

A variable securing configuration for an interior equipment element on the body of a vehicle, particularly a passenger seat on the side wall of a rail vehicle, includes at least one body-side engagement device and a securing rail connected to the interior equipment element. In order to be able to produce such a securing configuration easily and cost-effectively, the body has recesses disposed at equal distances between one another in the longitudinal direction of the vehicle and at least one retention element of the engagement device engages with the recesses. The engagement device is connected to the securing rail in such a way that the securing rail with the interior equipment element is adjustable relative to the engagement device in the longitudinal direction of the vehicle by an adjustment path corresponding to at least the spacing between two successive recesses.

The present disclosure relates to an air-conditioning arrangement for a vehicle. The air-conditioning arrangement includes at least one fluid channel, which has at least two identically designed connection devices. The air-conditioning arrangement includes at least one movable vehicle seat. The present disclosure also relates to a corresponding vehicle having such an air-conditioning arrangement. The at least one vehicle seat includes an air-conditioning component that outputs a temperature-controlled airflow from the vehicle seat. The air-conditioning component can be removably connected to the connection devices of the at least one fluid channel via a movable fluid connection to establish fluid communication between the air-conditioning component and the fluid channel.

A seat sliding device that supports a seat so that the seat is slidable is provided. The seat sliding device includes a fixed rail having a first rail-surface and a second rail-surface, a movable rail that is configured to be slidable relative to the fixed rail, a roller that is mounted on the movable rail, a first rolling element that is formed into a sphere, and a first retainer that is mounted on the movable rail. The roller receives a downward load imposed on the movable rail and rolls to contact the first rail-surface. The first rolling element rolls to contact the second rail-surface. The first retainer presses the first rolling element against the second rail-surface while rotatably retaining the first rolling element.

The invention relates to a shock absorber with a housing, an inner pipe arranged in the housing, a piston rod, a piston which is arranged at that end of the piston rod, and which piston divides the interior of the inner pipe into a lower chamber and an upper chamber, a first valve arrangement which is arranged on the piston, and a third valve arrangement which is arranged at the lower end of the inner pipe and by means of which the working medium which is held in the interior of the housing, serving as a tank, can flow out of the interior of the housing, only into the lower chamber when the piston moves in the inner pipe. The shock absorber is distinguished by the fact that a hydraulic pump drive is arranged between a first connection element of the lower chamber of the inner pipe and a second connection element at the upper chamber of the inner pipe.

Provided is a vehicle including the following: a vehicle body having side walls on both sides in a width direction that is perpendicular to the direction of travel, and having an expanded portion between the upper end and the lower end of the side wall, the expanded portion being expanded further outward in the width direction than the upper end and the lower end; and a seat provided in the vehicle body and having a seatback along the side wall and a seat surface that extends inward in the width direction of the vehicle body from the seatback, the portion of the rear surface of the seatback that faces the side wall and that protrudes the farthest towards the side wall being disposed in a position facing the expanded portion of an in-vehicle-side lateral surface of the side wall.

In a slide position detecting device for a vehicle seat, an angle between a bottom plate portion and a side plate portion of an attachment bracket is set to a maximum angle in a range of an angle between a bottom wall portion and a side wall portion of a seat-side member; rigidity maintaining the angle between the bottom plate portion and the side plate portion is set to be lower than rigidity maintaining the angle between the bottom wall portion and the side wall portion; and when the side plate portion is fixed to the side wall portion, the bottom plate portion contacts the bottom wall portion or a top face portion of an upper rail, and is fixed in a state where the angle between the bottom plate portion and the side plate portion coincides with the angle between the bottom wall portion and the side wall portion.

A seat sliding device that supports a seat so that the seat is slidable is provided. The seat sliding device includes a fixed rail having a first rail-surface and a second rail-surface, a movable rail that is configured to be slidable relative to the fixed rail, a roller that is mounted on the movable rail, a first rolling element that is formed into a sphere, and a first retainer that is mounted on the movable rail. The roller receives a downward load imposed on the movable rail and rolls to contact the first rail-surface. The first rolling element rolls to contact the second rail-surface. The first retainer presses the first rolling element against the second rail-surface while rotatably retaining the first rolling element.