A container for the preparation of a beverage and a machine for the filling of containers for the preparation of the beverage. The container includes an outer cup, an inner cup nesting inside the outer cup, and a filter disposed between a sidewall of the outer cup and a sidewall of the inner cup and covering a bottom opening of the inner cup. The machine includes a first zone configured to dispense a container from a stack of containers, a second zone configured to fill the container with a beverage substrate, a third zone configured to seal the container and dispense a filled container, and a carriage configured to transport the container between the first and second zones, and between the second and third zones.

An opening/closing direction restriction mechanism for a manual shutter device and an opening/closing direction restriction mechanism for a suspended sliding door device This opening/closing direction restriction mechanism is provided with: a flange fixedly mounted on a fixed shaft; a bracket which is loosely fitted to the fixed shaft and can be integrally rotated with a winding member; and a two-way clutch which can be switched between a reverse rotation inhibited state in which the revolution of a planetary external gear along a winding direction of the winding member is allowed and the revolution of the planetary external gear along an unwinding direction is inhibited, and a forward rotation inhibited state in which the revolution of the planetary external gear along the winding direction of the winding member is inhibited and the revolution of the planetary external gear along the unwinding direction is allowed.

An apparatus for moving sliding doors and wardrobe doors fixed to the inner face of the top of a door (10) comprises at least one carriage (34) and at least one braking device (20) with a slider (22) pulled by at least one coil return spring (24). The door is hung from a beam made up of two extruded profiles (12), (14), the first of which is fastened to the wall with screws (15) and relative plugs; the second extruded profile (14) is fastened to the first profile (12) with snap-in couplings. These coupled profiles define a cavity (16) in which the braking device (20) is housed and stabilised with screws (18), fixed on a cantilevered bracket (26) of the second extruded profile (14); the latter defines a sliding track (28) for the wheels or bearings (30) of the carriage(s) (34), fixed to the door (10) at a recess (32).

An apparatus for moving sliding doors and wardrobe doors fixed to the inner face of the top of a door (10) comprises at least one carriage (34) and at least one braking device (20) with a slider (22) pulled by at least one coil return spring (24). The door is hung from a beam made up of two extruded profiles (12), (14), the first of which is fastened to the wall with screws (15) and relative plugs; the second extruded profile (14) is fastened to the first profile (12) with snap-in couplings. These coupled profiles define a cavity (16) in which the braking device (20) is housed and stabilised with screws (18), fixed on a cantilevered bracket (26) of the second extruded profile (14); the latter defines a sliding track (28) for the wheels or bearings (30) of the carriage(s) (34), fixed to the door (10) at a recess (32).

A door assembly of a vehicle includes a first door panel movable at least partially across a door opening from a first side of the door opening toward a second side of the door opening, a second door panel spaced apart from the first door panel and movable at least partially across the door opening from the first side toward the second side. A first magnetic element is located at the first door panel and a second magnetic element is located at the second door panel. The second magnetic element is interactive with the first magnetic element such that moving of the first door across the door opening causes movement of the second door panel across the door opening.

A door assembly of a vehicle includes a first door panel movable at least partially across a door opening from a first side of the door opening toward a second side of the door opening, a second door panel spaced apart from the first door panel and movable at least partially across the door opening from the first side toward the second side. A first magnetic element is located at the first door panel and a second magnetic element is located at the second door panel. The second magnetic element is interactive with the first magnetic element such that moving of the first door across the door opening causes movement of the second door panel across the door opening.

A fitting arrangement for a leaf of a sliding window or door that can be moved away in parallel, includes a control unit having a mounting part for fixing on the leaf and an adjusting part which is displaceable relative to the mounting part for moving the leaf away in parallel. A movement unit is fastened to the control unit and has an energy storage device and an activation element for the energy storage device. A closure arrangement for a building opening, includes a frame, the control unit and the adjusting part. The leaf which, in a closed position, can, by means of the control unit, be brought up to the frame and be moved away from the frame in parallel, so the leaf is displaceable along a guide rail of the frame. The movement unit supports an automatic movement of the leaf along the guide rail.

A turbine stator vane includes a stator vane body extending in a radial direction intersecting the flow direction of steam; a recovery potion that is formed on the surface of the stator vane body, and recovers a liquid film flowing along the surface; and a center region, formed on the surface of the stator vane body and in which a plurality of first fine grooves extending from the upstream side toward the recovery portion in the flow direction are formed. The interval between adjacent first fine grooves narrows from the upstream side toward the recovery portion.

A turbine stator vane includes a stator vane body extending in a radial direction intersecting the flow direction of steam; a recovery potion that is formed on the surface of the stator vane body, and recovers a liquid film flowing along the surface; and a center region, formed on the surface of the stator vane body and in which a plurality of first fine grooves extending from the upstream side toward the recovery portion in the flow direction are formed. The interval between adjacent first fine grooves narrows from the upstream side toward the recovery portion.

An exemplary closure assembly includes a rail assembly and a door assembly movably mounted to the rail assembly. The door assembly includes a rotary damper having a pinion, and the rail assembly includes a rack member operable to engage the pinion. As the door moves from first position to a second position, the rack member engages the pinion, thereby causing the pinion to rotate in a first rotational direction. The rotary damper resists rotation of the pinion in the first direction, thereby slowing movement of the door toward the second position. The rotary damper may be a one-way damper that does not resist rotation of the pinion in a second rotational direction such that the rotary damper does not resist movement of the door from the second position toward the first position.