The disclosure relates to a linear unit for a flap arrangement with a flap, and a closed position, wherein the linear unit has two drive connections which are coupled to each other via a gearing and are adjustable relative to each other along a geometrical linear axis, wherein the linear unit has a helical spring arrangement, wherein the helical spring arrangement has a first spring element which is configured as a helical spring and a second spring element which is configured as a helical spring, with which helical springs the two drive connections can be pretensioned against each other, wherein the second spring element is oriented coaxially with respect to the first spring element with regard to a geometrical spring axis. It is proposed that the spring wire at one end of the second spring element forms a supporting portion via which the first spring element secures the second spring element axially.

A supporting member includes: a rotatable spindle supported in a first housing; a cylindrical first guide fixed in a second housing, and guiding a relative movement of the spindle in an axial direction; a second guide fixed in the first housing, having an inner diameter larger than a first guide's outer diameter, and relatively movable in the direction to the first guide; and a nut being a stepped shaft-like member including an insertion portion inserted into the first guide, a protruding portion protruded from the first guide, and a narrow portion provided therebetween. The first guide includes a caulking portion to the nut at an opening end. The caulking portion includes a portion extending to intersect in the direction along a step between the insertion portion and the narrow portion, and another portion parallel to the direction along an outer circumferential surface of the narrow portion.

A roller carriage for the reception of a sliding door includes a roller module for the displaceable affixing at a roller running path and a basic body for the attachment to the sliding door, wherein at least two mounting devices are provided for realizing respectively one mounting function of the roller carriage. Each mounting device includes at least one mounting element with a manipulation interface for applying a mounting force for performing a mounting movement of the mounting element. The manipulation interfaces of the mounting elements of the at least two mounting devices are disposed on a first side of the roller carriage, and a bearing device of the roller module for the displaceable affixing at the roller running path is disposed on the opposing second side of the roller carriage.

A power boost assembly is disclosed that can be used with a door actuator, such as a door closer. The power boost assembly is structured to store an energy during a first movement of a door and release the stored energy during a second movement of the door. In one form the power boost assembly can be structured as a module that can be added to an existing door and door closer installation. In one form the power boost assembly is used to increase a closing force imparted to a door to ensure a latching event.

A multi-joint link hinge may include hinge bracket provided with a base in which a plurality of screw coupling holes are defined, a plurality of side walls which protrude from the base and are spaced apart from each other in a vertical direction, a plurality of link modules which are vertically arranged between the side portions and axially coupled to the hinge bracket by a rotation shaft, and a door bracket which is axially coupled to each of the plurality of link modules.

An embodiment integrated operating apparatus for different types of gates includes a driving motor, a main shaft rotatable by the driving motor, a first clutch portion at a first side of the main shaft and configured to selectively transmit power to a first gate of a vehicle, the first clutch portion including a first clutch and a first gear selectively engaged with each other, and a second clutch portion at a second side of the main shaft and configured to selectively transmit power to a second gate of the vehicle, the second clutch portion including a second clutch and a second gear selectively engaged with each other, wherein the first and second gates are configured to be independently operated based on the first clutch portion being in an engaged state or a released state and the second clutch portion being in the engaged state or the released state.

A hinged wall profile door assembly including a first and second longitudinal wall profile having a body configured for mounting to a wall, and a longitudinal hinge profile having a body configured to be received within an inner section of the first longitudinal wall profile. The assembly also includes a profile door, at least a first hinge assembly and a second hinge assembly secured to the longitudinal hinge profile and configured for mounting to the profile door, the first and second hinge assemblies having a body and a first end and a second end, wherein the first end of the body is configured to be curved and the second end of the body is configured to form a longitudinal channel for receiving the profile door therethrough.

A cap for mounting on a hinge is described. The cap includes: a body defining a first attaching portion for attaching the body to a hinge at a first location; a second attaching portion defined by the body for attaching the body to the hinge at a second location; and a channel defined by the body wherein the body is configured to secure a rod to the hinge by trapping the rod in the channel between the body and the hinge and the channel is located between the first and second attaching portions.

To provide a holder-equipped window glass capable of increasing the quality and productivity and capable of preventing breakage of the window glass to be caused by attachment of the holder, and a process for its production. A holder main body 18 is an integrally molded product comprising an inner layer portion 26 and an outer layer portion 28. The inner layer portion 26 is constructed to be U-shaped in cross section to clamp a part of a lower edge 12B of a window glass 12 in the thickness direction of the lower edge 12B. Further, the outer layer portion 28 is located outside the inner layer portion 26, is made of a material harder than the inner layer portion 26 and is constructed to be U-shaped in cross section. This outer layer portion 28 is provided with a connecting portion 16. This connection portion 16 is projecting in a direction departing form the lower edge 12B of the window glass 12.

The present invention relates to a removable profile structure, primarily for sliding panels, comprising a concealed support (2) with an inverted U shape which comprises at least two rectangular sections (3) and a W shaped detachable base (1) able to receive a glass (4).

This solution, in which the concealed support (2) and the detachable base (1) are independent, allows the removal of the sliding panel without interfering with the state of the pavement coating.