The invention relates to a bottom part (1) of an enclosure, comprising a bottom (2) and a locking member to attach a cover (8) to the bottom part To allow the use of the same bottom part (1) with covers (8) of different kinds, and for the bottom part to allow the opening direction of the cover to be changed, the first wall (3) of the bottom part comprises a locking member (30a1) which comprises a form-locking piece (7b) which is detachably adapted in a recess in the first wall (3) of the bottom part (1), and a second wall of the bottom part, which is opposite to the first wall, comprises a locking member (40a1) which comprises a form-locking piece detachably adapted in a recess in the second wall, whereby the locking member (30a1) of the first wall (3) is diametrically located opposite to the locking member (40a1) of the second wall, and the form-locking pieces (7b) comprise a planar outer surface which is in the same plane as the outer surface of said walls of the bottom part to which walls the form-locking pieces are adapted, and said walls (3) comprise detents which are adapted to prevent the removal of the form-locking pieces (7b) from the bottom part (1) to a direction away from the plane defined by the bottom of the bottom part (1).

A sliding door system for a vehicle includes a door frame defining a door opening and a sliding door covering at least a portion of the door opening in a closed position. An upper door slide assembly and a lower door slide assembly collectively interconnect the sliding door to the door frame and each are configured to slide the sliding door relative to the door frame from the closed position to an open position to dispose the sliding door either forward or rearward of the door opening. The lower door slide assembly includes a lower track extending along the sliding door and a lower hinge assembly pivotably connected to the door frame and slideably mated with the lower track for effectuating pivoting and sliding movement of the sliding door between the open and closed positions.

The present invention is directed to a Cabinet for a recreational vehicle having a main housing with an interior space, a front opening, a left side and a right side; and a door configured to seal the front opening. The cabinet further comprises a left hinge mechanism with a left hinge axis and a right hinge mechanism with a right hinge axis to selectively couple the door hinge-wise to the left side or the right side so that the door can either be rotated about the left hinge axis or the right hinge axis. The door comprises a left handle which is operably coupled to the left hinge mechanism and the right hinge mechanism so that operating the left handle allows to rotate the door about the right hinge axis. The door further comprises a right handle which is operable coupled to the left hinge mechanism and the right hinge mechanism so that operating the right handle allows to rotate the door about the left hinge axis. The left hinge mechanism comprises a left locking member separate from the left hinge axis and the right hinge mechanism comprises a right locking member separate from the right hinge axis; and the left locking member and the right locking member are in engagement with a blocking element. Operating the left handle displaces the blocking element so that the left locking member is disengaged from the blocking element, and operating the right handle displaces the blocking element so that the right locking member is disengaged from the blocking element.

The invention relates to a furniture connecting fitting (10) having an attachment section (51, 53) for coupling to a cabinet body (110), wherein a kinematic arrangement (30) is coupled indirectly or directly to the attachment section (51, 53), wherein an assembly piece (80) is provided, which assembly piece has a fitting end (81) facing the attachment section (51, 53) and a furniture attachment end (81.3) facing away from the fitting end (81), wherein the attachment section (51, 53) has at least one locating element (55) which, in an assembly position, interacts with a mating element (85) of the assembly piece (80) to form a connection, which acts transversely to the furniture attachment end (81.3) in a form-fitting and detachable manner, wherein an actuating element (60) is provided, which can be moved between a release position and a blocking position, and wherein the actuating element (60) rests against a supporting section (52) to secure the assembly position in the blocking position. Such a furniture connecting fitting can be easily connected to and installed on a cabinet body even in a compact design.

A soft closing damper fitting includes a soft closing damper fastenable to an internal door leaf of a multi-leaf sliding door and can be used for right-hand or left-hand closing. A Z-shaped profiled sheet has a central leg and with two outer legs angled in each case by 90? in opposing directions. For fastening the soft closing damper for right-hand closing the central leg comprises first fastening holes and a first marking for its fastening position on the internal door leaf. For fastening the soft closing damper for left-hand closing the central leg comprises second fastening holes and a second marking for its fastening position on the internal door leaf. The first fastening holes are spaced apart from the second fastening holes and the first marking is spaced apart from the second marking in each case by the same distance A in the longitudinal direction of the profile.

A mono-stable self-aligning template for installing brackets and treatments around an opening has a first plate having a top surface, a bottom surface, a front edge, a rear edge and a pair of opposing side edges. A plurality of openings is formed through the top surface of the first plate. The plurality of openings is arranged in at least a first array on a first side area on the top surface of the first plate. A mono-stable self-alignment device is coupled to the first plate. The mono-stable self-alignment device is perpendicular to the first plate.

A door drive includes a housing and at least one regulating valve for the adjustable regulation of a fluid flow within the door drive. The one regulating valve or at least one of the several regulating valves includes two ends with respectively one engaging part, in particular for a tool, wherein the one regulating valve or the regulating valves extend/s in such a manner through the housing that the engaging parts for adjusting the one regulating valve or the regulating valves may be manipulated from outside the housing.

Described and illustrated is a regulating valve for a door drive, wherein the regulating valve has an axis of rotation, wherein the regulating valve includes at least two ends and at least two sealing sections, wherein the regulating valve includes a regulating section, and the regulating section is disposed between the sealing sections. A regulating valve for a door drive, which is particularly simply manufacturable, is realized in that at least one radial thickening forms at least one of the sealing sections, wherein at least one radial tapering of the regulating valve forms the regulating section.

The invention relates to a hinge (1) for connecting a movable part (T) to another part (R), wherein the hinge (1) has four levers (2, 3, 4, 5) with seven points of rotation (25, 26, 27, 28, 29, 30, 31), and six (25, 26, 27, 28, 30, 31) of the seven points of rotation (25, 26, 27, 28, 29, 30, 31) are arranged axially symmetrically in relation to a mirror axis (S), which runs through one (29) of the seven points of rotation (25, 26, 27, 28, 29, 30, 31), and two (25, 26) of the six symmetrically arranged points of rotation (25, 26, 27, 28, 30, 31) can be fixed on the movable part, and two (27, 28) of the six symmetrically arranged points of rotation (25, 26, 27, 28, 30, 31) can be fixed on the other part, in each case by means of an attachment (6), and the attachments (6) secure the relative position of the in each case two points of rotation (25, 26; 27, 28) in relation to one another, and one (25) of the two points of rotation (25, 26) secured by means of a first of the two attachments (6) is connected, by means of one lever (3) of the four levers (2, 3, 4, 5), to one (30) of the two symmetrically arranged points of rotation (30, 31) which are present outside the attachment (6), and the other (26) of the two points of rotation (25, 26) secured by means of the first attachment (6) is connected, by means of a further lever (5) of the four levers (2, 3, 4, 5), to the other one (31) of the two symmetrically arranged points of rotation (30, 31) which are present outside the attachments (6), wherein the further lever (5) also incorporates the point of rotation (29), through which the mirror axis (S) runs, wherein, in the closed state, there is an enclosed angle of less than 155 between a connecting line between the point of rotation (29) having the mirror axis (S) and a point of rotation (31) outside the attachments (6) and a connecting line between the point of rotation (29) having the mirror axis and the point of rotation (26) at the attachment (6) for a lever (5).

A universal sliding door system that is configured to facilitate installation in either a slide right to open (SRO) orientation or a slide left to open (SLO) orientation. In some embodiments, a track is attached to a header by a pivot connector that allows the track to be pivoted up or down so that the track can be easily oriented at an appropriate angle for the desired opening orientation. The header and track may also each include a first set of openings configured to allow the track to be easily installed in a SRO orientation and a second set of openings configured to allow the track to be easily installed in a SLO orientation. Other components of the door system, such as the door and the vertical casing members may also include features configured to allow the components to easily be installed in either opening orientation.