An article of furniture can include an upper beam member, a first side member, a second side member, and a plurality of attachment bracket members connecting the first side member to the upper beam member adjacent a first side of the upper beam member and also connecting the second side member to the upper beam member adjacent a second side of the upper beam member. Each attachment bracket members can have a body and a plurality of arms extending from the body. The arms can include a first and second top arms, first and second intermediate arms, and first and second bottom arms. The arms can be positioned to define channels.

A vertical joint system for substrates is formed with joints and which engaged by relative motion in a direction perpendicular to major surfaces and of the substrate. The joints are configured to enable relative rotation of up to 3 degrees while maintaining engagement of the joints. The joints and are further configured to form two locking planes one on each of the inner and outer most sides of the joint. Engagement about the locking planes is provided by transverse outward extending surfaces. At least one surface in each pair of engaging surfaces is smoothly curved. The joints and can be further arranged to provide a third locking plane parallel to and between the locking planes. The joints are disengaged by combination of a downward rotation of one joint relative the other then application of a downward force.

A replaceable unit for an image forming device according to one example embodiment includes a housing having a reservoir for storing toner. The replaceable unit includes a rotatable drive coupler and a rotatable shaft that has a cross pin on an axial end of the shaft, generally orthogonal to the shaft. At least a portion of the drive coupler is exposed on an exterior of the housing and unobstructed to receive rotational force when the replaceable unit is installed in the image forming device. A pocket is formed in a first axial side of the drive coupler. The axial end of the shaft and the cross pin are removably positioned in the pocket such that upon rotating the drive coupler in an operative direction rotational force is transferred from surfaces of the drive coupler forming the pocket to the cross pin causing the shaft to rotate with the drive coupler.

A combination component handling and connecting device connectable to a multi-axis robot for use in moving and connecting components and subassemblies includes a housing and an actuator fixedly connected to the housing. The actuator includes an actuating link movable from a first position to a second position. Connected to the actuating link is an end effector for concurrent movement with the actuating link. The component handling and connecting device includes a clamp having a first jaw and a second jaw. The second jaw is connected to the actuating link for selectively moving the second jaw toward the first jaw operative to engage a component.

A female latch member comprising a main body having an aperture with a central axis and an inside surface. The female latch member further includes a first upper portion and second, third and fourth lower portions extending radially from said inside surface that cooperate to form first, second and third channels, each of said first, second and third channels having in order a first vertical upper limit, a second vertical lower limit, and a third vertical upper limit, said first, second and third channels configured to receive three related pins of a male hook member and cause said female latch member to rotate relative to said male hook member. The female latch member further includes a floating bearing assembly attached to the main body, the floating bearing configured to allow for rotation and at least one of parallel, angular or axial movement of the main body.

A novel system and related methods for sequentially deploying, in automated or semi-automated fashion, a strip of a plurality of truss bays with integral solar panels from a moving carrier onto a surface being traversed, resulting in a long, contiguous truss structure laid upon on the surface. The solar panels are angled at a predetermined orientation for solar operation at the deployment location. The carrier is easily and quickly reloaded with another set of truss bays for repeated deployment of a series of strips of solar truss structures in a solar array. The solar array thus is constructed in substantially less time and with substantially less labor that conventional support racking in the filed using prior art piece-wise assembly operations.

An article of furniture can be configured to allow for a toolless installation via use of one or more attachment bracket members. The article can be configured to facilitate the distribution of power and/or data wiring to different articles as well as support one or more articles (e.g. privacy screens, shelving, displays, etc.). The article can be configured to be mobile for allowing a work space to be adjusted to alter the arrangement or spacing of different work stations within a work area (e.g. an office, a floor of a building, etc.).

Various arrangements of a surface mount system are presented herein. The system may include a surface mount plate. The surface mount plate may include a circular lip and nubs located along the circular lip. The system may also include a device housing. The device housing can include slider clips that removably clip to the circular lip of the surface mount plate when the plurality of slider clips are pushed against the circular lip. The slider clips can be disengaged from the circular lip of the surface mount plate when the device housing is rotated with respect to the surface mount plate such that the nubs located on the surface mount plate push the slider clips away from the circular lip.

A composed element includes at least two panel-shaped elements, which each have an edge zone in which coupling means are present in a profiled part respectively extending in the longitudinal direction of the respective edge zone, and each including an end face extending transversely to the respective edge zone. The profiled parts allow the coupling of the panel-shaped elements together in an interlocking manner. At least one of the panel-shaped elements includes an arrangement which hides from view at least a portion of the profiled part formed at the pertaining edge zone at the location of the end face.

A vertical joint system for substrates is formed with joints and which engaged by relative motion in a direction perpendicular to major surfaces and of the substrate. The joints are configured to enable relative rotation of up to 3 degrees while maintaining engagement of the joints. The joints and are further configured to form two locking planes one on each of the inner and outer most sides of the joint. Engagement about the locking planes is provided by transverse outward extending surfaces. At least one surface in each pair of engaging surfaces is smoothly curved. The joints and can be further arranged to provide a third locking plane parallel to and between the locking planes. The joints are disengaged by combination of a downward rotation of one joint relative the other then application of a downward force.