A workstation system (1) has an office desk with a seated work area and a standing working area. A support frame (10) is height-adjustable in the vertical axis H for synchronously adjusting the height of two desktops (T1, T2) attached to the frame at different work levels (A1, A2) to form respective seated and standing working areas. The desktops (T1, T2) are attached to the support frame at a fixed distance to each other in the vertical axis H. The upper desktop (T2) is arranged above the working level (A1) of the lower desktop (T1) in the vertical axis.

A lightweight electric desk stand includes a beam structure (10), a telescopic column (20) and a flank (30). The beam structure (10) includes a lower frame (11) and an upper frame (12). The lower frame (11) includes a bottom plate (111) and two risers (118) facing one another. The upper frame (12) includes a top plate (121) and two side plates (125) facing one another. The upper frame (12) is mounted on the lower frame (11). The side plate (125) and the riser (118) are connected to one another. The bottom plate (111) and the top plate (121) are spaced and facing one another. The telescopic column (20) is connected to two ends of the beam structure (10) and includes a motor (21). The flank (30) is disposed on an edge of the telescopic column (20) and covers an end of the beam structure (10).

A lightweight electric desk stand includes a beam structure (10), a telescopic column (20) and a flank (30). The beam structure (10) includes a lower frame (11) and an upper frame (12). The lower frame (11) includes a bottom plate (111) and two risers (118) facing one another. The upper frame (12) includes a top plate (121) and two side plates (125) facing one another. The upper frame (12) is mounted on the lower frame (11). The side plate (125) and the riser (118) are connected to one another. The bottom plate (111) and the top plate (121) are spaced and facing one another. The telescopic column (20) is connected to two ends of the beam structure (10) and includes a motor (21). The flank (30) is disposed on an edge of the telescopic column (20) and covers an end of the beam structure (10).

The present invention relates to an improved height-adjustable table (1) which can assist and motivate the user to use the height-adjustable table in a manner which increases health, calorie burn and well-being. The table features a communication interface for connection of a user specific device providing the control with a set of user values for that specific guest user of the height-adjustable table in order to ease the configuration of the table to fit each individual user.

A cart assembly including a frame having a horizontal worksurface, a plurality of vertical support members extending upwardly from the horizontal worksurface and an upper rail spaced above the horizontal worksurface and connected to the vertical support members. The rail defines an opening at one end thereof. A screen is moveable between at least first and second positions. The screen is moveable through the opening and is supported in an interior space of the frame in the first position. The screen is disposed outside the interior space in the second position.

A cart assembly including a frame having a horizontal worksurface, a plurality of vertical support members extending upwardly from the horizontal worksurface and an upper rail spaced above the horizontal worksurface and connected to the vertical support members. The rail defines an opening at one end thereof. A screen is moveable between at least first and second positions. The screen is moveable through the opening and is supported in an interior space of the frame in the first position. The screen is disposed outside the interior space in the second position.

A lifting table-on-table comprises an upper panel, a lower panel, a bracket component and a base. A plurality of slide rails are symmetrically arranged at the lower side of the upper panel; the base comprises first bottom rods and second bottom rods arranged in parallel; a plurality of slide rails are symmetrically arranged at the inner sides of the first bottom rods; the bracket component comprises two pairs of first brackets and second brackets in an X shape; transmission shafts provided with slide blocks on both ends are installed between the top ends of the first brackets and the second brackets; the slide blocks are installed at the bottom ends of the first brackets and the second brackets through rotating shafts; the bracket component is movably connected between the upper panel and the base through the matching of the slide blocks and the slide rails; and a lifting mechanism is installed between the second brackets and the transmission shaft below the upper panel. Compared with the prior art, in the table-on-table, by arranging the lifting mechanism matched with the handle on the upper panel, the height of the table-on-table can be adjusted quickly and smoothly. By arranging the X-shaped bracket component, the strengthening arms and the supporting rod, the stability of the bracket component is enhanced and the height of the entire bracket component is collaboratively adjusted to simplify the structure of the table-on-table.

A lifting table-on-table comprises an upper panel, a lower panel, a bracket component and a base. A plurality of slide rails are symmetrically arranged at the lower side of the upper panel; the base comprises first bottom rods and second bottom rods arranged in parallel; a plurality of slide rails are symmetrically arranged at the inner sides of the first bottom rods; the bracket component comprises two pairs of first brackets and second brackets in an X shape; transmission shafts provided with slide blocks on both ends are installed between the top ends of the first brackets and the second brackets; the slide blocks are installed at the bottom ends of the first brackets and the second brackets through rotating shafts; the bracket component is movably connected between the upper panel and the base through the matching of the slide blocks and the slide rails; and a lifting mechanism is installed between the second brackets and the transmission shaft below the upper panel. Compared with the prior art, in the table-on-table, by arranging the lifting mechanism matched with the handle on the upper panel, the height of the table-on-table can be adjusted quickly and smoothly. By arranging the X-shaped bracket component, the strengthening arms and the supporting rod, the stability of the bracket component is enhanced and the height of the entire bracket component is collaboratively adjusted to simplify the structure of the table-on-table.

A movable workstation comprising at least one work plane; a base assembly, said work plane being supported by said base assembly, said base assembly comprising wheels for resting said movable work station on a floor and for moving said workstation along said floor; wherein said base assembly comprises: a support structure comprising a bearing structure adapted to be rested on the floor and a upright structure connected to, and interposed between, said rest structure and said at least one work plane; at least one container supported to said base assembly; and wherein at least one of the at least one work plane is constrained to said upright structure in a translatable manner with respect to said base assembly according to one plane parallel to said at least one of the at least one work plane.

A tabletop display is provided, having a tabletop surface and a monitor spaced from the tabletop surface and angled obliquely with respect to the tabletop surface. The monitor defines a front, display surface and an opposing back surface. The tabletop display also includes a column extending from the tabletop surface to the back surface of the monitor, an input mechanism comprising an input aperture spaced from the tabletop surface, and an output mechanism comprising an output aperture spaced from the tabletop surface.