Electrically height-adjustable table (10) comprising: an electrically height-adjustable base frame (14), a tabletop (12) which is arranged at or on the base frame (14), a drive device for adjusting the height of the base frame (14)/the tabletop (12), wherein the drive device is fastened to the base frame (14) or to the tabletop (12) and comprises at least one electric motor, a control device (70) and an operating device for operating the control device (70), and a sensor device (72) for detecting an initial absolute inclination of the tabletop (12) upon receiving an input of a movement command via the operating device and for detecting a subsequent absolute inclination and a subsequent temporal inclination change of the tabletop (12) during the movement of the tabletop (12) up or down according to the movement command, wherein the sensor device (72) comprises a three-axis acceleration sensor (74) for determining the absolute inclination of the tabletop (12) and a three-axis gyroscope (73), preferably integrally therewith, for determining the temporal inclination change of the tabletop (12).

Disclosed herein are aspects of a transaction device stand. In one embodiment, the transaction device stand comprises a stand base having a base plate, a column having a shape, and a winged collar latching mechanism. A swivel top may be mounted to the stand base via the winged collar, the swivel top configured to be physically coupled to a transaction device. A tension mechanism may be implemented between a portion of the swivel top and a portion of the winged collar of the stand base such that the swivel top is held at a position relative to the stand base in tension.

The present disclosure discloses a foldable table comprising a table board and a foot supporting frame. A rear portion of a bottom surface of the table board is rotatably connected to a top portion of the foot supporting frame. The foot supporting frame comprises two supporting rods disposed symmetrically on a left side and a right side of the foldable table and a U-shaped fixed rod. Lower ends of the two supporting rods are respectively rotatably connected to two ends of an opening of the U-shaped fixed rod. When the table board and the foot supporting frame are opened to be in an opened state, the U-shaped fixed rod is supported on ground with the opening of the U-shaped fixed rod facing forward, the two supporting rods are disposed obliquely with respect to the ground, and a side view of the folding table is Z-shaped.

A height adjustable work surface includes a platform and a height adjustment assembly moveably connected to the platform. A leg assembly is connected to the height adjustment assembly and moveably connected to the platform. The leg assembly is moveable between a raised position and a lowered position. A locking assembly is moveably connected to the platform. The locking assembly is configured to engage the height adjustment assembly to selectively secure the leg assembly in the raised position and the lowered position. The locking assembly includes a handle and a latch. At least a portion of the latch is moveable between a first position and a second position. The latch includes a gravity actuated lockout mechanism configured to prevent movement of the latch to the second position unless the platform is in a normal operating orientation.

A computer workstation lift and tilt assembly for providing a stable platform to raise, lower, and tilt various computing device. Here, the assembly can include a base, a first column, wherein the first column is secured to the base, and a second column. The assembly can further include a mount, wherein the mount is secured to a top region of the second column and configured to pivot relative to the second column, a first main slide having a first sub slide, and a second main slide having a second sub slide. Here, the first main slide can be secured to one side of the first column and the second main slide is secured to an opposing side of the first column, wherein the first sub slide is secured to one side of the second column and the second sub slide is secured to an opposing side of the second column, and wherein the second column is adapted slide relative to the first column.

The present invention relates to a complex sliding desk system comprising a monitor supporting desk unit for supporting at least one monitor, wherein the monitor supporting desk unit comprises: a unit base; a column connected to the unit base; a desk plate disposed on an upper portion of the column; a monitor supporting part, disposed on the desk plate, for supporting the monitor; and a plate driving part, connected to the desk plate, for forward and rearward moving or rotating the desk plate.

Disclosed herein are aspects of a transaction device stand. In one embodiment, the transaction device stand comprises a stand base having a base plate, a column having a shape, and a winged collar latching mechanism. A swivel top may be mounted to the stand base via the winged collar, the swivel top configured to be physically coupled to a transaction device. A tension mechanism may be implemented between a portion of the swivel top and a portion of the winged collar of the stand base such that the swivel top is held at a position relative to the stand base in tension.

A height adjustable work surface includes a platform and a height adjustment assembly moveably connected to the platform. A leg assembly is connected to the height adjustment assembly and moveably connected to the platform. The leg assembly is moveable between a raised position and a lowered position. A locking assembly is moveably connected to the platform. The locking assembly is configured to engage the height adjustment assembly to selectively secure the leg assembly in the raised position and the lowered position. The locking assembly includes a handle and a latch. At least a portion of the latch is moveable between a first position and a second position. The latch includes a gravity actuated lockout mechanism configured to prevent movement of the latch to the second position unless the platform is in a normal operating orientation.

A multi-position table includes a substructure for resting on a base, a superstructure pivotable between a first table position for use while sitting and a second table position for use while standing. The superstructure includes a first support associated with the first table position, the first support having a first top surface spaced a first distance from the base when the superstructure is in the first table position; a second support associated with the second table position, the second support having a second top surface spaced a second distance from the base when the superstructure is in the second table position, the second distance being different that the first distance. The table includes a locking member for locking a first and a second adjusting element together to prevent unintended movement from the first table position to the second table position or from the second table position to the first table position.

A user interface for a height adjustable table includes a memory for storing protocol information for a number of communication protocols, and an electronic processor configured to generate instructions for a controller of the height adjustable table, receive the protocol information from the memory, and generate a first instruction for the control box based one of the communication protocols included in the protocol information, and monitor for a first response from the controller. The electronic processor is further configured to determine whether the first response is an expected response based on the first instruction, generate a second instruction for the controller in response to the first response not being the expected response, and monitor for a second response from the controller. The electronic processor also determines whether the second response is the expected response and continues issuing subsequent instructions based on the second response not being the expected response.