An electric height-adjustable desk is provided which comprises a desk board body comprising a desk board, and a frame disposed at the bottom of the desk board, and the desk board and the frame are connected to integrally form the desk board body; a lifting assembly, connected to the bottom of the desk board body, and comprising a transmission rod, two lifting columns and one drive motor, wherein the drive motor is in transmission connection with the two lifting columns through the transmission rod to drive the two lifting columns to ascend and descend; the transmission rod, the two lifting columns and the drive motor are connected to integrally form the lifting assembly; a base, connected to lower ends of the two lifting columns; a groove for embedding the transmission rod is disposed at the bottom of the frame of the desk board body; a manual controller and a human-machine interaction interface of the manual controller is disposed at an outer side wall of the desk board body. The electric height-adjustable desk provided makes the space under the desk board increased to allow users to place legs freely and help users to avoid touching the desk, while being simple in structure and fast in assembly, the manual controller is not easy to be accidentally touched by users to ensure high safety.

A desk (10, 10a, 10b) having a top section (14) including a central hole (12) wherein a user of the desk may sit and a gap (26) where they may enter. The top section has multiple sub-sections (20a-c) that assemble so the top section is substantially round and forms a top side whereupon objects may be placed on the desk. A central section (16) includes multiple uprights (30, 54) each having one or more wheels (46, 58) upon which the top section rotatably rests when the desk is assembled.

A desk (10, 10a, 10b) having a top section (14) including a central hole (12) wherein a user of the desk may sit and a gap (26) where they may enter. The top section has multiple sub-sections (20a-c) that assemble so the top section is substantially round and forms a top side whereupon objects may be placed on the desk. A central section (16) includes multiple uprights (30, 54) each having one or more wheels (46, 58) upon which the top section rotatably rests when the desk is assembled.

A rotary support includes a rotating member, a supporting member, an upper wire, a lower wire and a mounting base, the supporting member is held in the mounting base, the rotating member is inserted into the mounting base and rotatable relative to the supporting member, the upper wire is received in the rotating member and provided with an upper connector, the lower wire is received in the supporting member and provided with a lower connector, the upper connector and the lower connector is provided with a conductive recess and a conductive pin that are engaged one another. The upper wire can be freely rotated relative to the lower wire, thus the wires may not be damaged during the rotation of the table, and the rotation may not restricted by the wires. The connectors of the wires may be connected automatically to simplify the installation of the table.

A rotary support includes a rotating member, a supporting member, an upper wire, a lower wire and a mounting base, the supporting member is held in the mounting base, the rotating member is inserted into the mounting base and rotatable relative to the supporting member, the upper wire is received in the rotating member and provided with an upper connector, the lower wire is received in the supporting member and provided with a lower connector, the upper connector and the lower connector is provided with a conductive recess and a conductive pin that are engaged one another. The upper wire can be freely rotated relative to the lower wire, thus the wires may not be damaged during the rotation of the table, and the rotation may not restricted by the wires. The connectors of the wires may be connected automatically to simplify the installation of the table.

A table device including: a first base including a first reference surface; a second base including a second reference surface, and movable on the first reference surface in a direction parallel to a first axis; a first bearing member provided to the second base, and forming a gas bearing between the first bearing member and the first reference surface; a second bearing member provided to the second base, apart from the first bearing member relative to a direction parallel to a second axis perpendicular to the first axis, and forming a gas bearing between the second bearing member and the first reference surface; and a table movable on the second reference surface. A distance between the first bearing member and the second bearing member is longer than a dimension of a moving range of the table relative to the direction parallel to the second axis.

A surgical item counting station for providing organization and efficiency in counting items and communicating information. The surgical item counting station comprises a top plate having a diameter forming a table top surface and being adjacent and perpendicular to a display screen mounted on an adjustable column mounted on a base terminating at feet. The display screen is adapted to receive and display information about at least one item and general communications. A shelf having a substantially equal diameter to the top plate and being located below and in parallel to the top plate is provided. The shelf includes shelf side walls with a mounting means adapted for mounting at least one container device below the top plate. Preferably the container device is a sponge count bag. Preferably the shelf is a rotational shelf while the top plate or table top is non-rotational.

A reconfigurable work station includes a work surface supported atop a pedestal and base. A linkage arm is affixed to the base or pedestal at a first end and pivotally connected to a fixed member at a second end. The work station can pivot, with the linkage arm, about the fixed member to be selectively positioned in multiple positions. The pedestal may be height adjustable and the work surface may be rotatable atop the pedestal. Alternatively, the work station can include two pedestals and the linkage arm can be rotatably connected to one of the pedestals to rotate the work station, as well as to pivot the work station about the fixed member. A work space includes the work station and at least one wall panel, and a work space system includes multiple work spaces. Work stations within respective work spaces can be selectively positioned in focused or collaborative configurations.

A reconfigurable work station includes a work surface supported atop a pedestal and base. A linkage arm is affixed to the base or pedestal at a first end and pivotally connected to a fixed member at a second end. The work station can pivot, with the linkage arm, about the fixed member to be selectively positioned in multiple positions. The pedestal may be height adjustable and the work surface may be rotatable atop the pedestal. Alternatively, the work station can include two pedestals and the linkage arm can be rotatably connected to one of the pedestals to rotate the work station, as well as to pivot the work station about the fixed member. A work space includes the work station and at least one wall panel, and a work space system includes multiple work spaces. Work stations within respective work spaces can be selectively positioned in focused or collaborative configurations.

Systems and methods are disclosed for moving a tabletop of a workstation based on biometric input associated with a user, the method being performed by a controller that is configured to send control signals to actuators to move the tabletop. One method includes: accessing a user profile associated with a user device; determining parameters for moving the tabletop, based on the user profile, for eliciting desired biometric inputs from the workstation user at one or more times during the movement of the tabletop; and repeating one or more iterations of: moving the tabletop based on the parameters, by sending control signals to the actuators of the tabletop; receiving, into a data storage device, actual biometric inputs from the workstation user; comparing the received actual biometric inputs with the desired biometric inputs; and if the parameters do not elicit the desired biometric inputs, adjusting the parameters.