A lift force of a height adjustable assembly can be estimated using a potentiometer or other position sensor coupled to a counterbalance mechanism. The estimated lift force can be communicated to the user, e.g., presented on an electronic display, and the user can continue adjustment of the lift force, if needed, to substantially balance the lift force with the weight of the components coupled to the assembly.

A workstation including a height-adjustable work surface is described. The workstation includes a frame, and the work surface is configured to translate relative to the frame to vary a height of the work surface. A lift assembly configured to assist translation of the work surface relative to the frame. The lift assembly includes a moveable component and translation of the moveable component results in a translation of the work surface relative to the frame. A translation sensor is coupled to one of the frame or the movable component, and it is configured to measure translation of the moveable component relative to the frame. A control circuit is in communication with the translation sensor to determine an amount of translation of the work surface relative to the frame.

An apparatus for positioning an electronic display is described. The apparatus can be combined with an existing work surface to provide a multi-position workstation. In some cases, the apparatus includes a mounting portion configured to support an electronic display and a keyboard. The mounting portion may be movable with respect to the work surface between multiple positions, including for example, a sitting position and a standing position. Methods for positioning an electronic display and a keyboard are also included.

A mobile workstation comprises a wheeled base, a height-adjustable post assembly fixedly coupled to the rear end of the wheeled base, and a tray assembly fixedly coupled to the top of the post assembly. The post assembly has a four-post construction, with upper and lower vertical posts pivotally connected to a pair of linking posts. To accommodate different users, the post assembly is designed to articulate between an upper position and a lower position through a primarily vertical travel path. The four-post construction of the post assembly disperses the weight of the tray assembly, thereby reducing the manual force required to implement height adjustment. The planar, primarily vertical, travel path undertaken by the post assembly during height adjustment maintains the workstation center of gravity to a centralized location in the base, thereby minimizing the use of counterbalances to ensure stability. As a result, the workstation is lightweight and easily maneuverable.

adjustable keyboard bracket mechanism includes fixed seat provided with first axle for use as pivot and rotatable second axle; bracket set including first support with one end thereof fastened to the first axle and the second axle and the other end thereof provided with third axle, second support having one end thereof fastened to the second axle and the other end thereof provided with fourth axle and adjustment device set fastened to the third axle and the fourth axle, the adjustment device set including rotating adjustment block having two opposite sides thereof respectively provided with first friction wheels and two mating friction blocks each having inner side thereof provided with second friction wheel for fitting the first friction wheel to form the positioning or rotating adjustment status of the adjustment device set; and connecting seat assembled on the rotating adjustment block opposite to the third axle and the fourth axle.

Systems and methods for adjusting position and/or orientation of a height adjustable desk are disclosed. The system receives data from one or more sensors, comprising sit and stand periods associated with a user of the height adjustable desk. The system further calculates a physical condition profile for the user, based on a pre-configured set of rules obtained by a network-connected health application. The physical condition profile is based on the sit and stand periods associated with the user. Further, the system creates a sit and stand schedule for the user based on the calculated physical condition profile and transmits a signal to an electric motor connected with the height adjustable desk, to adjust the height of height adjustable desk according to the sit and stand schedule.

Systems and methods for adjusting position and/or orientation of a height adjustable desk are disclosed. The system receives data from one or more sensors, comprising sit and stand periods associated with a user of the height adjustable desk. The system further calculates a physical condition profile for the user, based on a pre-configured set of rules obtained by a network-connected health application. The physical condition profile is based on the sit and stand periods associated with the user. Further, the system creates a sit and stand schedule for the user based on the calculated physical condition profile and transmits a signal to an electric motor connected with the height adjustable desk, to adjust the height of height adjustable desk according to the sit and stand schedule.

Disclosed are mobile battery powered workstations, methods of operating these workstations to increase warehouse and retail efficiency (through improved order fulfillment, as a mobile shipping & receiving station, mobile inventory management, and/or as mobile powered quality analysis stations), and methods of calculating remaining battery runtime for these workstations. A mobile battery powered workstation may comprise a wheeled base having a modular battery power bay, an upper workstation having a monitor, a computer, a printer, and at least one adjustable height column coupling the wheeled base to the upper workstation. The workstation may also include a glass overlay display positioned on a top surface of the upper workstation area and configured to provide order fulfillment employees with haptic feedback on remaining battery runtime, calculated via an algorithm for increased accuracy. These workstations may be used in warehouses and retail operations for order picking and fulfillment, shipping and receiving tasks, etc.

A workcell comprises a base structure, a column having a lower part connected to the base structure and an upper part which is height-adjustable relative to the lower part. A first and a second support structure are mechanically connected to the upper part of the column via a first and a second joint element to allow axial rotation of the support structures around the column. At least one of the joint elements comprises a latching mechanism configured to block movement of the joint element with respect to the column in a normal state and to release movement of the joint element during an adjustment operation initiated by a user of the workcell.

A height adjustable platform can include a work surface, a lock rod, and can include a brake assembly. The brake assembly can be sized and shaped to receive the lock rod. The brake assembly can be adapted to couple with the work surface. The brake assembly can be adapted to selectively translate with respect to the lock rod. The brake assembly can include a first torsion spring having a first inner portion and can include a second torsion spring having a second inner portion. The first inner portion and the second inner portion can be sized and shaped to receive the lock rod. The first inner portion can selectively engage with the lock rod. The second inner portion can selectively engage with the lock rod. The brake assembly can include a locked configuration, an unlocked configuration, and can include a safety configuration.