A linear actuator for adjusting a piece of furniture comprises a motor having a motor shaft, a conversion arrangement coupled to the motor shaft and adapted to convert a rotational movement generated by the motor shaft into an elongation of the linear actuator, and a locking arrangement coupled directly or indirectly to the motor shaft and adapted to selectively cause rotation locking of the motor shaft by means of a locking element. The locking arrangement comprises an inner part with at least one inner chamber and an outer part radially surrounding the inner part and having at least one outer chamber. The outer part and the inner part are rotatable relative to each other in such a way that the at least one inner chamber and the at least one outer chamber can be aligned with each other. The rotation locking is activated by clamping the locking element between the at least one inner chamber and the at least one outer chamber by means of rotation of the inner part and the outer part relative to each other.

In one aspect, an active exercise chair comprises: a seat support, wherein the seat support is rigidly affixed to a top section of a shaft of a gas spring; a seat, wherein the seat is connected to the seat support; a seatback support, wherein the seatback support is pivotably connected to the seat support about a discrete pivot point; a seatback carriage, wherein the seatback carriage is slidably connected to the seatback support, wherein the seatback carriage is connected to a seatback, and wherein the seatback traverses a translational path defined by a geometry of the seatback carriage and the seatback support.

Furniture entertainment hubs are disclosed that are integrated in a piece of furniture to conveniently control the piece of furniture, while at the same time providing a convenient means of communicating with and charging a remote smart device such as a smart phone or tablet. The entertainment hubs can be in many different locations in the piece of furniture, with some embodiments embedded in an armrest with the hub having a touch screen accessible at the top surface of the armrest. The entertainment hub provides a sleek, aesthetic and easy to mechanism for controlling the chair/sofa and interfacing with remote devices. One embodiment of an entertainment hub for a seating apparatus comprising a body with a plurality of planar surfaces, wherein one of said plurality of surfaces comprises a substantially flat control panel. The control panel comprises a plurality of visual touch buttons, a remote device wireless charging pad, and a speaker. Wherein said body is arranged to be mounted in a piece of piece of furniture with most of the body embedded in said piece of furniture with said control panel being visible and accessible. The body can also have movable surfaces or features to form cup holders to hold beverages.

A reciprocating seating unit includes: a base; a frame including a generally horizontal seat and opposed arms; a backrest; a reciprocating unit attached to the base, the reciprocating unit configured to permit reciprocating longitudinal movement of the frame and backrest relative to the base; and a reclining mechanism attached to the reciprocating unit, the frame and the backrest. The reclining mechanism includes pivotally interconnected links and is configured to move the backrest between an upright position, wherein the backrest takes a first backrest angle relative to the underlying surface and the frame is positioned relative to the base in a first location, and a reclining position, wherein the backrest takes a second backrest angle that is shallower than the first backrest angle, and the frame is positioned relative to the base in a second location that is at least 3 inches in front of the first location.

A linear actuator is configured to be connected between a platform and a structure or ground for displacement of the platform relative to the structure or the ground. The actuator comprises a base, and an output displaceable linearly relative to the base. A first plurality of idlers are on the base, and a second plurality of idlers are on the output. An actuator unit has a reciprocating rotational output. A tensioning member has a first end connected to the rotational output of the actuator unit, and a second end connected to an anchor point on one of the output and the base, the tensioning member being routed from the rotational output, through the first plurality of idlers and the second plurality of idlers and to the anchor point for converting a winding/unwinding of the tensioning member into a translation of the output.

The present invention relates to a lifting column comprising at least two telescopically arranged members and a drive unit located in the hollow hereof. The drive unit comprises an electric motor, a transmission and a spindle unit with a number of spindles and at least one spindle nut. The electric motor drives the spindle unit via the transmission. The drive unit is connected to the at least two telescopically arranged members enabling a longitudinal displacement of the telescopic members, such that they are extended out of or retracted into each other depending on the direction of rotation of the electric motor. The lifting column comprises at least one supporting element attached to a spindle, where the supporting element is configured to abut the inner side of a surrounding member. Thus, a strong construction is achieved as the supporting element prevents the spindle unit from deflecting, as a horizontal force resulting from a high axial load or torque will be transferred to the members via the supporting element.

According to an aspect of some embodiments of the present disclosure there is provided a chair including a base component, a seat component connected to the base component by a central hinge, and a back-rest component connected to the seat component by a back hinge, wherein when the chair is in a sitting position, the seat component is lower than the central hinge. Related apparatus and methods are also described.

An electronic gaming system is described. The electronic gaming system includes an upper assembly including a chair and at least one sensor. The electronic gaming system also includes a lower assembly coupled to the upper assembly by a support structure wherein the lower assembly includes a centering system and wherein the centering system is configured to return the chair to a predefined home position in response to the at least one sensor of the upper assembly detecting a weight below a predefined threshold.

The device of the present invention allows a user to adjust the back of a chair to a desired reclining angle without having to physically stand up and manually adjust the back of the chair. More specifically, the tilting mechanism provides a remote control for the user to adjust the back of the chair through the touch of a button and moves the chair back from a first position to a second position as well as through a number of angles of inclination.

A computer cockpit including a cockpit body, a driving module, a sensing module and a controlling module. The cockpit body includes a seat, a backrest and a display interface all movably disposed on the cockpit body. The display interface and the backrest are respectively located at two opposite sides of the seat. The driving module and the sensing module are disposed to the cockpit body, and the sensing module is configured to provide sensing data. The sensing data includes a seat pressure sensing value and a backrest pressure sensing value. The controlling module is electrically connected to the driving module and the sensing module, and configured to send an adjusting command according to the sensing data. The driving module is configured to receive the adjusting command to synchronously rotate the seat, the backrest and the display interface to a working angle and reduce a difference between the backrest pressure sensing value and the seat pressure sensing value.