A mounting device includes a first mount portion and a second mount portion. The first mount portion is in communication with a first pin extending along a first axis. The second mount portion is in communication with a pair of opposing second pins extending along a second axis different than the first axis. The second pins are in rotational communication with and extend outward from the first pin. The first and second mount portions are configured to translate along the first and second axes and rotate about the first and second axes with respect to one another.

A device for deploying and pointing an equipment item is disclosed including a mobile platform for receiving the equipment item, a carrier integrally secured to a wall of a spacecraft, and three identical linear actuators which connect the carrier to the mobile platform and are suitable for moving the platform in translation along one axis and for orienting the platform in rotation about two axes. Each linear actuator including a first portion connected to the platform by a universal joint, a second portion connected to the carrier by a pivot connection, a motor, and a screw/nut joint interconnecting the two portions, each universal joint being suitable for preventing the screw/nut joint from rotating about the axis, such that driving the motor causes a translational movement between the first and the second portion.

A self-balancing vibration damping system, an active vibration damping seat, and transport equipment are provided. The self-balancing vibration damping system includes an active vibration damping module, a control module, a sensor module, and a receiving module, where the sensor module is configured to acquire motion data of the transport equipment; the active vibration damping module includes a first rotating assembly and a second rotating assembly; the first rotating assembly is provided in an accommodation space; the second rotating assembly is provided at a driving end of the first rotating assembly, and is butted with the receiving module; the control module is configured to control the first rotating assembly and the second rotating assembly to operate synchronously according to the motion data, so as to provide a force opposite to a tilt direction of the receiving module.

A mounting device for a display device includes a driving plate, which includes: a first surface and a second surface opposite to the first surface and configured to move integrally with the display device when the display device is attached to the first surface, a body plate disposed in parallel with the driving plate to contact at least a portion of the second surface of the driving plate and which includes a slide lock configured to restrict a linear movement of the driving plate, and a stand plate disposed on a surface opposite to a surface of the body plate coupled to the driving plate. The slide lock may remain locked in a ground mode in which the body plate and the stand plate overlap each other, and may be unlocked in a stand mode in which the body plate and the stand plate are spaced apart from each other.

Disclosed is a stage system comprising at least one flexure frame having a fixed center and movable distal ends configured to displace a tabletop operatively connected thereto along at least one axis of movement and at least two actuators comprising a first actuator and a second actuator positioned within the at least one flexure frame. The first actuator is positioned within the at least one flexure frame at a first angle of deflection from at least one beam of the at least one flexure frame and the second actuator is positioned within the at least one flexure frame at a second angle of deflection from the at least one beam. The at least two actuators are configured to produce a compensating displacement to offset yaw error as the at least two actuators expand from a contracted first position to an expanded second position.

A hydraulic pivot system for a hydraulic lifting column has a central pivot system head, an inner frame, an outer frame and a hydraulic cylinder device. The inner frame is mounted on the pivot system head by the hydraulic cylinder device so as to be pivotable about a first pivot axis. The pivot system head is disposed axially within the inner frame as seen along the first pivot axis. The outer frame is pivotally mounted to the inner frame so as to be pivotable about a second pivot axis by the hydraulic cylinder device. A hydraulic lifting column with a hydraulic pivot system is also provided.

A short throw projector mount enabling a finely tuned distance adjustment and/or finely tuned height adjustment of an attached projector. The mount includes a wall interface, a projector positioning head, and an elongate arm operably coupling the wall interface and the projector positioning head. A first end of the arm is coupled to the wall interface, and the projector positioning head is operably coupled proximate an opposing second end of the arm such that the projector positioning head is shiftable along a longitudinal axis of the arm. The arm further includes a positioning mechanism arranged to selectively drive shifting of the projector positioning head. A vertical positioning mechanism may be provided to shift the projector vertically relative to the wall interface.

A supporting device for supporting a display is provided. The supporting device includes an upright, a bearing slider, an actuating module, a driving module, and a control module. The upright includes a column body and a receiving space. The bearing slider is slidably disposed in the receiving space. The actuating module includes a screw rod and a screwing element, the screw rod is pivoted to the upright along a first axis and inserted to the screwing element, and the screwing element is disposed on the bearing slider and screws with the screw rod. The driving module is connected to the actuating module and drives the screw rod to rotate about the first axis. The control module controls the driving module to drive the screw rod to rotate to make the screwing element and the bearing slider move between a highest position and a lowest position along the first axis.

A supporting apparatus for suspending two displays includes: a base seat unit including a fixing bracket and a pillar that is connected to the fixing bracket; two suspending arms, each having a first end portion that is movably connected to the pillar unit such that each of the suspending arms is movable along the pillar, and a second end portion that is opposite to the first end portion; two slide track units respectively connected to the second end portions of the suspending arms; and two display-supporting bracket units movably connected to the slide track units for mounting the displays. Through operation of the suspending arms, the sliding track units and the display-supporting bracket units, the displays can be moved to juxtapose and contact each other.

The present application discloses an articulating support arm with improved friction joint designs that are facilitated by the use of a non-annular bushing. In particular, the bushing is designed to interact with another portion of the friction joint to prevent rotational movement of the bushing, thereby minimizing the risk of joint malfunction. A bushing that interacts with a larger percentage of the width of a friction cylinder as compared to prior art devices, thereby improving the performance of the joint, is also disclosed. The improved friction joint according to the present invention may comprise an arm joint and/or tilter joint.