The description relates to devices, such as computing devices having displays that can be rotated through a range of travel. The device can counter-balance the display to create a near weightless feel for the user when repositioning the display.

The description relates to devices, such as computing devices having displays that can be rotated through a range of travel. The device can counter-balance the display to create a near weightless feel for the user when repositioning the display.

The description relates to devices, such as computing devices having displays that can be rotated through a range of travel. The device can counter-balance the display to create a near weightless feel for the user when repositioning the display.

A stand includes first to fourth links, first to fourth joints, a front link, first to fifth extension links, and first to fourth extension joints. The first to fourth links are arranged in a parallelogram configuration, wherein the first and third links are arranged on opposite sides and the second and fourth joints are arranged in a diagonal direction. The front link extends from the first link. The first extension link is rotatably connected to the second joint. The second extension link is rotatably connected to the first extension joint. The third extension link is rotatably connected to the second extension joint. The fourth extension link is arranged between the third extension joint and the fourth extension joint. The fifth extension link is arranged between the first joint and the second extension joint. The first, fourth, and fifth extension links are in parallel with one another.

A load balancing arm for a medical device support system. The load balancing arm includes a proximal hub, an adjustable bearing element, a support arm, a spring and a link. A distal end of the support arm is configured to support a medical device load and a proximal end is pivotably mounted to a main bearing element for pivotable movement about a main pivot axis. The spring extends within a cavity of the support arm and is mounted to exert a biasing force between the main pivot axis and a distal end of the spring. The link has a proximal end pivotably mounted to the adjustable bearing element for pivotable movement about an adjustable pivot axis, and a distal end pivotably mounted to the distal end of the spring such that the biasing force exerted by the spring is transmitted through the link to the adjustable bearing element.

An assembly composing of a robust articulating armature with optionally interchangeable platform like components which incorporate and adapts the core armature assembly into a multitude of product configurations each having ergonomic benefits. The core articulating armature is configured to be a variably lift assisted and repositionable in a manner when combined with the other elements, configures to become a device with demonstrably beneficial features in each of its configurations. In some of the configurations, lift assistance and positional support is the primary feature, whereas in other configurations, flexing and returning back to a user designated set position becomes the primary feature. This application discloses a device with the flexibility to be configured in such a manner as to bring benefits to both the consumer and to the manufacture due to its uniquely modular and configurable elements which can be utilized to create a multitude of ergonomic product configurations.

The present disclosure provides a method for controlling a gimbal, implemented by a gimbal controller. The gimbal includes a gimbal assembly connected to the gimbal controller, the gimbal assembly being configured to mount an imaging device and drive the imaging device to rotate to adjust an imaging direction of the imaging device. The method includes determining whether the gimbal has entered a preset mode; and controlling rotation of the gimbal assembly to stabilize the imaging direction of the imaging device at a first balance direction when the gimbal enters the preset mode, and controlling a movement of the gimbal assembly such that the imaging direction of the imaging device is within a first cone angle range with the first balance direction as an axis before the gimbal exiting the preset mode.

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.

The present disclosure provides a hand-held three-dimensional panoramic pan-tilt kit, comprising a hand-held portion, a first motor, a second motor and a third motor that are perpendicular to each other in spatial positions, the first motor is located at a top end of the hand held portion, a first connecting arm is connected to the first motor, the other end of the first connecting arm is connected to the second motor, a second connecting arm is connected to the second motor, the other end of the second connecting arm is connected to the third motor, the third motor is fixedly connected with a connecting member, a front end of the connecting member is connected with a holding member, a first slip ring is arranged between a rotating shaft of the first motor and the first connecting arm, a second slip ring is arranged between a rotating shaft of the second motor and the second connecting arm , a third slip ring is arranged between a rotating shaft of the third motor and the connecting member. By using the slip rings, the present invention ensures 360-degree rotation of the first connecting arm, the second connecting arm and the connecting member during use of the pan-tilt kit, enables the pan-tilt kit to be suitable for a variety of shooting conditions and scenes, thus utilization ratio of the pan-tilt kit is significantly increased and consumers' demand for use is satisfied.