A stand assembly for an electronic device includes a neck portion with a first end that holds and extends from the electronic device, a spine portion that is coupled via a joint structure to a second end of the neck portion, the joint structure being configured to provide a first rotational degree of freedom of the neck portion with respect to the spine portion, and one or more interconnect wires. The one or more interconnect wires include a first wire portion, a second wire portion and a third wire portion, the first wire portion being routed through an interior of the neck portion, the second wire portion being routed along a surface of the spine portion, and the third wire portion being routed though the joint structure from the surface of the spine portion to the interior of the neck portion.

A nozzle support system for a nozzle of a gas turbine includes an outer ring, an inner ring disposed within the outer ring, and a plurality of links pivotally attaching the outer ring to the inner ring. Each one of the links may have an outer end that is pivotally attached to the outer ring, and each one of the links may have an inner end that is pivotally attached to the inner ring, such that the inner ring moves along a longitudinal axis of the outer ring.

A rotatable connection for a stand apparatus to be arranged in an operating room and including an adaptable stop mechanism which can be arranged between a first connection component and a second connection component mounted rotatably around a rotational axis relative to the first connection component and is configured to define at least two different relative rotational angles of the connection components or at least two different rotational ranges is provided. A carrier system or a stand apparatus having such a rotatable connection is also provided.

A tilt mechanism for a display device support apparatus including a base member and a tilt head. The base member includes a bearing portion, a mounting portion, and a fastener recess. The tilt head includes an attachment portion and a sliding portion. The attachment portion is configured to couple the tilt head to a mounting plate, and the sliding portion engages the bearing portion. A friction member engages the tilt head and applies a friction force to the tilt head. A mounting fastener extends through a portion of the base and is connected to the friction member. The mounting fastener has a head that is positioned in the recess. The mounting fastener sets the amount of friction force on the tilt head.

A conduit support device may include a support leg that may be movably coupled to a boom arm with a vertical pivot and a horizontal pivot. The vertical pivot and horizontal pivot may be disposed between the distal end and the proximal end of the boom arm. An offset weight may be removably coupled to the boom arm. The offset weight may comprise a first end, a second end, and a center of balance, and the center of balance may be closer to the first end than to the second end. The first end may be configured to be positioned proximate to the boom arm to position the center of balance relatively closer to the boom arm, and the second end may be configured to be positioned proximate to the boom arm to position the center of balance relatively farther from the boom arm.

The invention relates to a retaining device for an instrument, comprising at least one joint having at least two parts that can be moved relative to each other and at least one drive unit associated with the joint. The drive unit is designed to move the joint by driving at least one of the parts of the joint that can be moved relative to each other. The retaining device also comprises a securing device, which has a locking mechanism associated with the joint and a release unit that can be activated, wherein the locking mechanism interacts with the release unit in such a way that the locking mechanism holds the joint in a locked position as long as the release unit is not activated. The securing device is designed to permit a motion of the joint out of the particular locked position within a specified range of motion even if the release unit is not activated. The invention further relates to a corresponding securing device for a retaining device and to an operating method for said securing device.

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 stand assembly for an electronic device includes a neck portion with a first end that holds and extends from the electronic device, a spine portion that is coupled via a joint structure to a second end of the neck portion, the joint structure being configured to provide a first rotational degree of freedom of the neck portion with respect to the spine portion, and one or more interconnect wires. The one or more interconnect wires include a first wire portion, a second wire portion and a third wire portion, the first wire portion being routed through an interior of the neck portion, the second wire portion being routed along a surface of the spine portion, and the third wire portion being routed though the joint structure from the surface of the spine portion to the interior of the neck portion.

A conduit support device may include a support leg that may be movably coupled to a boom arm with a vertical pivot and a horizontal pivot. The vertical pivot and horizontal pivot may be disposed between the distal end and the proximal end of the boom arm. An offset weight may be removably coupled to the boom arm. The offset weight may comprise a first end, a second end, and a center of balance, and the center of balance may be closer to the first end than to the second end. The first end may be configured to be positioned proximate to the boom arm to position the center of balance relatively closer to the boom arm, and the second end may be configured to be positioned proximate to the boom arm to position the center of balance relatively farther from the boom arm.

A tilt mechanism for a display device support apparatus including a base member and a tilt head. The base member includes a bearing portion, a mounting portion, and a fastener recess. The tilt head includes an attachment portion and a sliding portion. The attachment portion is configured to couple the tilt head to a mounting plate, and the sliding portion engages the bearing portion. A friction member engages the tilt head and applies a friction force to the tilt head. A mounting fastener extends through a portion of the base and is connected to the friction member. The mounting fastener has a head that is positioned in the recess. The mounting fastener sets the amount of friction force on the tilt head.