An apparatus includes a head portion, an undercarriage portion, and a telescopic portion configured to adjustably move into a plurality of different lengths. A first end of the head portion is rotatably attached to a first end of the undercarriage portion and a second end of the undercarriage portion is rotatably attached to a first end of the telescopic portion. A second end of the head portion is rotatably attached to a second end of the telescopic portion. In a first position, the telescopic portion has a first length of the plurality of different lengths and the head portion and the undercarriage portion form a first angle. In a second position, the telescopic portion has a second length of the plurality of different lengths and the head portion and the undercarriage portion form a second angle different from the first angle.

A shouldering type photographing support is provided, comprising a main frame for coupling components, on which at least one connecting base for fixing a lens or camera is provided; a shouldering assembly connected to the main frame, wherein the shouldering assembly being provided on a side of one end of the main frame and not in the same axis as the connecting base, and the shouldering assembly being located in the left rear or right rear of the at least one connecting base; and a supporting assembly connected to the main frame, wherein the supporting assembly comprises a chest-supporting assembly, arm-supporting assembly, handheld assembly and supporting leg assembly, the shouldering assembly and the supporting assembly together provide supporting at multiple points for the main frame.

Method and system allowing more accurate detection and identification of unwanted arcing include novel processing of signal voltage representing recovered power-line current. In one implementation, arc-faults are detected based on numerical analysis where individual cycles of line voltage and current are observed and data collected during each cycle is processed to estimate likelihood of presence of arc-event within each individual cycle based on pre-defined number of arc-events occurring within pre-defined number of contiguous cycles. In another implementation, fast transient current spikes detection can be done by: computing difference values between consecutive line-current samples collected over a cycle, average of differences, and peak-to-peak value of line-current; comparing each difference value to average of difference; comparing each difference value to peak-to-peak value; and, based on calculation of composite of two comparisons, using thresholds to determine if arcing is present within processed cycle.

The invention relates to a device for parts of any shape, thickness and weight that are frontally placed on horizontal, vertical or sloped surfaces. The elements of the device include a perforated U-shaped part joined to the part to be suspended, the U-shaped part being connected to suspending elements and a front hanging body; a shaft, a sleeve that moves on the shaft and which has free passages for receiving the suspension elements and a hollow recess for coupling the central hanging body; and a locking component for preventing the sleeve from moving on the shaft. Advantageously, the configuration of the elements forming the device of the invention enables the suspension means to be received and locked on the sleeve of the shaft, providing a secure means that prevents a suspended plate from being manipulated.

A suspension arm assembly including at least three horizontally aligned members relatively rotatable about each other. Each adjacent pair of members are connected to each other by a joint. At least one conduit extends along the at least three horizontally aligned members, with the at least one conduit being routed horizontally along the horizontally aligned members and not being located within a periphery of the at least three horizontally aligned members.

An information handling system kickstand hinge with a minimum profile transitions a kickstand between extended and retract positions with a first axle of a stand member that slides between forward and rear positions within guides or a rail housing and a second axle of the stand member that couples to the rail housing with riser arms disposed on opposing sides of the stand member. A first torque engine integrated in the riser housing resists sliding motion of a torque member engages with the first axle. A second torque engine integrated in the stand member resists rotation about the second axle. A spring aligned with the torque member biases the stand member towards the extended position to aid in extension of the kickstand from the retracted position.

A photovoltaic system includes a collection of photovoltaic modules, a base supporting the collection of photovoltaic modules, and a damper coupled between the collection of photovoltaic modules and the base. The damper resists movement of the photovoltaic modules relative to the base. The damper has a first damping ratio when the collection of photovoltaic modules moves at a first rate relative to the base and a second damping ratio when the collection of photovoltaic modules moves at a second rate relative to the base, and the damper passively transitions from the first damping ratio to the second damping ratio.

A multi-dimensional microphone stand includes a first rotational module, a first rotational arm, a second rotational module, a second rotational arm, and a third rotational module. The first rotational arm is connected to the first rotational module, and the second rotational module is connected to the first rotational arm, and the first rotational module is rotatable relative to the second rotational module. The second rotational arm is connected to the second rotational module, the third rotational module is connected to the second rotational arm, and the second rotational module is rotatable relative to the third rotational module. In addition, in a folded state, the first rotational arm and the second rotational arm are arranged side by side and connected to the second rotational module in parallel.

A handheld gimbal includes a handle and a gimbal. The gimbal is connected to the handle and includes at least two shaft assemblies. The at least two shaft assemblies are rotatably connected to each other. Each of the at least two shaft assemblies includes a motor. The motors of the at least two shaft assemblies are arranged one over another along a same straight line when the gimbal is in a folded state. The motors of the at least two shaft assemblies are arranged separately when the gimbal is in an unfolded state.

A support apparatus includes: a first support member; a second support member rotatably connected to the first support member and capable of rotating within a first angle range starting from a position where the first support member is located; and a third support member rotatably connected to the second support member and capable of, after the second support member rotates to a maximum angle thereof, continuing to rotate in a direction in which the second support member rotates within a second angle range starting from a position where the second support member is located. The second angle range is greater than or equal to the first angle range.