Abstract:
An adjustable lift support apparatus includes a holder, a base, a first fixed shaft, a support, a second fixed shaft, and a transmission shaft. The first fixed shaft is connected to the base and the holder, and a first gear is mounted thereon. The second fixed shaft is connected to the support and the holder, and a fourth gear is mounted thereon. The transmission shaft is rotatably mounted on the holder, and a second gear is mounted thereon meshing with the first gear and a third gear is mounted thereon meshing with the fourth gear. The support is lifted or lowered by a force to make the second gear rotate with respect to the first gear which is fixed and the third gear rotate with respect to the fourth gear, so as to adjust the height of the support and maintain an included angle between the support and the base.
Abstract:
A support structure includes a foot piece and an angle control mechanism connected to the foot piece. The angle control mechanism includes a base including an angle-locating pillar, an angle-locating plate and an angle-locating component. The angle-locating plate is pivotally connected to the base in a rotatable manner and fixed to the object. The angle-locating plate has a chute. The angle-locating pillar is disposed inside the chute for constraining a rotating range of the angle-locating plate. The angle-locating component is installed between the base and the angle-locating plate for providing friction force to fix the object and the foot piece in a specific angle while the angle-locating plate is rotating relative to the foot piece.
Abstract:
A rotatable mechanism includes a U-shaped holding seat having left and right arm, a spring unit having a limiting stem received in a reception space defined between the right arm and a protection sheath extending from the left arm toward the right arm, a control shaft extending from the left arm toward the right arm and a torsion spring sleeved the control shaft to provide a torque, and a U-shaped holding frame fastened securely to the control shaft simultaneous rotation of the holding frame together with the spring unit with respect to the holding seat.
Abstract:
A portable device capable of standing and hanging by a handle assembly thereof. The portable device includes a main body and a handle assembly. The handle assembly is connected to the main body, allowing the main body to stand on a surface when the handle assembly is spread to a limit position.
Abstract:
Dual display devices are provided. A dual display device includes a first display, a second display, a support, a rotary mechanism, and a translation mechanism. The rotary mechanism is pivotally connected to the support and coupled with the first and second displays, wherein the first and second displays are synchronously rotated with respect to the support via the rotary mechanism. The translation mechanism is movably connected to the support and coupled with the rotary mechanism, wherein the first and second displays are symmetrically moved with respect to the support via the translation mechanism.
Abstract:
A display including a base, a panel and a regulating device is disclosed. The regulating device disposed between the base and the panel comprises a first element and a second element. The first element comprises a first positioning region. The second element connected to the panel and disposed on the first element to be movably switched between a first position and a second position, comprises a second positioning region detachably disposed in the first positioning region of the first element. When the second element is positioned in the first position, the second positioning region of the second element is positioned in the first positioning region of the first element; when the second element is moved to the second position from the first position, the second positioning region of the second element is positioned in the first positioning region of the first element, wherein a distance is formed between the first and second positions.
Abstract:
The invention discloses a rotatable apparatus including a base and a main body attached thereon. The rotatable apparatus utilizes a gear cooperating with a rack to make the main body rotate and further move along the rack during the rotation of the main body, so as to prevent the main body from colliding with the base.
Abstract:
An external electronic device, coupled to a main electronic apparatus by USB, comprises a first USB connector connecting with a first USB port on the main electronic apparatus, and at least one extended USB port directly and electrically connected with the first USB connector for connecting other USB devices with the main electronic apparatus. The external electronic device may further comprise a second USB connector for coupling to a second USB port on the main electronic apparatus, and a circuit module coupled to the second connector, wherein the circuit module is powered by the main electronic apparatus via the second USB port rather than by a power cable.
Abstract:
A monitor with an adjustable angle and operating method thereof. The monitor includes a rotation component to control display angle, an OSD (On Screen Display) module, a microprocessor and a motor. The OSD module provides an interface from which a target angle can be selected, and the OSD module transmits a first control signal corresponding to the target angle to the microprocessor. The microprocessor transmits a second control signal corresponding to the first control signal to the motor. The motor drives the rotation component to automatically adjust angle of the monitor to the target angle according to the second control signal.
Abstract:
An adjustable lift support apparatus includes a holder, a base, a first fixed shaft, a support, a second fixed shaft, and a transmission shaft. The first fixed shaft is connected to the base and the holder, and a first gear is mounted thereon. The second fixed shaft is connected to the support and the holder, and a fourth gear is mounted thereon. The transmission shaft is rotatably mounted on the holder, and a second gear is mounted thereon meshing with the first gear and a third gear is mounted thereon meshing with the fourth gear. The support is lifted or lowered by a force to make the second gear rotate with respect to the first gear which is fixed and the third gear rotate with respect to the fourth gear, so as to adjust the height of the support and maintain an included angle between the support and the base.