A Support arm with brake mechanism, characterized in that: a resilient component generates a resilient force acting in opposition to gravity, such that a supporting rod can move an object steadily; and, in the course of moving the object, a brake is started as needed to brake the supporting rod and
A Support arm with brake mechanism, characterized in that: a resilient component generates a resilient force acting in opposition to gravity, such that a supporting rod can move an object steadily; and, in the course of moving the object, a brake is started as needed to brake the supporting rod and fasten the supporting rod to a predetermined position.
대표청구항▼
1. A Support arm with brake mechanism, comprising: a fixing frame;a resilient device having a mounting base, a resilient component, and an end cover, the mounting base being disposed at the fixing frame and having a first side surface, a second side surface opposing the first side surface, and a mou
1. A Support arm with brake mechanism, comprising: a fixing frame;a resilient device having a mounting base, a resilient component, and an end cover, the mounting base being disposed at the fixing frame and having a first side surface, a second side surface opposing the first side surface, and a mounting slot penetrating the first and second side surfaces, the resilient component being disposed in the mounting slot of the mounting base and having an end abutting against the first side surface of the mounting base, and the end cover being movably disposed in the mounting slot of the mounting base and abutting against another end of the resilient component;a brake having a main spindle, a casing, and a braking unit, the main spindle being fixed to the fixing frame, the casing being rotatably snugly engaged with the main spindle, and the braking unit being disposed in the casing;a supporting rod pivotally connected to the fixing frame and a peripheral surface of the casing of the brake; anda flexible component winding around the peripheral surface of the casing of the brake, having an end fixed to the peripheral surface of the casing of the brake, and having another end passing through the mounting slot of the mounting base of the resilient device and fixed to the end cover of the resilient device. 2. The Support arm with brake mechanism of claim 1, wherein the braking unit has an armature, a spring leaf, and an armature plate, the armature being snugly engaged with the main spindle and fixed to the casing, the spring leaf being fixed to the main spindle, and the armature plate being snugly engaged with the main spindle and fixed to a surface of the spring leaf, wherein the surface of the spring leaf faces the armature, wherein, if the armature is in a state of electrical disconnection, the armature plate is attracted to the armature, thereby switching the brake to a braking position, wherein, if the armature is in a state of electrical connection, the armature lets the armature plate go, thereby switching the brake to a releasing position. 3. The Support arm with brake mechanism of claim 2, wherein the armature has a yoke, a coil, and a permanent magnet, the yoke being fixed to the casing and snugly engaged with the main spindle, wherein the coil and the permanent magnet are disposed in the yoke, the brake further having a control switch electrically connected to the coil of the armature and adapted to control electrical disconnection and electrical connection of the coil, wherein the armature plate is attracted to the yoke through a magnetic force of the permanent magnet if the coil is in a state of electrical disconnection, wherein the yoke lets the armature plate go if the coil is in a state of electrical connection. 4. The Support arm with brake mechanism of claim 3, wherein the supporting rod has a first rod element, a second rod element parallel to the first rod element, and a third rod element disposed between the first and second rod elements, the first rod element having an end pivotally connected to the fixing frame through a first axle and another end pivotally connected to an end of the third rod element through a second axle, the second rod element having an end connected to the peripheral surface of the casing of the brake and another end pivotally connected to another end of the third rod element through a third axle, and the third rod element having a switch unit provided thereon with the control switch. 5. The Support arm with brake mechanism of claim 4, wherein the flexible component winds around an idle wheel rotatably snugly engaged with the first axle. 6. The Support arm with brake mechanism of claim 1, wherein the second side surface of the mounting base has a screw hole, and the resilient device further has a preload adjusting block and a preload adjusting screw, the preload adjusting block being fixed to the fixing frame and having a countersunk hole, and the preload adjusting screw being capable of idle rotation and disposed in the countersunk hole to mesh with the screw hole of the mounting base. 7. The Support arm with brake mechanism of claim 1, wherein an end of the flexible component is fixed to a fixing block, and the fixing block is fixed to the peripheral surface of the casing of the brake.
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Strter Fritz (Unterm Bamberg 1 D-5882 Meinerzhagen DEX), Adjustable copyholder with articulated arms.
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