Patent ID: 9197111
Filing Date: 2015-11-24
Classification: H02K

Abstract:
1. A work output device comprising: a support base used for supporting the work output device; a main rotating shaft that is disposed horizontally over the support base and is a single-direction rotating shaft rotating in one direction over the support base; two motor rotors including a first motor rotor and a second motor rotor respectively disposed on a left side and right side of the main rotating shaft; the first motor rotor and the second motor rotor respectively control an outer transmission shaft to rotate by electric mechanism mounted therein and the outer transmission shaft rotates a half cycle in an alternating on-off manner; two support arms that are respectively disposed between the motor rotor and the main rotating shaft, and used for supporting the motor rotor so that the motor rotor rotates a half circle around the main rotating shaft up-and-down repetitively, moving between a lower position and a higher position at the circle whose radius is defined by the support arm; the support arm is arranged with a plurality of fastening holes radially corresponding to the main rotating shaft; a radial distance between the motor rotor and the main rotating shaft is able to be adjusted by the motor rotor being fastened on different fastening hole; two first speed change gear mechanisms that are respectively connected to and arranged between the outer transmission shaft of the motor rotor and the main rotating shaft and having a plurality of gears with different sizes, a start-end transmission gear connected to the outer transmission shaft of the motor rotor and a finish-end transmission gear connected to the main rotating shaft; thereby the finish-end transmission gear drives the main rotating shaft to rotate in a single direction at a low speed while the start-end transmission gear is driven by the outer transmission shaft of the motor rotor at a high speed; when a power is on, the outer transmission shaft of the motor rotor is rotated at a high speed and the main rotating shaft is rotated in the single direction at a low speed; the motor rotor is synchronously rotated a half-circle around the main rotating shaft and a radius of the circle is defined by the support arm due to connection of the gears of the first speed change mechanism; the motor rotor is rotated around the main rotating shaft from a lower position of the circle to a higher position of the circle and a first half circle rotation is completed; after the motor rotor being moved to the higher position, the outer transmission shaft of the motor rotor is switched to a power-off state to stop rotating; then the motor rotor turns back from the higher position to the lower position along a pathway of the first half circle rotation in opposite direction with help of gravity; a second speed change gear mechanism formed by a plurality of gears with different sizes, disposed between the main rotating shaft and a work output shaft and used to make the rotating main rotating shaft drive the work output shaft to rotate continuously; and the work output shaft that is connected to the main rotating shaft by the second speed change gear mechanism and is used for output work; wherein the first motor rotor is switched to a power-on state to make the outer transmission shaft thereof start rotating when the first motor rotor enters a half circle rotation of a first half cycle; by a driving force of the outer transmission shaft and connection of the gears of the first speed change gear mechanism, the first motor rotor synchronously rotates around the main rotating shaft and moves from a lower position to a higher position so as to complete the half circle rotation of the first half cycle in clockwise direction; then the first motor rotor enters a half circle rotation of the rest half cycle in counterclockwise direction; a cycle of repetitive up-and-down half circle rotation is completed; wherein when the first motor rotor enters the half circle rotation of the first half cycle in clockwise direction, the second motor is switch to a power-off state and an outer transmission shaft of the second motor stops rotating; then the second motor rotor synchronously turns back from the higher position to the lower position by gravity and connection of the gears of the first speed change gear mechanism so as to complete a half circle rotation of the rest half cycle in counterclockwise direction; next the second motor rotor enters a half circle rotation of a first half cycle in clockwise direction; a cycle of repetitive up-and-down half circle rotation is completed.