Manipulatable epicyclic type clutch device coupled with hybrid power train

摘要

The present invention provides a controllable epicyclic type clutch device coupled with hybrid power train structured by using the controllable brake device to manipulate an epicyclic gear set (EG101), in which the power train having the clutch device structured by using the controllable brake device to manipulate the epicyclic gear set (EG101) can be widely applied in a dual rotary kinetic power source or a triple rotary kinetic power source, the structural configuration includes a coaxial in-series structure or a multiple axial in-parallel structure for satisfying the requirement of applied space.

主权项

1. A controllable epicyclic clutch device coupled with a hybrid power train, comprising:
a first rotary kinetic power source (P1) constituted by at least one of an internal combustion engine, an external combustion engine, a Sterling engine, a turbine engine, a wind-driven blade power set, a flow-driven power set, and a manually driven device, and having an input/output end rotation shaft (S1011); a second rotary kinetic power source (P2) constituted by at least one of a rotary electric machine and a rotary electric machine with a transmission unit, the rotary electric machine converting input electric power into rotary mechanical kinetic energy and rotary mechanical kinetic energy into electric power, and having at least one of a first input/output end rotation shaft (S1024) and a second input/output end rotation shaft (S1025); an epicyclic gear set (EG101) including at least one epicyclic wheel (W103) an input wheel (W101), and an output wheel (W102), wherein said at least one epicyclic wheel (W103), input wheel (W101), and output wheel (W102) are bevel gears or bevel friction wheels, said at least one epicyclic wheel engaging both said input wheel (W101) and output wheel (W102); a first rotation shaft (S101) having a first end connected to and rotatable with said input wheel (W101) and a second end directly or indirectly coupled with the input/output end rotation shaft (S1011) of the first rotary kinetic power source (P1); a second rotation shaft (S102) having a first end connected to and rotatable with said output wheel (W102); a rocker arm (A101) on which said epicyclic wheel (W103) is rotatably mounted; a sleeve type rotation shaft (AS101) extending from the rocker arm (A101), said first rotation shaft (S101) extending through and rotatable relative to the sleeve type rotation shaft (AS101); a first input/output shaft (S1026) combined with the second input/output end rotation shaft (S1025) of the second rotary kinetic power source (P2) a controllable brake device (BK101) having a first side fixed to a housing (H100), wherein a second side of the controllable brake device is connected to engage or release one of the rocker arm (A101) and the sleeve type rotation shaft (AS101), thereby locking or releasing said rocker arm (A101) or sleeve type rotation shaft (AS101) to selectively enable the first rotary kinetic power source (P1) to drive the second rotary kinetic power source (P2), to enable the second rotary kinetic power source (P2) to drive the first rotary kinetic power source (P1), and/or to enable one or both of the first rotary kinetic power source (P1) and the second rotary kinetic power source (P2) to drive the first input/output shaft (S1026).