Patent ID: 8323142
Filing Date: 2012-12-04
Classification: F16H,Y10T

Abstract:
1. A multi-speed transmission comprising: a plurality of gear trains having different transmission gear ratios, each of the plurality of gear trains including a driving gear and a driven gear meshing with the driving gear; a first input shaft and a second input shaft rotatable by power of a driving source at multiple speeds changeable using the plurality of gear trains, the driving gear of each of odd-numbered gear trains among the plurality of gear trains in order of the transmission gear ratios being fixed to the first input shaft or being supported by the first input shaft, the driving gear of each of even-numbered gear trains among the plurality of gear trains in order of the transmission gear ratios being fixed to the second input shaft or being supported by the second input shaft; an output member from which the power is output; a first friction engagement mechanism capable of switching between a transferred state and a release state, the power of the driving source being transferred to the first input shaft at the transferred state, the power to the first input shaft being interrupted at the release state; a second friction engagement mechanism capable of switching between a transferred state and a release state, the power of the driving source being transferred to the second input shaft at the transferred state, the power to the second input shaft being interrupted at the release state; a first countershaft, the driven gear of each of the odd-numbered gear trains among the plurality of gear trains in order of the transmission gear ratios being fixed to the first countershaft or being supported by the first countershaft; a second countershaft, the driven gear of each of the even-numbered gear trains among the plurality of gear trains in order of the transmission gear ratios being fixed to the second countershaft or being supported by the second countershaft; a first synchromesh mechanism that selects one of the odd-numbered gear trains in order of the transmission gear ratios and that is capable of coupling the driving gear of a first selected gear train of the odd-numbered gear trains to the first input shaft or that is capable of coupling the driven gear of the first selected gear train to the first countershaft so as to enable the power to be transferred between the first input shaft and the first countershaft using the first selected gear train; a second synchromesh mechanism that selects one of the even-numbered gear trains in order of the transmission gear ratios and that is capable of coupling the driving gear of a second selected gear train of the even-numbered gear trains to the second input shaft or that is capable of coupling the driven gear of the second selected gear train to the second countershaft so as to enable the power to be transferred between the second input shaft and the second countershaft using the second selected gear train; a differential mechanism including a first rotational element, a second rotational element, and a third rotational element that are relatively rotatable, the third rotational element rotating at a rotation speed between a rotation speed of the first rotational element and a rotation speed of the second rotational element when the first rotational element and the second rotational element rotate at different speeds; a third friction engagement mechanism capable of switching between a coupled state and a release state, two rotational elements among the first rotational element, the second rotational element, and the third rotational element of the differential mechanism being coupled together at the coupled state, coupling of the two rotational elements being interrupted at the release state; and a third synchromesh mechanism disposed on the output member, wherein the first rotational element is coupled to the first countershaft, the second rotational element is coupled to the second countershaft, and the third rotational element is coupled to the output member, wherein the driven gear of a first gear train to establish a first speed among the plurality of gear trains is supported by or fixed to the output member, and wherein the third synchromesh mechanism is capable of coupling the driving gear of the first gear train to the first input shaft or is capable of coupling the driven gear of the first gear train to the output member supporting the driven gear so as to enable the power to be transferred between the first input shaft and the output member using the first gear train.