A modular assembly is described for a power train. An assembly housing includes first and second cavities connected by an inter-cavity passage. An input shaft and an output shaft linked by a first clutch are disposed, at least in part, in the first cavity. A hydraulic control assembly provides hydra
A modular assembly is described for a power train. An assembly housing includes first and second cavities connected by an inter-cavity passage. An input shaft and an output shaft linked by a first clutch are disposed, at least in part, in the first cavity. A hydraulic control assembly provides hydraulic control signals to control, at least in part, the first clutch device. A hydraulic quill insert disposed, at least in part, in the inter-cavity passage, includes a plurality of control passages. The hydraulic quill insert receives the hydraulic control signals and directs the signals to control power flow from the input shaft to the output shaft.
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1. A modular power-train assembly comprising: an assembly housing having first and second cavities, the first and second cavities being connected by an inter-cavity passage;an input shaft disposed, at least in part, within the first cavity of the housing, the input shaft including a first gear and r
1. A modular power-train assembly comprising: an assembly housing having first and second cavities, the first and second cavities being connected by an inter-cavity passage;an input shaft disposed, at least in part, within the first cavity of the housing, the input shaft including a first gear and receiving rotational power from a power source;an output shaft disposed, at least in part, within the first cavity of the housing;a first clutch device providing a controllable power-transmission link between the input shaft and the output shaft;a hydraulic control assembly providing hydraulic control signals to control, at least in part, power flow from the input shaft to the output shaft; anda hydraulic routing system receiving hydraulic control signals from the hydraulic control assembly and directing the received hydraulic control signals to control, at least in part, power flow from the input shaft to the output shaft;wherein a high-low power-reverser countershaft with second and third clutch devices includes a first geared connection to the first gear of the input shaft, a second geared connection to the output shaft via the second clutch device, and a third geared connection to the output shaft via the third clutch device and a first idler gear;wherein a high-low countershaft with a fourth clutch device includes a fourth geared connection to the first gear of the input shaft, and a fifth geared connection to the output shaft via the fourth clutch device;wherein a power-reverser countershaft with a fifth clutch device includes a sixth geared connection to the first gear of the input shaft, and a seventh geared connection to the output shaft via the fifth clutch device and a second idler gear;wherein the assembly housing is configured to separately receive, without modification of the assembly housing, each of the high-low power-reverser countershaft, the high-low countershaft, and the power-reverser shaft; andwherein the hydraulic routing system separately directs the received hydraulic control signals, respectively, to at least one of the second and third clutch devices, to the fourth clutch device, or to the fifth clutch device, depending on whether the high-low power-reverser countershaft, the high-low countershaft, or the power-reverser countershaft is currently received by the assembly housing. 2. The modular power-train assembly of claim 1, wherein the hydraulic routing system includes a hydraulic quill insert disposed, at least in part, in the inter-cavity passage, the hydraulic quill insert including a plurality of control passages. 3. The modular power-train assembly of claim 2, wherein the high-low power-reverser countershaft includes a first set of internal flow passages in communication with the second and third clutch devices; wherein the high-low countershaft includes a second set of internal flow passages in communication with the fourth clutch device;wherein the power-reverser countershaft includes a third set of internal flow passages in communication with the fifth clutch device; andwherein the hydraulic quill insert separately directs the received hydraulic control signals, respectively and at least in part, into the first set of internal flow passages, the second set of internal flow passages, and the third set of internal flow passages. 4. The modular power-train assembly of claim 3, wherein the hydraulic quill insert includes a cylindrical body, a mounting flange, and a plurality of hydraulic input features in hydraulic communication with the hydraulic control assembly; wherein the cylindrical body includes an internal bore for separate insertion of first ends of the high-low power-reverser countershaft, the high-low countershaft, and the power-reverser countershaft; andwherein the cylindrical body further includes a plurality of sets of control passages, each set of control passages extending from the internal bore to an associated hydraulic input feature included in the plurality of hydraulic input features, whereby hydraulic control signals from the hydraulic control assembly are separately directed, respectively, from the hydraulic input features through the sets of control passages to the first, second and third sets of internal flow passages. 5. The modular power-train assembly of claim 4, wherein the plurality of hydraulic input features includes a plurality of circumferential grooves separated by a plurality of seals; and wherein each set of control passages includes a plurality of control passages extending radially from the internal bore to the circumferential groove of the associated hydraulic input feature. 6. The modular power-train assembly of claim 4, wherein a bearing for at least one of the first ends of the high-low power-reverser countershaft, the high-low countershaft, and the power-reverser countershaft seats within the inter-cavity passage against the cylindrical body. 7. The modular power-train assembly of claim 4, wherein the internal bore is a blind bore with an end wall; and wherein with first ends of the high-low power-reverser countershaft, the high-low countershaft, and the power-reverser countershaft separately inserted into the cylindrical bore, an axial gap remains between the first ends, respectively, and the end wall, the axial gap being in fluid communication with a set of control passages included in the plurality of sets of control passages. 8. A modular power-train assembly comprising: an assembly housing having first and second cavities, the first and second cavities being connected by an inter-cavity passage;an input shaft disposed, at least in part, within the first cavity of the housing, the input shaft receiving rotational power from a power source;an output shaft disposed, at least in part, within the first cavity of the housing;a first clutch device providing a controllable power-transmission link between the input shaft and the output shaft;a hydraulic control assembly providing hydraulic control signals to control, at least in part, at least the first clutch device; anda hydraulic quill insert disposed, at least in part, the inter-cavity passage, the hydraulic quill insert including a plurality of control passages, the hydraulic quill insert receiving hydraulic control signals from the hydraulic control assembly and directing the received hydraulic control signals to control, at least in part, power flow from the input shaft to the output shaft. 9. The modular power-train assembly of claim 8, wherein the input shaft includes a first gear; wherein a high-low power-reverser countershaft with second and third clutch devices includes a first geared connection to the first gear of the input shaft, a second geared connection to the output shaft via the second clutch device, and a third geared connection to the output shaft via the third clutch device and a first idler gear;wherein a high-low countershaft with a fourth clutch device includes a fourth geared connection to the first gear of the input shaft, and a fifth geared connection to the output shaft via the fourth clutch device;wherein a power-reverser countershaft with a fifth clutch device includes a sixth geared connection to the first gear of the input shaft, and a seventh geared connection to the output shaft via the fifth clutch device and a second idler gear;wherein the assembly housing is configured to separately receive, without modification of the assembly housing, each of the high-low power-reverser countershaft, the high-low countershaft, and the power-reverser shaft; andwherein the hydraulic quill insert separately directs the received hydraulic control signals, respectively, to at least one of the second and third clutch devices, to the fourth clutch device, and to the fifth clutch device, depending on whether the high-low power-reverser countershaft, the high-low countershaft, or the power-reverser countershaft is currently received by the assembly housing. 10. The modular power-train assembly of claim 9, wherein the high-low power-reverser countershaft includes a first set of internal flow passages in communication with the second and third clutch devices; wherein the high-low countershaft includes a second set of internal flow passages in communication with the fourth clutch device;wherein the power-reverser countershaft includes a third set of internal flow passages in communication with the fifth clutch device; andwherein the hydraulic quill insert separately directs the received hydraulic control signals, respectively and at least in part, into the first set of internal flow passages, the second set of internal flow passages, and the third set of internal flow passages. 11. The modular power-train assembly of claim 10, wherein the hydraulic quill insert includes a cylindrical body, a mounting flange, and a plurality of hydraulic input features in hydraulic communication with the hydraulic control assembly; wherein the cylindrical body includes an internal bore for separate insertion of first ends of the high-low power-reverser countershaft, the high-low countershaft, and the power-reverser countershaft; andwherein the cylindrical body further includes a plurality of sets of control passages, each set of control passages extending from the internal bore to an associated hydraulic input feature included in the plurality of hydraulic input features, whereby hydraulic control signals from the hydraulic control assembly are separately directed, respectively, from the hydraulic input features through the sets of control passages to the first, second and third sets of internal flow passages. 12. The modular power-train assembly of claim 11, wherein the plurality of hydraulic input features includes a plurality of circumferential grooves separated by a plurality of seals; and wherein each set of control passages includes a plurality of control passages extending radially from the internal bore to the circumferential groove of the associated hydraulic input feature. 13. The modular power-train assembly of claim 11, wherein a bearing for at least one of the first ends of the high-low power-reverser countershaft, the high-low countershaft, and the power-reverser countershaft seats within the inter-cavity passage against the cylindrical body. 14. The modular power-train assembly of claim 11, wherein the internal bore is a blind bore with an end wall; and wherein with first ends of the high-low power-reverser countershaft, the high-low countershaft, and the power-reverser countershaft separately inserted into the cylindrical bore, an axial gap remains between the first ends, respectively, and the end wall, the axial gap being in fluid communication with a set of control passages included in the plurality of sets of control passages.
Jackson Marc R. (Pickney MI) Maguire Joel M. (Dearborn MI) Diehl Thomas E. (Ann Arbor MI), Casing assembly adapted for either manual or automatic transmissions.
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