Vehicle driving mechanism having a synchromesh gearbox with an additional clutch in each of two power branches
First Claim
Patent Images
1. A mechanism for driving motor vehicles comprising:
- a synchromesh gearbox, with fixed gears, idler gears and synchronized shift clutches forming two power branches;
each power branch has on a first shaft at least two fixed gears and on a second shaft at least two idler gears and at least two synchronized shift clutches;
each power branch contains one wet friction clutch and at least two non-consecutive speeds;
in each speed, power flows via a gear set formed by a fixed gear and an idler gear, via a synchronized shift clutch and a friction clutch;
said friction clutch is a disc clutch with inner discs and outer discs;
a cooling oil flows from a bore in one shaft and cools said inner and outer discs;
a switch piston and a cylinder housing form actuation means having an annular chamber;
fluid pressure in said chamber pushes said switch piston axially against said inner discs and said outer discs and engages said friction clutch; and
return springs disengage said friction clutch;
the improvement comprising;
said switch piston (39 or
139), with an axial extension (48 or
148), forms a sliding sleeve of a piston valve (3, 48, or 3,
148) for controlling the flow of the cooling oil to the inner discs (12 or
112) and outer discs (8 or
108);
said switch piston (39 or
139) shuts off the cooling oil flow when said friction clutch (2 or
102) is disengaged or almost completely disengaged and supplies cooling oil flow almost immediately after said switch piston (39 or
139) begins to engage said friction clutch (2 or
102) and, upon engagement, a large amount of cooling oil flows through radial grooves in said inner discs (12 or
112);
an inner disc carrier (9 or
109) for said inner discs (12 or
112) is situated axially, for common rotation, between said cylinder housing (35) having a radial annular chamber (56 or
156) and a compensating cylinder (14 or
114) having a compensating piston (17 or
117);
a compression spring (20 or
120), axially situated between said inner disc carrier (9 or
109) and said switch piston (39 or
139) forms a weak return spring and a prestressed cup spring (19 or
119) axially situated between said compensating cylinder (14 or
114) and said compensating piston (17 or
117), forms a strong return spring for disengaging said friction clutch (2 or
102);
pins (23 or
123) in bores (24 or
124) of said inner disc carrier (9 or
109), situated axially between said compensating piston (17 or
117) and said switch piston (39 or
139), transmit axial force to and from said compensating piston (17 or
117) and said switch piston (39 or
139);
said pins (23 or
123) being active only during the beginning of disengagement and during the end of engagement of said friction clutch (2 or
102);
wherein said friction clutch (2 or
102) also serves to start up the motor vehicle and said return springs having a maximum force of 5% to 20% of a maximum force of said switch piston (39 or
139).
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Accused Products
Abstract
In a mechanism for driving motor vehicles having a synchromesh gearbox with a friction clutch for each of two power branches with at least four power shiftable speeds and consecutive speeds are alternatively present on each one of the two power branches. Each friction clutch is a wet disc clutch with its inner discs having continuous radial grooves for a cooling oil flow supplied from a bore in a shaft. A switch piston shuts off the flow of cooling oil when the friction clutch is disengaged or almost completely disengaged. A prestressed cup spring in a compensating cylinder serves as a strong return spring thereby accelerating disengagement or delaying engagement of the friction clutch. Corrugated spring rings, axially situated between the inner discs and radially within the outer discs, serve as additional return springs. The wet clutch operates as a dry clutch and only has a low torque when it is disengaged. A large flow of cooling oil flows to the friction clutch and cools it as it engages and when it is engaged. The wet friction clutch replaces a conventional dry friction clutch, especially when starting up the motor vehicle.
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Citations
7 Claims
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1. A mechanism for driving motor vehicles comprising:
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a synchromesh gearbox, with fixed gears, idler gears and synchronized shift clutches forming two power branches; each power branch has on a first shaft at least two fixed gears and on a second shaft at least two idler gears and at least two synchronized shift clutches; each power branch contains one wet friction clutch and at least two non-consecutive speeds; in each speed, power flows via a gear set formed by a fixed gear and an idler gear, via a synchronized shift clutch and a friction clutch; said friction clutch is a disc clutch with inner discs and outer discs; a cooling oil flows from a bore in one shaft and cools said inner and outer discs; a switch piston and a cylinder housing form actuation means having an annular chamber; fluid pressure in said chamber pushes said switch piston axially against said inner discs and said outer discs and engages said friction clutch; and return springs disengage said friction clutch;
the improvement comprising;said switch piston (39 or
139), with an axial extension (48 or
148), forms a sliding sleeve of a piston valve (3, 48, or 3,
148) for controlling the flow of the cooling oil to the inner discs (12 or
112) and outer discs (8 or
108);said switch piston (39 or
139) shuts off the cooling oil flow when said friction clutch (2 or
102) is disengaged or almost completely disengaged and supplies cooling oil flow almost immediately after said switch piston (39 or
139) begins to engage said friction clutch (2 or
102) and, upon engagement, a large amount of cooling oil flows through radial grooves in said inner discs (12 or
112);an inner disc carrier (9 or
109) for said inner discs (12 or
112) is situated axially, for common rotation, between said cylinder housing (35) having a radial annular chamber (56 or
156) and a compensating cylinder (14 or
114) having a compensating piston (17 or
117);a compression spring (20 or
120), axially situated between said inner disc carrier (9 or
109) and said switch piston (39 or
139) forms a weak return spring and a prestressed cup spring (19 or
119) axially situated between said compensating cylinder (14 or
114) and said compensating piston (17 or
117), forms a strong return spring for disengaging said friction clutch (2 or
102);pins (23 or
123) in bores (24 or
124) of said inner disc carrier (9 or
109), situated axially between said compensating piston (17 or
117) and said switch piston (39 or
139), transmit axial force to and from said compensating piston (17 or
117) and said switch piston (39 or
139);said pins (23 or
123) being active only during the beginning of disengagement and during the end of engagement of said friction clutch (2 or
102);wherein said friction clutch (2 or
102) also serves to start up the motor vehicle and said return springs having a maximum force of 5% to 20% of a maximum force of said switch piston (39 or
139). - View Dependent Claims (2, 3, 4, 5)
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6. A mechanism for driving motor vehicles comprising:
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a synchromesh gearbox, with fixed gears, idler gears and synchronized shift clutches forming two power branches; each power branch has on a first shaft at least two fixed gears and on a second shaft at least two idler gears and at least two synchronized shift clutches; each power branch contains one wet friction clutch and at least two non-consecutive speeds; in each speed, power flows via a gear set formed by a fixed gear and an idler gear, via a synchronized shift clutch and a friction clutch; said friction clutch is a disc clutch with inner discs and outer discs; a cooling oil flows from a bore in one shaft and cools said inner and outer discs; a switch piston and a cylinder housing form actuation means having an annular chamber; fluid pressure in said chamber pushes said switch piston axially against said inner discs and said outer discs and engages said friction clutch; and return springs disengage said friction clutch;
the improvement comprising;said switch piston (39 or
139), with an axial extension (48 or
148), forms a sliding sleeve of a piston valve (3, 48, or 3,
148) for controlling the flow of the cooling oil to the inner discs (12 or
112) and outer discs (8 or
108);said switch piston (39 or
139) shuts off the cooling oil flow when said friction clutch (2 or
102) is disengaged or almost completely disengaged and supplies cooling oil flow almost immediately after said switch piston (39 or
139) beings to engage said friction clutch (2 or
102) and, upon engagement, a large amount of cooling oil flows through radial grooves in said inner discs (12 or
112); andan inner disc carrier (9 or
109) for said inner disc (12 or
112) is situated axially, for common rotation, between said cylinder housing (35) having a radial annular chamber (56 or
156) and a compensating cylinder (14 or
114) having a compensating piston (17 or
117). - View Dependent Claims (7)
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Specification
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Current AssigneeZahnradfabrik Friedrichshafen AG (Zeppelin - Stiftung der Stadt Friedrichshafen)
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Original AssigneeZahnradfabrik Friedrichshafen AG (Zeppelin - Stiftung der Stadt Friedrichshafen)
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InventorsSailer, Hubert, Muller, Franz, Simon, Herbert, Baur, Erwin
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Primary Examiner(s)Bonck, Rodney H.
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Assistant Examiner(s)Lorence, Richard M.
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Application NumberUS07/069,326Time in Patent Office677 DaysField of Search192/48.91, 192/70.12, 192/70.28, 192/85 AA, 192/87.14, 192/87.15, 192/87.16, 192/87.17, 192/106 F, 192/113 B, 74/330, 74/333, 74/357, 74/359, 74/362, 74/363, 74/375US Class Current74/330CPC Class CodesF16D 25/0638 with more than two discs, e...F16D 25/10 Clutch systems with a plura...F16D 25/12 Details not specific to one...F16D 25/123 in view of cooling and lubr...F16H 3/006 power being selectively tra...Y10T 74/19228 Multiple concentric clutch ...Y10T 74/19391 ProgressiveY10T 74/194 Selective
