Planetary gear transmission systems or components – Fluid drive or control of planetary gearing – Fluid controlled mechanical clutch or brake
Reexamination Certificate
2001-08-08
2002-12-17
Estremsky, Sherry (Department: 3681)
Planetary gear transmission systems or components
Fluid drive or control of planetary gearing
Fluid controlled mechanical clutch or brake
C475S127000
Reexamination Certificate
active
06494802
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a hydraulic control system of an automotive automatic transmission.
2. Description of the Related Art
In an automatic transmission, gear shifting is generally performed in such a way that a transmission control unit TCU controls a plurality of solenoid valves for guiding hydraulic pressure so as to apply and release the pressure to and from specific friction elements, resulting in obtaining a target gear ratio in the transmission.
That is, if a shift lever is manipulated to indicate a target speed range, a manual valve in a hydraulic system responsively converts its ports to a corresponding speed range arrangement such that hydraulic pressure from an oil pump is distributed to expected hydraulic lines. The distributed pressure is selectively supplied to various friction elements via various valves under control of the TCU.
Thus, the shift performance of the automatic transmission is determined in accordance with how timely corresponding friction elements respond to the shift lever manipulation.
FIG. 4
shows a hydraulic circuit to be modified by adapting a hydraulic pressure control system of the present invention.
As shown in
FIG. 4
, hydraulic pressure generated by an oil pump
200
is regulated at a predetermined level by passing a regulator valve
202
and is then partially supplied to each friction element through a shift control part
204
, and is partially supplied to a damper clutch control valve
208
via a torque converter control valve
206
. Subsequently, the hydraulic pressure supplied to the damper clutch control valve
208
is fed as a damper clutch operation pressure in a torque converter TC and is partially fed as a control pressure to the shift control part
204
by being reduced via a reducing valve
210
, or to the damper clutch control valve
208
under a control of a damper clutch control solenoid valve DCCSV.
The shift control part
204
comprises various solenoid valves, shift valves, a manual valve, and friction elements.
A forward clutch FWD/C of the shift control part
204
operates at all forward speed ranges using the hydraulic pressure fed from the manual valve
212
via a forward clutch control valve
214
under control of a forward clutch solenoid valve FCCSV, and a 3-4 clutch 3-4/C and a low-reverse brake LR/B operates respectively at forward 3 and 4 speed ranges and at P, R, N, and L ranges using the hydraulic pressure fed from the manual valve
212
via a 3-4/low-reverse control valve
216
which is controlled by control pressure of a 3-4/low-reverse solenoid valve LRSV and a 3-4/low-reverse timing valve
218
which is controlled by a L range pressure from the manual valve
212
.
However, this conventional hydraulic pressure control system has a drawback in that there exist two separate solenoid valves for the damper clutch and the forward clutch so as to cause the hydraulic system and a control algorithm therein to be complicated.
Furthermore, the usage of the L range pressure as the control pressure for the 3-4/low-reverse timing valve causes a shift shock since hydraulic pressure is supplied to the low-reverse brake in a state where the pressure applied to the 3-4 clutch is completely released, when shifting the range from high speed of the D range to the L range.
SUMMARY OF THE INVENTION
The present invention has been made in an effort to solve the above problems.
It is an object of the present invention to provide a hydraulic control system of an automotive automatic transmission capable of preventing shift shocks during N-D and D-L range shift as well as simplifying a structure of the system.
To achieve the above object, a hydraulic control system of the present invention comprises a first clutch acting as an input element at first, second, and third forward speed ranges, a second clutch acting as the input element at third and fourth forward speed ranges, a third clutch acting as the input element at an R range, a fourth clutch operating at P, R, N, and L range for performing an engine brake function by stopping a one-way clutch at the first, second, and third forward speed ranges, a first brake acting as a response element at the P, R, N, and L ranges, a second brake acting as a response element at second and fourth forward speed ranges, a first switch valve for distributing hydraulic pressure controlled by a first solenoid valve to a damper clutch in a torque converter and to clutch control valves for the first clutch, and a second switch valve for distributing hydraulic pressure controlled by a second solenoid valve to the second clutch and the first brake.
REFERENCES:
patent: 5191815 (1993-03-01), Kouta
patent: 5902204 (1999-05-01), Takagi
patent: 6206802 (2001-03-01), Kim
Cho Jae-Ho
Jang Jae-Duk
Kim Tae-Kyun
Lee Chang-Wook
Lee Jin-Hee
Estremsky Sherry
Hyundai Motor Company
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