KR101905381B1 - Hydraulic device for multi speed transmission - Google Patents

Abstract

The present invention relates to a hydraulic apparatus for a multi-stage transmission, and more particularly, to a hydraulic apparatus for a multi-stage transmission that includes a supply unit for supplying hydraulic pressure, a distributing unit for distributing the hydraulic pressure supplied from the supply unit, A first hydraulic pressure part for supplying hydraulic pressure to the first solenoid valve part and a second hydraulic pressure part for supplying hydraulic pressure to a second solenoid valve part connected to any one of the distributing parts and applying operating pressure to the second clutch part, A manual valve unit connected to the other one of the distributing units for adjusting the supply of hydraulic pressure in accordance with the lever operation; an R-step pressure unit connected to the manual valve unit for guiding the hydraulic pressure; A third D / A pressure section for supplying hydraulic pressure to a third solenoid valve section for applying an operating pressure, a D pressure section connected to the manual valve section for guiding the hydraulic pressure, and a D pressure section connected to the fourth clutch section, 4 < / RTI > A fifth hydraulic pressure part for supplying hydraulic pressure to a fifth solenoid valve part connected to the D step pressure part and applying operating pressure to the fifth clutch part, A sixth hydraulic pressure part connected to the sixth solenoid valve part for applying an operating pressure to the sixth clutch part, and a shuttle valve part connected to the R end pressure part and the D end pressure part to selectively supply the hydraulic pressure, It is possible to prevent the N-stage abnormal driving.

Description

HYDRAULIC DEVICE FOR MULTI SPEED TRANSMISSION BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a hydraulic device for a multi-stage transmission, and more particularly, to a hydraulic device for a multi-stage transmission that prevents an abnormal running at the N-th stage without adding a fail-safe valve.

Generally, the transmission is provided with a plurality of friction elements, and interlocking phenomenon occurs when the friction elements stop operating when the friction elements other than the friction elements to be operated for the speed change stage are operated abnormally. To prevent this, there is a fail-safe technique in which a friction element other than a specific friction element for implementing a gear stage prevents abnormal operation.

However, in the related art, the addition of the fail-safe valve has complicated the hydraulic circuit and increases the manufacturing cost of the valve. Therefore, there is a need to improve this.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Registration No. 10-1575436 (Registered on Dec. 12, 201, entitled " Fail-safe and multi-speed transmission hydraulic circuit capable of implementing a limp home mode.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hydraulic device for a multi-speed transmission, which prevents an abnormal traveling at a N-stage without a fail-safe valve.

A hydraulic device for a multi-speed transmission according to the present invention includes: a supply part for supplying hydraulic pressure; A distributor for distributing the hydraulic pressure supplied from the supply unit; A first hydraulic pressure part connected to any one of the distributing parts and supplying hydraulic pressure to a first solenoid valve part for applying operating pressure to the first clutch part; A second hydraulic pressure part connected to any one of the distributing parts and supplying hydraulic pressure to a second solenoid valve part for applying operating pressure to the second clutch part; A manual valve unit connected to the other one of the distributor units and adjusting the supply of hydraulic pressure in accordance with a lever operation; An R step pressure part connected to the manual valve part and guiding the hydraulic pressure; A third hydraulic pressure portion connected to the R pressure-bearing portion and providing a hydraulic pressure to a third solenoid valve portion for applying operating pressure to the third clutch portion; A D step pressure part connected to the manual valve part and guiding the hydraulic pressure; A fourth hydraulic pressure part connected to the D step pressure part and providing a hydraulic pressure to a fourth solenoid valve part applying operating pressure to the fourth clutch part; A fifth hydraulic pressure part connected to the D step pressure part and providing a hydraulic pressure to a fifth solenoid valve part applying operating pressure to the fifth clutch part; A sixth hydraulic pressure part connected to the D step pressure part and providing a hydraulic pressure to a sixth solenoid valve part applying operating pressure to the sixth clutch part; And a shuttle valve unit connected to the R pressure unit and the D pressure unit to selectively supply hydraulic pressure.

The first clutch part being operated by the hydraulic pressure provided by the first hydraulic pressure part, the second clutch part being operated by the hydraulic pressure provided by the second hydraulic pressure part, and the second clutch part operated by the third hydraulic pressure part And an R-stage is implemented by the third clutch portion which is operated by the hydraulic pressure provided to the first clutch portion.

The first clutch portion being restricted by the hydraulic pressure supplied to the R-step pressure and the D-step pressure and being operated by the hydraulic pressure provided by the first hydraulic pressure portion, and a second clutch portion operated by the hydraulic pressure provided by the second hydraulic pressure portion, And the N-th stage is implemented by the two-clutch section.

The first clutch part being operated by the hydraulic pressure provided by the first hydraulic pressure part, the second clutch part being operated by the hydraulic pressure provided by the second hydraulic pressure part, and the second clutch part operated by the second hydraulic pressure part, The fourth clutch portion being operated by the hydraulic pressure provided to the fourth hydraulic pressure portion through the D step pressure portion, and the fourth clutch portion being operated by the hydraulic pressure provided to the fifth hydraulic pressure portion And the D-th stage is implemented by the sixth clutch portion operated by the hydraulic pressure provided to the sixth hydraulic pressure portion through the D step pressure portion.

In the hydraulic device for a multi-speed transmission according to the present invention, since the manual valve portion blocks the hydraulic pressure in the N-th stage, the N-stage abnormal driving can be prevented.

In the hydraulic device for a multi-speed transmission according to the present invention, since the fail-safe valve for coping with abnormal driving is eliminated, the manufacturing cost can be reduced.

1 is a view schematically showing a hydraulic device for a multi-speed transmission according to an embodiment of the present invention.
2 is a view schematically showing a state where an R-stage is implemented through a hydraulic device for a multi-stage transmission according to an embodiment of the present invention.
3 is a view schematically showing a state where an N-stage is implemented through a hydraulic device for a multi-stage transmission according to an embodiment of the present invention.
4 is a view schematically showing a state where a D-stage is implemented through a hydraulic device for a multi-stage transmission according to an embodiment of the present invention.

Hereinafter, an embodiment of a hydraulic device for a multi-speed transmission according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. Further, terms to be described below are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a view schematically showing a hydraulic device for a multi-speed transmission according to an embodiment of the present invention. 1, a hydraulic device 1 for a multi-stage transmission according to an embodiment of the present invention includes a supply unit 10, a distribution unit 20, a plurality of hydraulic units 30, a plurality of solenoid valve units A manual brake pedal 40, a clutch portion 50, a manual valve portion 60, an R pressure portion 70, a D pressure portion 80, and a shuttle valve portion 90.

The supply section 10 provides the hydraulic pressure for operation of the transmission. As an example, the supply section 10 may be a hydraulic line.

The distributor (20) distributes the hydraulic pressure provided by the supply unit (10). The distribution unit 20 includes a first distribution unit 21 connected to a part of the hydraulic pressure unit 30 and a second distribution unit 21 connected to the rest of the hydraulic pressure unit 30 via the manual valve unit 60. [ And may include a dispensing portion 22.

The hydraulic section 30 according to an embodiment of the present invention includes first, second, third, fourth, fifth, and sixth hydraulic pressure sections 31, 32, 33, 34, 35, To guide the hydraulic pressure. The solenoid valve unit 40 includes first, second, third, fourth, fifth, and sixth solenoid valve units 41, 42, 43, 44, 45, and 46, Respectively. Thereby, the clutch portion 50 can be provided with operating pressure for control. The clutch portion 50 includes first, second, third, fourth, fifth, and sixth clutch portions 51, 52, 53, 54, 55, 56. Each of the solenoid valve portions 40, The power is supplied or disconnected by the operating pressure provided by the motor.

The first hydraulic pressure section 31 is connected to the first distribution section 21 and provides the hydraulic pressure to the first solenoid valve section 41 which applies operating pressure to the first clutch section 51. The second hydraulic pressure section 32 is connected to the first distribution section 21 and provides the hydraulic pressure to the second solenoid valve section 42 for applying the operating pressure to the second clutch section 52.

The manual valve unit 60 is connected to the second distribution unit 22 and regulates the supply of hydraulic pressure according to the operation of the lever of the driver. The manual valve unit 60 is connected to the R step pressure unit 70 and the D step pressure unit 80. The manual valve unit 60 is connected to the R step pressure unit 70 and the D step pressure unit 80, As shown in FIG.

The R step pressure portion 70 is connected to the manual valve portion 60 to guide the hydraulic pressure. The third hydraulic pressure section 33 is connected to the R pressure section 70 and provides the hydraulic pressure to the third solenoid valve section 43 for applying operating pressure to the third clutch section 53.

The D step pressure portion 80 is connected to the manual valve portion 60 to guide the hydraulic pressure. The D diaphragm 80 branches to the fourth, fifth, and sixth hydraulic pressure portions 34, 35, and 36 to provide the hydraulic pressure.

The fourth hydraulic pressure part 34 is connected to the D step pressure part 80 and supplies hydraulic pressure to the fourth solenoid valve part 44 which applies operating pressure to the fourth clutch part 54. [

The fifth hydraulic pressure part 35 is connected to the D step pressure part 80 and provides the hydraulic pressure to the fifth solenoid valve part 45 which applies operating pressure to the fifth clutch part 55. [

The sixth hydraulic pressure part 36 is connected to the D step pressure part 80 and provides the hydraulic pressure to the sixth solenoid valve part 46 which applies operating pressure to the sixth clutch part 56.

On the other hand, the shuttle valve unit 90 is connected to the R step pressure unit 70 and the D step pressure unit 80 to selectively supply the hydraulic pressure. The shuttle valve unit 90 guides the hydraulic pressure supplied from the R step pressure unit 70 to the third hydraulic pressure unit 33 or the hydraulic pressure supplied from the D step pressure unit 80 to the third hydraulic pressure unit 33, .

2 is a view schematically showing a state where an R-stage is implemented through a hydraulic device for a multi-stage transmission according to an embodiment of the present invention. Referring to FIG. 2, as the driver operates the lever at the R-stage, the hydraulic device 1 for the multi-stage transmission operates the first, second and third clutch portions 51, 52 and 53 .

That is, the hydraulic pressure that is moved through the first distributor 21 is moved to the first hydraulic pressure unit 31 and the second hydraulic pressure unit 32, respectively, and the first solenoid valve unit 41 and the second solenoid valve unit 42 reach the operating pressure in the first clutch portion 51 and the second clutch portion 52, respectively.

As the manual valve unit 60 applies the hydraulic pressure to the R step pressure unit 70, the hydraulic pressure that has passed through the second distribution unit 22 is supplied to the third hydraulic pressure unit 33 via the R step pressure unit 70, And the operating pressure reaches the third clutch portion 53 by the third solenoid valve portion 43. [

At this time, the manual valve unit 60 interrupts the hydraulic pressure flow to the D step pressure unit 80 and the shuttle valve unit 90 presses the R step pressure unit 80 and the third And the hydraulic pressure unit 33 is connected.

3 is a view schematically showing a state where an N-stage is implemented through a hydraulic device for a multi-stage transmission according to an embodiment of the present invention. Referring to FIG. 3, as the driver operates the lever in the N-th stage, the hydraulic device 1 for the multi-stage transmission operates the first and second clutch portions 51 and 52 to implement the N-th stage.

That is, the hydraulic pressure that is moved through the first distributor 21 is moved to the first hydraulic pressure unit 31 and the second hydraulic pressure unit 32, respectively, and the first solenoid valve unit 41 and the second solenoid valve unit 42 reach the operating pressure in the first clutch portion 51 and the second clutch portion 52, respectively.

Then, the manual valve unit 60 blocks the flow of the hydraulic pressure to the R step pressure unit 70 and the D step pressure unit 80.

4 is a view schematically showing a state where a D-stage is implemented through a hydraulic device for a multi-stage transmission according to an embodiment of the present invention. Referring to FIG. 4, as the driver operates the lever in the D-stage, the hydraulic device 1 for the multi-stage transmission performs the steps of D, (51, 52, 53, 54, 55, 56).

That is, the hydraulic pressure that is moved through the first distributor 21 is moved to the first hydraulic pressure unit 31 and the second hydraulic pressure unit 32, respectively, and the first solenoid valve unit 41 and the second solenoid valve unit 42 reach the operating pressure in the first clutch portion 51 and the second clutch portion 52, respectively.

As the manual valve unit 60 applies the hydraulic pressure to the D step pressure unit 80, the hydraulic pressure that has passed through the second pressure part 22 passes through the D step pressure unit 80, Fifth and sixth solenoid valve units 44, 45 and 46 to the fourth, fifth and sixth clutch units 54, 55 and 46, respectively, by the fourth, fifth and sixth solenoid valve units 44, 56).

At this time, the manual valve unit 60 interrupts the flow of the hydraulic pressure to the R step pressure unit 70, and the shuttle valve unit 90 is closed by the hydraulic pressure provided by the D step pressure unit 70, And the hydraulic pressure unit 33 is connected. A portion of the hydraulic pressure that has passed through the second distribution portion 22 is moved to the third hydraulic pressure portion 33 via the D step pressure portion 80 and the third solenoid valve portion 43 The operating pressure is reached.

In the hydraulic device 1 for a multi-stage transmission according to the embodiment of the present invention, since the manual valve unit 60 blocks the hydraulic pressure in the N-th stage, the N-stage abnormal driving can be prevented.

In the hydraulic device 1 for the multi-speed transmission according to the embodiment of the present invention, since the fail-safe valve for coping with the abnormal driving is eliminated, the manufacturing cost can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the true scope of protection of the present invention should be defined by the following claims.

10: supply part 20: distribution part
30: Hydraulic section
31, 32, 33, 34, 35, 36: first, second, third, fourth, fifth,
40: Solenoid valve section
41, 42, 43, 44, 45, 46: first, second, third, fourth, fifth, and sixth solenoid valve portions
50:
51, 52, 53, 54, 55, 56: first, second, third, fourth, fifth,
60: Manual valve part 70: R step pressure part
80: D step pressure section 90: shuttle valve section

Claims (4)

A supply part for supplying hydraulic pressure;
A distributor for distributing the hydraulic pressure supplied from the supply unit;
A first hydraulic pressure part connected to any one of the distributing parts and supplying hydraulic pressure to a first solenoid valve part for applying operating pressure to the first clutch part;
A second hydraulic pressure part connected to any one of the distributing parts and supplying hydraulic pressure to a second solenoid valve part for applying operating pressure to the second clutch part;
A manual valve unit connected to the other one of the distributor units and adjusting the supply of hydraulic pressure in accordance with a lever operation;
An R step pressure part connected to the manual valve part and guiding the hydraulic pressure;
A third hydraulic pressure portion connected to the R pressure-bearing portion and providing a hydraulic pressure to a third solenoid valve portion for applying operating pressure to the third clutch portion;
A D step pressure part connected to the manual valve part and guiding the hydraulic pressure;
A fourth hydraulic pressure part connected to the D step pressure part and providing a hydraulic pressure to a fourth solenoid valve part applying operating pressure to the fourth clutch part;
A fifth hydraulic pressure part connected to the D step pressure part and providing a hydraulic pressure to a fifth solenoid valve part applying operating pressure to the fifth clutch part;
A sixth hydraulic pressure part connected to the D step pressure part and providing a hydraulic pressure to a sixth solenoid valve part applying operating pressure to the sixth clutch part; And
And a shuttle valve part connected to the R step pressure part and the D step pressure part to selectively supply the hydraulic pressure,
The supply of hydraulic pressure to the R end pressure and the D end pressure is limited,
The first clutch portion being operated by the hydraulic pressure provided by the first hydraulic pressure portion,
And an N-th stage is implemented by the second clutch portion operated by the hydraulic pressure provided by the second hydraulic pressure portion.
The method according to claim 1,
The first clutch portion being operated by the hydraulic pressure provided by the first hydraulic pressure portion,
The second clutch portion being operated by the hydraulic pressure provided by the second hydraulic pressure portion,
And an R-stage is realized by the third clutch portion which is operated by the hydraulic pressure supplied to the third hydraulic pressure portion through the R-step pressure portion.
delete The method according to claim 1,
The first clutch portion being operated by the hydraulic pressure provided by the first hydraulic pressure portion,
The second clutch portion being operated by the hydraulic pressure provided by the second hydraulic pressure portion,
The third clutch portion being operated by the hydraulic pressure supplied to the third hydraulic pressure portion through the D step pressure portion,
The fourth clutch portion being operated by the hydraulic pressure supplied to the fourth hydraulic pressure portion through the D step pressure portion,
The fifth clutch portion being operated by hydraulic pressure supplied to the fifth hydraulic pressure portion through the D step pressure portion,
And the D-stage is implemented by the sixth clutch portion operated by the hydraulic pressure supplied to the sixth hydraulic pressure portion through the D step pressure portion.

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