DE102011077552A1 - Hydraulic arrangement for hydraulic fluid supply in components of gearbox of vehicle, has coupling device for coupling of auxiliary pump device at output of gearbox, where starting device is provided for opening hydraulic fluid supply - Google Patents

Abstract

The hydraulic arrangement has a coupling device (7) for coupling of auxiliary pump device (3) at an output of gearbox. A starting device is provided for opening a hydraulic fluid supply of the auxiliary pump device. The auxiliary pump device is coupled with the output. The coupling device or the starting device is controlled in non-driven main pump device (2) in dependence of supply pressure (p-V) in primary hydraulic circuit (4) or in dependence of lubrication pressure (p-S) in secondary hydraulic circuit (5).

Description

The present invention relates to a hydraulic system for a hydraulic fluid supply of components of a transmission of a vehicle according to the closer defined in the preamble of claim 1. Art.

For example, from the document DE 10 2008 043 734 A1 For example, there is known a transmission apparatus with a hydraulic system having a transmission main pump device for supplying hydraulic fluid to various transmission components. The hydraulic system is designed with a transmission input side arranged main pump device which is drivable via a voltage applied to the transmission input shaft torque. In order to provide the hydraulic system in the non-driven state of the transmission input shaft and thereby also non-driven main transmission pump means with hydraulic fluid, the hydraulic system is equipped with an additional pump means via which the hydraulic system can also be supplied with hydraulic fluid, since the auxiliary pump means via a on the transmission output shaft applied torque is driven and thus driven even when the drive motor is switched off.

A disadvantage of permanently driven auxiliary pumping devices are the drag moments that occur, which increase the consumption. A disadvantage of the use of electrically driven auxiliary pumping devices are the high production costs. Therefore, it is provided in the known transmission device that the auxiliary pump device is switched in response to an actuating pressure of a transmission component. However, it has been shown that the connection in dependence of the operating pressure of a transmission component due to the significantly fluctuating pressure levels does not ensure sufficient reliability for the hydraulic fluid supply.

The present invention is based on the object to propose a hydraulic system for a transmission of the type described above, which ensures improved reliability in a hydraulic medium shortage supply.

This object is achieved by the features of claim 1. Further advantageous embodiments will become apparent from the dependent claims and the drawings.

Accordingly, a hydraulic arrangement for the hydraulic fluid supply of transmission components, for example, an automatic transmission of a vehicle with a drive-side driven main pump means and a driven side driven auxiliary pump device proposed. With the two pumps, both a primary hydraulic circuit and a secondary hydraulic circuit are supplied with hydraulic fluid in order to supply hydraulic components to transmission components connected to the hydraulic circuits. According to the invention it is provided that a coupling device for mechanical or hydraulic or electrical connection of the auxiliary pump device provided to the output of the transmission. It may also be provided that a switch-on device is used for connecting or opening a hydraulic fluid supply of the auxiliary pump device coupled to the output, the coupling device or the switch-on device being driven when the main pump device is not driven as a function of a supply pressure or a lubricant pressure.

In this way, there is the advantage that the auxiliary pump means in normal driving with saturated hydraulic fluid supply does not apply power loss, provided that the main pump means ensures sufficient hydraulic fluid supply. As a result, neither hydraulic losses nor drag torques are caused by the auxiliary pump device. As a result, the efficiency of the automatic transmission can be improved. Only with appropriate lubrication and / or hydraulic fluid deficiency, for example, when driving downhill of the vehicle or when activated sailing function with stationary engine can be maintained by the inventive connection or coupling of the auxiliary pump means the cooling and lubrication and the actuation of the transmission components and at least a minimum pressure supply for the transmission components, as for example for the clutches or the like, and finally guaranteed for a quick exit from the sailing operation.

It is particularly advantageous that the connection or coupling takes place as a function of the supply pressure or the lubricant pressure, because these pressures are so-called reduced pressures which are significantly below the level of the primary pressure and also of the secondary pressure and also have a relatively uniform course. Thus, these pressures represent representative variables in or outside the sailing operation of the transmission. Preferably, the coupling or connection of the auxiliary pump device can be carried out when a limit value for the supply pressure or the lubrication pressure to be established is undershot.

It is conceivable that in the hydraulic arrangement according to the invention coupling devices or switch-on devices are provided which enable a strategically capable activation of the auxiliary pump device. For example, stepless control of the auxiliary pump device can be realized.

Hereinafter, the present invention will be further explained with reference to the drawings. Show it:

1 a circuit diagram of a first embodiment of a hydraulic system according to the invention with a controllable coupling device for an additional pump device;

2 a circuit diagram of a second embodiment of the hydraulic system with the coupling device for the auxiliary pump device;

3 a circuit diagram of a third embodiment of the hydraulic arrangement with a controllable via a supply or lubrication pressure switch-on for the auxiliary pump device;

4 a circuit diagram of a fourth embodiment of the hydraulic arrangement with the designed as a magnetic pressure valve Einschaltvorrichtung for the auxiliary pump device;

5 a circuit diagram of a fifth embodiment of the hydraulic arrangement with the controllable via an electronic pressure control valve coupling device for the auxiliary pump device;

6 a circuit diagram of a sixth embodiment of the hydraulic arrangement with the designed as an electronic pressure control valve switch-on device for the auxiliary pump device;

7 a circuit diagram of a seventh embodiment of the hydraulic system with the trained as infinitely variable intake throttle activation device for the auxiliary pump device; and

8th a circuit diagram of an eighth embodiment of the hydraulic arrangement with the integrated in the auxiliary pump means continuously variable starting device.

The present invention relates to a hydraulic arrangement for a transmission, in particular an automatic transmission or the like of a vehicle, wherein the hydraulic arrangement 1 is provided for supplying various transmission components. In the 1 to 8th Various possible variants are shown as examples.

Regardless of the respective embodiments, the hydraulic system includes 1 a main pump device 2 , which is driven on the drive side, for example via the drive motor of the vehicle. Furthermore, an auxiliary pump device 3 provided, the output side, for example, driven by the output of the vehicle or the transmission output shaft. The hydraulic system 1 with the main pump device 2 and the auxiliary pump device 3 is with a primary hydraulic circuit 4 , which is supplied with a primary pressure p_prim, and with a secondary hydraulic circuit 5 connected, which is acted upon by a secondary pressure p_sec.

The primary hydraulic circuit 4 serves, for example, to apply the actuation pressure for various transmission components, such as clutches or the like. Further, with the primary pressure P_prim, a pressure reducing valve 11 acted upon, for example, to supply electro-hydraulic actuators of the transmission with a reduced supply pressure p_V.

The secondary hydraulic circuit 5 serves, for example, a lubricant and / or coolant pressure p_S using a lubrication and / or cooling pressure valve 12 to provide lubrication and cooling of the transmission components of the transmission, wherein the lubrication pressure valve 12 is acted upon by the secondary pressure p_sec.

The primary hydraulic circuit 4 and the secondary hydraulic circuit 5 are via a system pressure valve 10 coupled, which ensures that initially the supply of the primary hydraulic circuit 4 is ensured and only when the primary hydraulic circuit 4 is sufficiently supplied, the secondary hydraulic circuit 5 subjected to hydraulic fluid to build up the secondary pressure p_sec can.

If the drive of the main pump device 2 is no longer guaranteed, for example, when the drive motor or when driving downhill, the auxiliary pump device 3 that has a check valve 6 first with the primary hydraulic circuit 4 and over the system pressure valve 10 also with the secondary hydraulic circuit 5 coupled, the supply of the two hydraulic circuits 4 . 5 take. The connection between the primary hydraulic circuit 4 and the secondary hydraulic circuit 5 is via the control pressure p_EDS Sys for the electrohydraulic system pressure valve 10 driven. It is also possible that the auxiliary pump device 3 also directly with the secondary hydraulic circuit 5 connected is.

According to the invention, it is provided that a coupling device 7 or one switch- 8th are provided for coupling or for connecting or opening the hydraulic fluid supply of the auxiliary pump device, wherein the coupling device 7 or the switch-on device 8th can be controlled via a hydraulic pressure of the hydraulic system of the transmission, namely the supply pressure p_V or the lubricant pressure p_S. The supply pressure p_V or the lubricant pressure p_S are in or out of the sailing operation of the transmission a representative size to be able to evaluate when the auxiliary pump device 3 to be switched on. In this way the most economical operation possible in the vehicle.

In 1 is provided in a first embodiment of the invention that the coupling device 7 a torque transmitting device, such as. B comprises a clutch or a converter or the like, which z. B. mechanically, hydraulically or electrically via the supply pressure p_V or the lubricant pressure p_S is driven to the Zusatzpumpeneirichtung 3 head for. When falling below a predetermined limit value of the supply pressure p_V or the lubricant pressure p_S is provided that the coupling device using, for example, a spring device, not shown, a mechanical or non-positive connection between the output of the transmission or the transmission output shaft and the drive of the auxiliary pump device 3 produces, so that the auxiliary pump device 3 Hydraulic fluid for the z. B. directly with the auxiliary pump device 3 connected primary hydraulic circuit 4 provides. The secondary hydraulic circuit 5 is via the system pressure valve 10 indirectly with the auxiliary pump device 3 connected. Due to the clutch, the rotational speed n_AB at the gearbox output becomes n_P at the drive of the auxiliary pump device 3 provided.

2 shows a second embodiment of the invention in the unlike the first embodiment according to 1 the auxiliary pump device 3 with the secondary hydraulic circuit 5 is directly connected, being a connection to the primary hydraulic circuit 4 z. B. again via the system pressure valve 10 is realized.

In a third embodiment of the invention according to 3 is the auxiliary pump device 3 again exemplarily directly with the primary hydraulic circuit 4 over the check valve 6 connected. The auxiliary pump device 3 is via the switch-on 8th controlled by the supply or suction of the auxiliary pump device 3 opened or closed. For this purpose, the switch-on 8th a hydraulic valve or the like, which falls below the predetermined limit value of the supply pressure p_V or the lubrication pressure valve p_S the suction for the auxiliary pump device 3 opens, in this way can then be done via the auxiliary pump means, the hydraulic medium supply.

According to 4 a fourth embodiment of the invention is shown in which, in contrast to the third embodiment variant as a switch-on 8th a magnetic pressure valve is provided, which is strategically capable of depending on the control pressure p_MV if necessary, the suction or hydraulic fluid supply of the auxiliary pump device 3 opens. In particular, this is an existing position valve of the hydraulic arrangement, which acts on other valves in the hydraulic system of the transmission with a reduced pressure electrically switchable. The activation of the switch-on takes place in this case, when the supply pressure used for the control p_V or lubrication pressure p_S is switched off via the switching valve used and the auxiliary pump device 3 is switched on accordingly.

In 5 a fifth embodiment is shown, in which the auxiliary pump device 3 as in the first two embodiments according to 1 and 2 , via the docking device 7 is coupled with the output of the transmission. In contrast to the first two variants, the output of the transmission via the coupling device 7 with a variable ratio with the drive of the auxiliary pump device 3 brought into operative connection. This includes the coupling device 7 z. As an electro-hydraulic pressure control valve or the like, which controls the translation in dependence of the control pressure p_EDS. In particular, an existing position valve of the hydraulic arrangement can also be used for this, which can be used to control the speed of the auxiliary pump device as required 3 allows.

In 6 is according to the third and fourth embodiment again a switch-on 8th for driving the auxiliary pump device 3 intended. In the sixth embodiment is as Einschaltvorrichtung 8th an electro-hydraulic pressure control valve for strategically driving the auxiliary pump device 3 used. In this way, depending on the control pressure p_EDS of the pressure control valve, the fluid supply of the auxiliary pump device 3 be regulated steplessly.

In contrast to the sixth embodiment, in the seventh embodiment according to 7 the continuous fluid supply for the auxiliary pump device 3 via a continuously variable intake throttle as switch-on device 8th will be realized.

Finally shows 8th an eighth embodiment, in which the fluid supply of the auxiliary pump device 3 is controlled by the switch-on 8th almost in the auxiliary pump device 3 is integrated by the auxiliary pump device is designed as a variable displacement pump with a continuously adjustable stroke adjustment. In this way, the stroke adjustment can be controlled via an electro-hydraulic pressure control valve in response to the control pressure p_EDS when falling below the predetermined limit value of the supply pressure p_V or the lubrication pressure valve p_S, so that the auxiliary pump device 3 the hydraulic fluid supply takes over.

Preferably, in the control of the auxiliary pump device 3 via the switch-on device 8th and thus via the control of the fluid supply preferably as an auxiliary pump means a hydrodynamic pump, for example a centrifugal pump or the like can be used.

LIST OF REFERENCE NUMBERS

1

hydraulic arrangement

2

Main pump device

3

Additional pump device

4

primary hydraulic circuit

5

secondary hydraulic circuit

6

check valve

7

launcher

8th

switch-

10

System pressure valve

11

Pressure reducing valve

12

Lubrication pressure valve

p_prim

primary pressure

P_SEC

secondary pressure

p_V

supply pressure

p_S

lubrication pressure

p_MV

Control pressure for solenoid pressure valve

p_EDS

Actuation pressure of electro-hydraulic pressure control valve

p_EDS sys

Control pressure for electrohydraulic system pressure valve

n_AB

Speed at the output of the gearbox

n_P

Speed at the drive of the auxiliary pump device

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102008043734 A1 [0002]

Claims (10)

Hydraulic arrangement for a hydraulic fluid supply of components of a transmission of a vehicle, with at least one drive-side driven main pump device ( 2 ) for supplying a primary hydraulic circuit ( 4 ) with a primary pressure (p_prim) and to supply a secondary hydraulic circuit ( 5 ) with a secondary pressure (p_sec), and with at least one driven-side driven auxiliary pump device ( 3 ) connected to the primary hydraulic circuit ( 4 ) and / or with the secondary hydraulic circuit ( 5 ), characterized in that a coupling device ( 7 ) for coupling the auxiliary pump device ( 3 ) to the output of the transmission or a switch-on ( 8th ) for opening the hydraulic fluid supply of the output pump coupled to the output ( 3 ) are provided, wherein the coupling device ( 7 ) or the switch-on device ( 8th ) with non-driven main pump device ( 2 ) as a function of a supply pressure (p_V) in the primary hydraulic circuit ( 4 ) and / or depending on a lubrication pressure (p_S) in the secondary hydraulic circuit ( 5 ) are controllable. Hydraulic arrangement according to claim 1, characterized in that the coupling device ( 7 ) comprises a torque transmission device, with which falls below a predetermined limit value of the supply pressure (p_V) or the lubricating pressure (p_S) a torque transmission between the output of the transmission and the drive of the auxiliary pump device ( 3 ) is provided. Hydraulic arrangement according to one of the preceding claims, characterized in that the coupling device ( 7 ) an electro-hydraulic pressure control valve for continuously regulating the torque to be transmitted from the output of the transmission to the drive of the auxiliary pump device ( 3 ). Hydraulic arrangement according to one of the preceding claims, characterized in that the switch-on device ( 8th ) an electro-hydraulic pressure control valve for continuously controlling the hydraulic fluid supply of the continuously connected to the output of the transmission auxiliary pump device ( 3 ). Hydraulic arrangement according to one of the preceding claims, characterized in that the auxiliary pump device ( 3 ) is designed as a hydrodynamic pump. Hydraulic arrangement according to one of the preceding claims, characterized in that the switch-on device ( 8th ) is designed as a magnetic pressure valve. Hydraulic arrangement according to one of the preceding claims, characterized in that the switch-on device ( 8th ) as electrohydraulic pressure control valve for the strategically capable activation of the auxiliary pump device ( 3 ) is trained. Hydraulic arrangement according to one of the preceding claims, characterized in that the switch-on device ( 8th ) is designed as infinitely variable intake throttle. Hydraulic arrangement according to one of the preceding claims, characterized in that the switch-on device ( 8th ) as controllable Hubverstellpumpe in the auxiliary pump device ( 3 ) is integrated. Hydraulic arrangement according to one of the preceding claims, characterized in that the auxiliary pump device ( 3 ) via a check valve ( 6 ) with the primary hydraulic circuit ( 4 ) and / or with the secondary hydraulic circuit ( 5 ) connected is.

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