DE102019201709A1 - Oil system, in particular oil system for a motor vehicle, with a valve for filling a high-pressure branch reservoir from a low-pressure branch - Google Patents

Abstract

The invention relates to an oil system (10), in particular an oil system for a motor vehicle, with at least one pump (11, 13), an oil reservoir (12, 14) and a valve (15), the valve (15) having a first and a second connection (151, 152) and at least a first and a second switching position, wherein in the first switching position of the valve (15) the first and second connection (151, 152) are hydraulically connected to one another and in the second switching position of the valve (15) the first and the second connection (151, 152) are hydraulically separated from one another. The oil system can be implemented, in particular operated and / or produced in an energy- and / or cost-efficient manner, that the oil system (10) has a high-pressure branch (HD) and a low-pressure branch (LP), the high-pressure branch (HD) having a high-pressure pump (11) has a suction connection and a pressure connection and a high pressure branch oil reservoir (12) for the supply of the high pressure branch (HD), the high pressure pump (11) being hydraulically coupled with its suction connection to the high pressure branch oil reservoir (12) and the low pressure branch (LP) a low-pressure pump (13) with a suction connection and a pressure connection and wherein the valve (15) with its first connection (151) to the pressure connection of the low-pressure pump (13) and with its second connection (152) to the high-pressure branch oil reservoir (12) is hydraulically coupled, the valve (15) being designed such that the valve (15) assumes the first switching position when the pressure at the pressure connection of the Low-pressure pump (13) is below a certain threshold value, and assumes the second switching position when the pressure at the pressure connection of the low-pressure pump (13) reaches or exceeds the certain threshold value.

Description

The invention relates to an oil system, in particular an oil system for a motor vehicle, according to the features of the preamble of patent claim 1.

A large number of oil systems, in particular oil systems for motor vehicles, are known in the prior art. Such known oil systems can be designed very differently.

From the DE 10 2013 224 244 A1 an oil system for a motor vehicle is known which has an oil reservoir, a pump with a suction connection and with a pressure connection and a filter device. The pump is hydraulically coupled with its suction connection to the oil reservoir and with its pressure connection to the filter device. Furthermore, the oil system comprises a return line into the oil reservoir, which is connected downstream of the filter device. The return line is equipped with a valve in the form of a volume flow-actuated shut-off valve. The valve has a first and a second connection and a first and a second switching position. In the first switching position of the valve, the first and the second connection are hydraulically connected to one another, with the first and the second connection being hydraulically separated from one another in the second switching position of the valve. The valve is designed in such a way that when the pump starts up without pressure, the valve assumes the first switching position in order to enable low-loss filtering.

However, the oil systems known in the prior art are not yet optimally designed and, in particular, are energy-intensive and / or cost-intensive due to their construction and / or control.

The invention is therefore based on the object of designing and developing the known oil system on which the invention is based in such a way that it can be implemented in an energy-efficient and / or cost-efficient manner, in particular can be operated and / or produced in a correspondingly cost-efficient manner.

The above-mentioned object is now achieved by the features of claim 1. Because the oil system initially has a high-pressure branch, for example a high-pressure circuit, and a low-pressure branch, for example a low-pressure circuit, the oil system can supply and / or operate both at least one high-pressure consumer and at least one low-pressure consumer with oil. As high-pressure consumers that can be supplied via the high-pressure branch, in particular hydraulically actuatable switching elements and / or the clutch of the motor vehicle come into question. For example, the clutch of a drive train and, in particular, the shift elements to be hydraulically actuated in the transmission of the motor vehicle. In the simplest form, cooling channels come into consideration as low-pressure consumers, in particular either cooling channels that are formed within an internal combustion engine and / or cooling channels of an electrical machine and / or cooling channels for other components of the motor vehicle to be cooled. This can be advantageous in particular in motor vehicles with hybrid transmissions, for example with at least one electrical machine, in particular with two electrical machines.

The high pressure branch comprises in particular a high pressure pump with a suction connection and a pressure connection and a high pressure branch oil reservoir for the supply of the high pressure branch. The high pressure pump is hydraulically coupled to the high pressure branch oil reservoir with its suction connection. The at least one high-pressure consumer can in particular be hydraulically coupled or coupled to the pressure connection of the high-pressure pump.

The low-pressure branch comprises in particular a low-pressure pump with a suction connection and a pressure connection. The at least one low-pressure consumer can in particular be hydraulically coupled or coupled to the pressure connection of the low-pressure pump.

The valve is hydraulically coupled with its first connection to the pressure connection of the low-pressure pump and with its second connection to the high-pressure branch oil reservoir and is designed such that the valve assumes the first switching position when the pressure at the pressure connection of the low-pressure pump is below a certain threshold value and assumes the second switching position when the pressure at the pressure connection of the low-pressure pump reaches or exceeds the specific threshold value. For example, the valve can be hydraulically coupled with its first connection via a branch to the pressure connection of the low-pressure pump, in particular via which part of the oil can be branched from the pressure connection into the first connection of the valve.

It can thus be effected in a simple manner that with the aid of the low-pressure branch and / or the low-pressure pump, for example when the low-pressure pump is operating with a low volume flow or delivery volume flow, in particular with a low pressure below the specific threshold value, and / or when the low-pressure pump is at a standstill , part of the volume flow from the low-pressure branch, for example by pumping or flowing into the Branched off high-pressure branch reservoir and thus the high-pressure branch oil reservoir is filled with oil from the low-pressure branch, for example refilled and / or topped up, and so the oil system can be implemented in an energy-efficient and / or cost-efficient manner, in particular operated and / or produced. The disadvantages mentioned at the beginning are avoided, corresponding advantages are achieved.

Due to the arrangement and / or design of the valve, as described above, an independent, regular filling, for example refilling and / or filling, of the high-pressure branch oil reservoir is realized, in particular whenever the low-pressure pump is running at a low pressure below the certain threshold value or stands still and the valve is consequently switched to its first switching position.

In this way, in particular, intentional and also unintentional consumption in the high pressure branch can be compensated and an optimized and / or low-wear operation of the high pressure consumer and / or the high pressure consumer can be ensured. For example, air suction can be avoided in this way. For example, reliable and / or low-wear operation of a clutch, for example a clutch that is open in the normal state, can be ensured.

Due to the arrangement and / or design of the valve, as described above, this can advantageously be particularly energy-efficient and / or cost-efficient and, for example, energy-efficient and / or cost-efficient than by other measures, for example by means of a permanently open connecting line and / or panel, which can have a poorer energy balance due to a stronger design of the low-pressure pump.

In addition, due to the arrangement and / or design of the valve, as described above, the oil system can advantageously also be used in systems whose structural conditions have other measures, for example centrifugal oil delivery, for example by means of a rotating axle drive wheel, for example due to a lack of suitable installation space and / or hindrance by other components, do not allow or hinder.

In addition, due to the arrangement and / or design of the valve, as described above, the oil system can advantageously also be used in systems with dry sump lubrication and / or for emptying a sump and / or for filling a high tank.

As soon as the pressure at its pressure connection reaches or exceeds the specific threshold value during operation of the low-pressure pump, the valve switches to its second switching position so that no oil from the low-pressure branch, for example neither from the low-pressure pump nor from low-pressure consumers, can flow into the high-pressure branch oil reservoir. The flow connection between the high-pressure branch oil reservoir is then interrupted or closed by the second switching position of the valve.

In principle, the valve can be designed in different ways, for example such that the valve is or can be operated hydraulically and / or pneumatically and / or electrically and / or electromagnetically.

In a preferred embodiment of the oil system, the valve is a preloaded and / or volume flow-actuated valve, for example a shut-off valve. In particular, the valve can be preloaded in the first switching position, in particular with the aid of a spring or a spring element. The valve can be or can be switched into the second switching position, for example, by a volume flow-dependent pressure, for example dynamic pressure. For example, the valve can be a spring-loaded and / or volume flow-actuated valve, for example a check valve. The valve can thus be hydraulically controlled and / or regulated by the pressure connection of the low-pressure pump. An additional, for example electrical and / or electromagnetic and / or pneumatic actuator and / or a further control line can thus be dispensed with. The valve can thus be implemented, in particular operated and / or manufactured, in a simple and energy-efficient and, in particular, electricity-efficient and also inexpensive manner.

In a special preferred embodiment of the oil system, the valve has a valve housing and a valve body, for example in the form of a ball, which is movably arranged in the valve housing. The valve housing has an outlet opening that can be shut off by the valve body. In the first switching position of the valve, the valve body can be spaced or spaced apart from the outlet opening in such a way that the valve body can be flushed with oil and oil can flow out through the outlet opening. In the second switching position of the valve, the outlet opening can be blocked or blocked, in particular by the valve body, in particular in an oil-tight manner.

In a special embodiment of this embodiment, the valve body is pretensioned with a spring. In particular, in the first switching position of the valve, the valve body can be spaced apart from the outlet opening by a spring force that can be exerted or exerted by the spring or spaced. In the second switching position of the valve, the valve body can in particular be pressed or pressed against and / or into the outlet opening by a pressure exerted or exerted by an oil volume flow counter to the spring force of the spring.

In this embodiment, the valve housing can furthermore have at least one inlet opening, in particular at least two inlet openings. The valve housing can have at least one continuously open inlet opening. Furthermore, the valve housing can have at least one inlet opening that can be shut off by the valve body. In the first switching position of the valve, the valve body can in particular shut off the inlet opening that can thereby be shut off. In the first switching position of the valve, in particular the valve body can be pressed or pressed against the inlet opening that can be shut off by the spring force exerted or exerted by the spring in such a way that this inlet opening can be shut off or is shut off by the valve body. In the second switching position of the valve, the valve body can be spaced or spaced apart from the inlet opening that can be shut off in such a way that oil can or can flow in through the inlet opening. The valve body can be moved from the first switching position against the spring force of the spring into the second switching position of the valve, in particular, that a pressure or a pressure coupled therewith due to the oil volume flow through the inlet opening blocked by the valve body in the first switching position force coupled therewith can be or is exerted on the valve body, which force is greater than the spring force exerted by the spring on the valve body. By means of a suitable selection of the spring force of the spring, the specific threshold value for the pressure at the pressure connection of the low-pressure pump at which the valve moves from the first, in particular open, switching position to the second, in particular closed, switching position can advantageously be achieved in a simple and, in particular, energy and cost-efficient manner. Switching position passes over to be set.

In a further preferred embodiment of the oil system, the oil system also has a low-pressure oil reservoir at least for supplying the low-pressure branch. The low-pressure pump is hydraulically coupled to the low-pressure oil reservoir, in particular with its suction connection.

In a further preferred embodiment of the oil system, the oil system is used or used in a motor vehicle, the high pressure branch supplying the clutch of the drive train of the motor vehicle with oil and the low pressure branch cooling in particular the electric machine of a hybrid motor vehicle or an electric vehicle. It can be seen from this that the use of the oil system according to the invention is very flexible or the oil system according to the invention can be used in a flexible manner.

In its preferred embodiment, the oil system according to the invention is preferably used for cooling or for lubricating an internal combustion engine and for operating an automated gearbox and / or an automatic converter transmission and / or a clutch of a motor vehicle. The high-pressure pump supplies the hydraulically operated high-pressure components via the high-pressure branch and the low-pressure pump supplies the hydraulically operated low-pressure components and / or cooling channels via the low-pressure branch, or cools components such as the cooling of an electric machine.

In a further preferred embodiment of the oil system, the high pressure pump can be hydraulically coupled or coupled with its pressure connection to at least one high pressure consumer. The high-pressure consumer can be designed as a hydraulically actuated switching element and / or as a clutch, for example which - for example in a series / parallel hybrid motor vehicle - couples an internal combustion engine directly to a wheel. For example, the high-pressure consumer can be designed as a shifting element designed within a motor vehicle transmission or as a clutch designed for a motor vehicle transmission.

The high pressure circuit is used to actuate a switching element, for example a clutch.

In a further preferred embodiment of the oil system, the low-pressure pump can be hydraulically coupled or coupled with its pressure connection to at least one low-pressure consumer. There are different embodiments for the low-pressure consumer. In the simplest case, the low-pressure consumer can be designed as a cooling duct, in particular as a cooling duct of an electric machine of a motor vehicle. In other words, the low-pressure branch supplies via cooling channels, for example, in particular an electric machine and / or supplies the cooling channels of an electric machine for cooling the electric machine of a motor vehicle. For example, the low-pressure consumer can be used at least as a cooling duct in a transmission and / or as a cooling duct in an internal combustion engine of a motor vehicle or be designed as a cooling channel of a hybrid motor vehicle or an electric vehicle, in particular as a cooling channel of an electric machine of a hybrid vehicle or an electric vehicle.

In particular, the preferred embodiment of the oil system according to the invention is or is used in a hybrid motor vehicle, with the electric machine being correspondingly coolable with the aid of the low-pressure branch and the respective switching elements and / or clutches, i.e. the components of the motor vehicle used by the high-pressure branch are controllable.

The design or the design of the high pressure pump and / or the low pressure pump can take place in different ways, in particular the respective pump can be designed as a rotary piston pump, as a vane pump, as a gear pump or as a screw pump.

The high pressure pump and the low pressure pump can in particular be mechanically coupled to one another via a common drive. However, it is also conceivable or possible that the high-pressure pump and the low-pressure pump each have their own separate drive or that their own separate drive is provided or present for each of the pumps.

The low-pressure pump is preferably hydraulically coupled with its pressure connection to a low-pressure consumer directly, that is to say in particular not via the valve. However, it is also conceivable that the aforementioned coupling is implemented indirectly, that is to say via the valve.

The high-pressure branch oil reservoir and / or low-pressure branch oil reservoir can also be designed in different ways, for example as an oil vessel, as an oil pan, as an oil container or as an oil tank. The low-pressure branch oil reservoir can, among other things, also be formed by a transmission sump.

Furthermore, an overflow for oil from the high-pressure branch oil reservoir into the low-pressure branch oil reservoir can be provided or present in the oil system. A fill level control of the high-pressure branch oil reservoir can thus be dispensed with and the oil system can be implemented, in particular operated and / or manufactured, in a particularly simple and, in particular, energy and / or cost-efficient manner. For example, the low-pressure branch oil reservoir can be designed as a larger oil pan, for example in the form of a transmission sump, as a high-pressure branch oil reservoir designed as an oil pan. In particular, the high-pressure branch oil reservoir designed as an oil pan can be arranged above the low-pressure branch oil reservoir designed as a larger oil pan.

As a result, the disadvantages mentioned at the beginning are avoided and corresponding advantages are achieved.

• 1 eine bevorzugte Ausführungsform eines erfindungsgemäßen Ölsystems mit einem Niederdruckzweig und mit einem Hochdruckzweig in sehr vereinfachter schematischer Darstellung, insbesondere für ein nicht näher dargestelltes Kraftfahrzeug, beispielsweise für ein Hybrid-Kraftfahrzeug oder für ein Elektrofahrzeug; und
• 2a,2b eine bevorzugte Ausgestaltung eines Ventils für eine in 1 gezeigte bevorzugte Ausführungsform eines erfindungsgemäßes Ölsystems.

There are now a large number of possibilities for designing and developing the oil system according to the invention in an advantageous manner. Reference may first be made to the claims subordinate to claim 1. In the following, a preferred embodiment of the invention may be explained in more detail using the drawing and the associated description. In the drawing shows:

• 1 a preferred embodiment of an oil system according to the invention with a low-pressure branch and with a high-pressure branch in a very simplified schematic representation, in particular for a motor vehicle not shown in detail, for example for a hybrid motor vehicle or for an electric vehicle; and
• 2a , 2 B a preferred embodiment of a valve for an in 1 Preferred embodiment shown of an oil system according to the invention.

1 shows in a very simplified schematic representation the particularly preferred embodiment of an oil system, in particular an oil system 10 for a motor vehicle not shown here.

The term "motor vehicle" basically includes all vehicles, especially non-rail vehicles, in particular vehicles with an internal combustion engine, but also without an internal combustion engine, for example electric vehicles and also hybrid vehicles, ie vehicles that have an internal combustion engine and an electric machine as well as purely electric vehicles.

The 1 shows in a schematic representation essentially in the left half a low-pressure branch ND and in the right half a high pressure branch HD of the oil system 10 . The oil system shown here is used in particular 10 on the one hand, namely via the high pressure branch HD , for actuating a clutch, not shown, of a motor vehicle and on the other hand, namely via the low-pressure branch ND , for cooling certain components of the motor vehicle, in particular for cooling the electric machine of a hybrid motor vehicle or an electric vehicle.

This in 1 shown oil system 10 points in the high pressure branch HD , which can be designed as a high pressure circuit, for example, a high pressure pump 11 with a suction port and a pressure port and a high pressure branch oil reservoir 12th for the supply of the high pressure branch HD on. Here is the high pressure pump 11 with its suction connection to the high pressure branch oil reservoir 12th hydraulically coupled. The low pressure branch ND , which can be designed as a low-pressure circuit, for example, has a low-pressure pump 13th with a suction connection and a pressure connection. The 1 indicates that the low pressure pump 13th with their suction connection to a low-pressure oil reservoir 14th , which at least to supply the low-pressure branch ND and can also serve as a transmission sump, for example, is hydraulically coupled.

The 1 shows that the oil system 10 still a valve 15th with a first and a second connection 151 , 152 and has at least a first and a second switching position. In other words, the valve 15th has a first port 151 and a second port 152 and can assume or have at least a first and a second switching position. The valve is in the first switching position 15th the first and the second port 151 , 152 hydraulically connected to each other and in the second switching position of the valve 15th the first and the second port 151 , 152 hydraulically separated from each other. Here is the valve 15th with his first connection 151 to the pressure connection of the low pressure pump 13th and with its second connector 152 to the high pressure branch oil reservoir 12th hydraulically coupled and designed such that the valve 15th assumes the first switching position when the pressure at the pressure connection of the low-pressure pump 13th lies below a certain threshold value and assumes the second switching position when the pressure at the pressure connection of the low-pressure pump 13th reaches or exceeds the specified threshold. The valve 15th for example a, in particular in the first switching position, prestressed, for example spring-prestressed, and / or volume flow actuated valve, in particular a shut-off valve.

The 1 shows that doing the valve 15th especially with his first connection 151 via a branch to the pressure connection of the low-pressure pump 13th is hydraulically coupled, via which part of the oil from the pressure connection into the first connection 151 of the valve 15th is branchable.

An in 1 The implementation shown can advantageously avoid the disadvantages mentioned at the beginning and achieve corresponding advantages and in particular in an energy- and / or cost-efficient realizable, in particular operable and / or producible manner, in particular with the aid of the low-pressure branch ND and especially the low pressure pump 13th and the valve 15th , a volume flow branch from the low-pressure branch, in particular from the pressure connection of the low-pressure pump 13th , and in particular a filling, for example refilling and / or filling, of the high-pressure branch oil reservoir 12th will be realized.

In 2a and 2 B is a preferred embodiment of a valve 15th for one in 1 Preferred embodiment shown of an oil system according to the invention 10 shown, which is in the form of a, in particular in the first switching position, spring-loaded and volume flow actuated valve, in particular a shut-off valve. The valve 15th is in 2a in the first, in particular open, switching position, in which the first and the second connection 151 , 152 are hydraulically connected, and in 2 B in the second, in particular blocked, switching position of the valve 15th , in which the first and second port 151 , 152 are hydraulically separated from each other, shown.

2a and 2 B show that the valve 15th in this embodiment a valve housing 155 and one in the valve housing 155 movably arranged and with a spring 153 preloaded valve body 154 , for example in the form of a sphere. The valve body 155 has an outlet opening 156 as well as at least two inlet openings 157 and 158 on. Through the valve body 154 is in the in 2a and 2 B different switching positions shown one of the inlet openings, in particular the inlet opening 158 or the outlet opening 156 lockable. The other inlet port 157 is always openly designed.

2a shows that in the first switching position of the valve 15th showing the valve 15th with a low oil volume flow Q or at a low delivery volume of the low-pressure pump or at a pressure coupled therewith, in particular low p the valve body assumes below a certain threshold value at the pressure connection of the low-pressure pump 154 by one of the pen 153 exertable or exerted spring force F from the outlet port 156 is spaced apart or spaced apart that the valve body 156 from, especially through the constantly open inlet port 157 inflowing or inflowing oil can be flushed or flushed around and the oil through the outlet opening 156 can flow out again or flows out. In this way, the valve is in the first, in particular open, switching position 15th the first connection 151 and the second connector 152 of the valve 15th hydraulically connected to each other and from the first port 151 can oil with a certain oil volume flow Q through the constantly open inlet opening 157 on the valve body 154 past through the interior of the valve housing 155 and through the outlet opening 156 into the second port 152 flow or flow. In this way, in the first switching position of the valve 15th some of the oil from the low pressure branch through the valve 15th be branched into the high-pressure branch oil reservoir.

2a also shows that in the first switching position of the valve 15th the valve body 154 by the by the pen 153 exertable or exerted spring force F against the inlet port 158 can be or is pressed in such a way that this inlet opening 158 through the valve body 154 is lockable or is locked.

2a illustrates that the oil volume flow Q by the from the valve body 154 blocked inlet opening 158 a pressure coupled with it p or force on the valve body 154 exercises which in the in 2a However, the first switching position shown is less than that of the spring 153 exerted spring force F is and therefore not sufficient to the valve body 154 contrary to that of the pen 153 exerted spring force F to move from the first, in particular open, switch position into the second, in particular closed, switch position and therefore in the in 2a shown first switching position of the valve 15th the inlet port 158 through the one with the pen 153 preloaded valve body 154 is blocked or closed and the outlet opening 156 remains open.

2 B shows, however, that if the oil volume flow Q or the delivery volume of the low-pressure pump or a pressure coupled with it p at the pressure connection of the low-pressure pump increases and in particular reaches or exceeds the specific threshold value at which this pressure is reached p by the from the valve body 154 blocked inlet opening 158 a force on the valve body 154 exercises which in the in 2 B second switch position shown higher than that of the spring 153 exerted spring force F is that the valve 15th assumes its second, in particular closed, switching position in which the valve body 154 against the spring force F the feather 153 at a spacing and opening of the inlet port 158 against and / or in the outlet opening 156 is or is pressed and the outlet opening 156 , for example oil-tight, shut off. In this way, the valve is in the second, in particular closed, switching position 15th the first connection 151 and the second connector 152 of the valve 15th hydraulically separated from each other and no more oil can come out of the first connection 151 through the inlet ports 157,158 on the valve body 154 past through the interior of the valve housing 155 and through the outlet opening 156 into the second port 152 flow or flow, with the total volume flow Q then the low-pressure branch is available.

This in 2a and 2 B The valve shown can advantageously, in particular alone, by, in particular by the volume flow Q pending, pressure p can be controlled at the pressure connection of the low-pressure pump. In other words, the pressure prevailing in the low-pressure branch p is particularly on the valve body 154 transferred or acts on the valve body 154 and / or the spring 153 a. If the pressure p as in 2a shown below the specified threshold, the valve decreases 15th its first, in particular open, switch position and there can be a flow connection from the low-pressure branch ND to the high pressure branch oil reservoir 12th realized and the high pressure branch oil reservoir 12th with oil from the low pressure branch ND are supplied. If the pressure p as in 2 B shown, however, reaches or exceeds the specific threshold value, the valve decreases 15th its second, in particular closed, switch position and a flow connection from the low-pressure branch ND to the high pressure branch oil reservoir 12th is interrupted or disconnected.

By adjusting the spring force F the feather 153 can thereby advantageously in a simple and, in particular, energy-efficient and cost-efficient manner, the determined threshold value for the pressure at the pressure connection of the low-pressure pump at which the valve 15th transition from the first, in particular open, switch position to the second, in particular closed, switch position.

List of reference symbols

10

Oil system

11

high pressure pump

12th

High-pressure branch oil reservoir, in particular an oil vessel

13th

Low pressure pump

14th

Low-pressure branch oil reservoir, in particular an oil pan, for example a transmission sump

15th

Valve

151

first connection of the valve

152

second connection of the valve

153

feather

154

Valve body

155

Valve body

156

Outlet opening that can be shut off by the valve body

157

Inlet opening

158

Inlet opening that can be shut off by the valve body

F.

Spring force of the spring

Q

Oil volume flow

p

pressure exerted by the oil volume flow

HD

High pressure branch

ND

Low pressure branch

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was 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.

Patent literature cited

• DE 102013224244 A1 [0003]

Claims (10)

Oil system (10), in particular oil system for a motor vehicle, with at least one pump (11, 13), an oil reservoir (12, 14) and a valve (15), the valve (15) having a first and a second connection (151 , 152) and at least a first and a second switching position, wherein in the first switching position of the valve (15) the first and the second connection (151,152) are hydraulically connected to one another and in the second switching position of the valve (15) the first and the second connection (151, 152) are hydraulically separated from each other, characterized in that the oil system (10) has a high pressure branch (HD) and a low pressure branch (ND), the high pressure branch (HD) having a high pressure pump (11) with a suction connection and a Pressure connection and a high pressure branch oil reservoir (12) for supplying the high pressure branch (HD), the high pressure pump (11) being hydraulically coupled with its suction connection to the high pressure branch oil reservoir (12), whereby i the low pressure branch (ND) has a low pressure pump (13) with a suction connection and a pressure connection, the valve (15) with its first connection (151) to the pressure connection of the low pressure pump (13) and with its second connection (152) to the High-pressure branch oil reservoir (12) is hydraulically coupled, and wherein the valve (15) is designed such that the valve (15) - assumes the first switching position when the pressure at the pressure connection of the low-pressure pump (13) is below a certain threshold value, and - Assumes the second switching position when the pressure at the pressure connection of the low-pressure pump (13) reaches or exceeds the specific threshold value. Oil system (10) Claim 1 , characterized in that the valve (15) is a pre-tensioned, in particular spring-pre-tensioned, and / or volume flow-actuated valve, in particular a check valve. Oil system (10) Claim 1 or 2 , characterized in that the valve (15) has a valve housing (155) and a valve body (154) arranged movably in the valve housing (155), in particular in the form of a ball, the valve housing (155) being one through the valve body (154 ) has closable outlet opening (156), wherein in the first switching position of the valve (15) the valve body (154) can be spaced from the outlet opening (156) in such a way that the valve body (156) can be flushed with oil and oil through the outlet opening (156) can flow out and wherein in the second switching position of the valve (15) the outlet opening (156) can be shut off oil-tight by the valve body (156). Oil system (10) according to one of the preceding claims, characterized in that the valve body (154) is pretensioned with a spring (153), wherein in the first switching position of the valve (15) the valve body (154) by one of the spring (153 ) the exertable spring force (F) can be spaced from the outlet opening (156) and wherein in the second switching position of the valve (15) the valve body (154) is counteracted by a pressure (p) exerted by an oil volume flow (Q) against the spring force (F ) the spring (153) can be pressed against and / or into the outlet opening (156). Oil system (10) according to one of the preceding claims, characterized in that the oil system furthermore has a low-pressure oil reservoir (14) at least for supplying the low-pressure branch (LP), the low-pressure pump (13) with its suction connection to the low-pressure oil reservoir (14) ) is hydraulically coupled. Oil system (10) according to one of the preceding claims, characterized in that the valve (15) is hydraulically coupled with its first connection (151) via a branch with the pressure connection of the low-pressure pump (13), in particular with a part of the oil via the branch can be branched from the pressure connection into the first connection (151) of the valve (15). Oil system (10) according to one of the preceding claims, characterized in that the high-pressure pump (11) can be hydraulically coupled or coupled with its pressure connection to at least one high-pressure consumer, the high-pressure consumer being designed as a hydraulically actuated switching element and / or as a clutch. Oil system (10) according to one of the preceding claims, characterized in that the high-pressure consumer is designed as a shifting element designed within a motor vehicle transmission or as a clutch designed for a motor vehicle transmission. Oil system (10) according to one of the preceding claims, characterized in that the low-pressure pump (13) can be hydraulically coupled or coupled with its pressure connection to at least one low-pressure consumer, the low-pressure consumer being designed at least as a cooling duct, in particular as a cooling duct of an electric machine of a motor vehicle is. Oil system (10) according to one of the preceding claims, characterized in that the low-pressure consumer at least as a cooling channel in a transmission and / or as a cooling duct in an internal combustion engine of a motor vehicle or as a cooling duct of a hybrid motor vehicle or an electric vehicle, in particular as a cooling duct of an electric machine of a hybrid vehicle or an electric vehicle.

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