DE102016216357A1 - Drive device for a motor vehicle - Google Patents

Abstract

The invention relates to a drive device (1) for a motor vehicle, comprising at least one oil circuit (2) through which oil can pass, with at least one pump (3) arranged in the oil circuit (2) for conveying the oil through the oil circuit (2) and at least a in the oil circuit (2) arranged consumer (4) which is supplied with the oil circuit (2) flowing through oil, wherein in the oil circuit (2) at least one additional to the pump (3) provided pressure accumulator (7) is arranged in which the oil is to be stored under pressure.

Description

The invention relates to a drive device for a motor vehicle according to the preamble of patent claim 1.

Such drive devices for motor vehicles are already well known from the general state of the art and in particular from production vehicle production. Such a drive device is, for example, component of a drive train of a motor vehicle, which can be driven by means of the drive train or by means of the drive device. The drive device comprises at least one oil circuit through which oil can flow and at least one pump arranged in the oil circuit, by means of which the oil can be conveyed through the oil circuit. In addition, the drive device comprises at least one arranged in the oil circuit consumer, which is supplied with the oil flowing through the oil circuit. This means that the oil can be pumped by the pump through the oil circuit and thereby to the consumer, thereby providing the consumer with the oil. As a result, for example, the consumer can be lubricated and / or cooled by means of the oil. Alternatively or additionally, the consumer can be operated for example by means of the oil.

Object of the present invention is to improve a drive device of the type mentioned.

This object is achieved by a drive device with the features of claim 1. Advantageous embodiments of the invention are the subject of the dependent claims.

The drive device according to the invention for a motor vehicle comprises at least one oil circuit through which oil can flow. The drive device is for example a component of a drive train of the motor vehicle, which is drivable by means of the drive train and thus by means of the drive device. The drive device further comprises at least one pump arranged in the oil circuit, by means of which the oil can be conveyed through the oil circuit. Furthermore, the drive device comprises at least one arranged in the oil circuit consumers, which is supplied with the oil flowing through the oil circuit. Thus, the oil can be pumped by the pump through the oil circuit and thereby to the consumer, so that the consumer can be supplied with the oil.

In order to be able to realize a particularly advantageous supply of the at least one consumer with the oil, it is inventively provided that in the oil circuit at least one additionally provided to the pump pressure accumulator is arranged, in which the oil is to be stored under pressure. In other words, the oil can be stored under pressure in the example designed as a hydraulic accumulator pressure accumulator so that, for example, the pressure accumulator can provide the pressurized oil. In this case, for example, it is possible in particular for the pressure accumulator to be able to provide the pressurized oil, that is to say the oil with the pressure, in a state in which the pump is deactivated or activated. The activated pump means that the pump is running so that oil is pumped through the oil circuit by means of the pump. Under the deactivated pump is to understand that the pump is not running, so that caused by the pump conveying the oil through the oil circuit is omitted.

The invention is based in particular on the recognition that conventional drive devices have to be supplied with oil consumers who need a short time a very high volume or a very high amount of oil, the oil should have a sufficiently high pressure at the same time. In other words, there is usually the requirement to supply a consumer with a high amount of oil, which at the same time has a high pressure, this requirement, in particular when the pump is deactivated, usually can not be met easily or only with great effort , But even if the pump is activated, the requirement can not be met easily or can only be met by the fact that the pump has a particularly high performance. However, this high performance of the pump is only required in situations that are rare and / or only last a short time. However, if the pump is designed with a high power, this leads to a high power or energy consumption of the pump, resulting in a high energy consumption, in particular a high fuel consumption, the drive device can result.

These problems and disadvantages can be avoided in the drive device according to the invention, since the pressure accumulator can support the pump with respect to providing a high amount of oil which simultaneously has a high pressure or the accumulator can, especially if the pump is deactivated, this Take over function, so that by means of the pressure accumulator stored in the pressure accumulator under pressure oil can be provided with a large amount and at a high pressure. Due to the possibility created by the use of the accumulator, at least for a short time a high amount of oil at a high pressure To be able to provide, for example, the friction of the drive device can be kept low, so that the drive device can be operated very energy efficient and thus, for example, with only a low fuel consumption.

If the drive device is designed, for example, as an internal combustion engine, the use of the pressure accumulator can result in better combustion compared to conventional internal combustion engines, so that the fuel consumption can be kept particularly low.

It has proven to be particularly advantageous if the pressure accumulator is designed to store and provide the oil under pressure in a deactivated state of the pump. In an activated state of the pump, the oil is conveyed by the pump through the oil circuit and can be promoted for example to and in particular in the pressure accumulator, so that for example by means of the pump at least a portion of the oil can be stored in the pressure accumulator. Thus, at least a portion of the oil can be stored in the pressure accumulator, wherein the oil is stored at a high pressure in the pressure accumulator or can be stored. This means that the pressure accumulator exerts a high pressure on the oil stored in the pressure accumulator or applies a high pressure to the oil stored in the pressure accumulator. In a state in which the pump is deactivated, the oil can remain stored in the accumulator under pressure. Further, it is possible that the accumulator in a state in which the pump is deactivated, the high-pressure oil provides, so that for example the consumer can be supplied with a high amount of high-pressure oil, even if the pump is disabled. In this way, a particularly advantageous availability of the consumer can be realized, since it can be supplied with a high oil volume and with a high oil pressure even when the pump is deactivated. In order to store the oil in a particularly advantageous manner in the pressure accumulator with a particularly high pressure, it is provided in a further embodiment of the invention that the pressure accumulator is a housing, a storage element, by means of which the oil absorbed in the pressure accumulator is to be pressurized , and each having a partially limited by the housing and the storage element receiving chamber for receiving the oil, wherein the storage element is at least partially movable relative to the housing, whereby the volume of the receiving chamber is variable. In other words, the oil is introduced into the receiving chamber and thus stored in the pressure accumulator, so for example, the storage element is thereby moved relative to the housing, in particular displaced, whereby the volume of the receiving chamber is increased. By this movement of the storage element, the storage element exerts, for example, a pressure on the oil absorbed in the pressure accumulator, so that the oil can be stored under high pressure in the pressure accumulator.

It has proven to be particularly advantageous if the storage element is designed as a rigid or intrinsically stiff piston which is translationally movable relative to the housing element. Alternatively, it is conceivable that the storage element is designed as a membrane which is elastically deformable and thereby movable relative to the housing.

In order to store the oil with a particularly high pressure in the pressure accumulator, it is provided in a further embodiment of the invention that on a side facing away from the receiving chamber of the storage element at least one designed as a mechanical spring or as a gas spring spring element is arranged, which by introducing of oil in the receiving chamber is compressible or is compressed. As described above, for example, by introducing oil into the receiving chamber, the storage element is moved relative to the housing. As a result, the spring element is compressed, so that the spring element provides a spring force, which acts on the storage element. The spring force acts via the storage element on the oil received in the receiving chamber, whereby the storage element exerts a pressure on the oil. As a result, the oil is stored at a high pressure in the accumulator, so that the accumulator can provide the oil with the high pressure.

If the spring element is designed as a gas spring, then the spring element comprises a gas which is compressed by the introduction of the oil into the receiving chamber and by the resulting movement of the storage element relative to the housing. If, for example, at least part of the oil is removed from the receiving chamber, then the spring element can at least partially relax, as a result of which, for example, the storage element is moved such that the volume of the receiving chamber becomes smaller. This allows the accumulator to provide the oil at a high pressure.

In a particularly advantageous embodiment of the invention, the consumer is designed as a bearing, on which at least two components of the drive means are movable relative to each other, in particular rotatable relative to one another, are mounted. In particular, the bearing can at least one Bearing element, in particular a plain bearing include. This embodiment is particularly advantageous insofar as the possibility of being able to supply the bearing point with a high oil quantity and with a high oil pressure by means of the pressure accumulator means that a lack of lubrication at the bearing point can be avoided. This embodiment is based in particular on the knowledge that at a start of, for example, designed as an internal combustion engine drive device bearings of the internal combustion engine are usually without oil or at such a start at the bearings only a small amount of oil available. This can result in high wear. This is the case in particular for hybrid starts and automatic starting operations in the context of an automatic start-stop system, by means of which the internal combustion engine, for example, first automatically turns off or deactivates at least one predeterminable criterion and then automatically activates it again when at least one criterion is fulfilled, that is is started. In the drive device according to the invention, it is now possible to supply the bearing already before the actual start of the drive device (internal combustion engine) with a sufficiently high amount of oil, so that a lack of lubrication and a resulting, excessive wear can be avoided.

As further particularly advantageous, it has been shown that the consumer is designed as a hydraulically operated actuator. In this case, for example, by means of the oil at least one component of the actuator is moved relative to a further component of the actuator. By using the pressure accumulator, a particularly advantageous availability of the actuator can be realized, since the actuator can also be operated, for example, when the pump is deactivated. Furthermore, particularly small actuation times of the actuator can be realized, since the above-mentioned first component can be moved particularly quickly relative to the further component by the possibility of being able to apply a high oil quantity and a high oil pressure to the first component.

This is particularly advantageous if the hydraulically operated actuator is designed as a camshaft adjuster for variably setting control times of gas exchange valves of the drive device designed, for example, as an internal combustion engine. By means of the accumulator realizable possibility to be able to supply the camshaft adjuster at least for a short time with a high oil quantity and a high oil pressure, the control times can be adjusted very quickly and for example in a short time several times, thereby realizing an efficient and thus low-energy operation of the drive device leaves.

Further details of the invention will become apparent from the following description of a preferred embodiment with the accompanying drawings. This shows in the single FIGURE. A schematic representation of a drive device for a motor vehicle, with an oil circuit, arranged with a arranged in the oil circuit pump with at least one arranged in the oil circuit consumers and at least one arranged in the oil circuit and in addition to the pump pressure accumulator in which oil can be stored under pressure.

The single FIGURE shows a schematic representation of a whole 1 designated drive device for a motor vehicle, in particular a motor vehicle. The motor vehicle comprises a drive train, by means of which the motor vehicle can be driven. In this case, the drive device 1 Component or component of the powertrain. For example, the drive device 1 designed as an internal combustion engine for driving the motor vehicle. Alternatively, it is conceivable that the drive device 1 is designed as a transmission.

The drive device 1 comprises at least one oil-permeable oil circuit 2 and at least one in the oil circuit 2 arranged pump 3 , by means of which the oil passes through the oil circuit 2 can be promoted. The pump 3 is also referred to as an oil pump and is for example designed as a mechanical pump, which, for example, from an output shaft of the drive device 1 is drivable. About the output shaft provides the drive device 1 For example, torques for driving the motor vehicle ready. The drive device 1 further includes at least one in the oil circuit 2 arranged consumers 4 , which with the the oil circulation 2 flowing oil can be supplied. The pump 3 has, for example, an activated state and a deactivated state. When activated, the pump is running 3 , so by means of the pump 3 the oil through the oil circuit 2 and to the consumer 4 is encouraged. In the deactivated state, the pump is running 3 not, so one through the pump 3 causes transport of the oil through the oil circuit 2 omitted.

It is possible that the consumer 4 as a bearing of the drive device 1 is formed, wherein at this bearing, for example, at least two components of the drive device 1 are movable relative to each other, in particular rotatable relative to each other, are stored. One of the components is for example a shaft such as the aforementioned output shaft, wherein the other of the components, for example, a bearing element, in particular a plain bearing, is. The bearing element is, for example, a bearing shell, by means of which a sliding bearing is provided. In this case, the shaft via the bearing element, for example, rotatably on a housing element of the drive device 1 stored. By supplying the bearing with the oil, the bearing or the components are supplied at the bearing with the oil and thereby lubricated by means of the oil.

In the embodiment shown in the figure is the consumer 4 designed as a hydraulically operated actuator in the form of a camshaft adjuster. The example designed as an internal combustion engine drive device 1 is designed for example as a reciprocating engine, which has at least one cylinder designed as a combustion chamber. The combustion chamber gas exchange valves are assigned by means of which the so-called gas exchange of the cylinder is controlled. This means that, by means of the gas exchange valves, an inflow of gas comprising at least air into the cylinder and an outflow of exhaust gas from the cylinder are controlled. The respective gas exchange valve is translationally movable between a closed position and at least one open position. At least one camshaft is involved 5 provided, by means of which at least one of the gas exchange valves from the closed position to the open position is movable. Thus, this is at least one gas exchange valve by means of the camshaft 5 actuated. The camshaft 5 For example, can be driven by the output shaft via a drive device, wherein the drive device may be formed as a traction drive or gear drive.

By means of the camshaft adjuster, the camshaft 5 be rotated relative to the output shaft, so that by means of the camshaft adjuster a rotational position of the camshaft 5 adjusted relative to the output shaft and thus can be varied. As a result, control times of the gas exchange valves can be set variably, that is, varied. Under this variable setting of the timing is to be understood that by means of the camshaft adjuster times or times at which the gas exchange valves actuated, in particular, are opened, set, that can be changed, in particular with respect to the rotation of the output shaft.

In the oil circuit 2 is also at least one reservoir 6 arranged, in which the oil can be absorbed and collected. The oil may, for example, after supplying the consumer 4 from the consumer 4 to that and in particular to the reservoir 6 flow and collect, leaving the reservoir 6 Also referred to as oil reservoir. By means of the pump 3 can that be in the reservoir 6 collected and stored oil from the reservoir 6 back to the consumer 4 be promoted, reducing the oil cycle 2 closed is.

In order now to provide a particularly advantageous supply to the consumer 4 to be able to realize with oil is in the oil circuit 2 at least one in addition to the pump 3 , in addition to the consumer 4 and in addition to the reservoir 6 provided accumulator 7 arranged, which is also referred to as oil pressure accumulator. In the accumulator 7 is to store at least part of the oil under pressure. By means of the pump 3 can, especially in the activated state of the pump 3 , The oil or at least a part of the oil to the and in particular in the pressure accumulator 7 be promoted, so that oil in the accumulator 7 is stored under a high pressure. Both in the activated state and in the deactivated state of the pump 3 can the consumer 4 with the in the accumulator 7 stored under high pressure stored oil, allowing the consumer 4 at least for a short time with a particularly high oil quantity and with a particularly high oil pressure by means of the pressure accumulator 7 can be supplied. In other words, the pressure accumulator 7 that in the accumulator 7 stored oil with the high pressure with which the oil in the accumulator 7 is stored, providing the consumer 4 can be supplied with the oil. As a result, particularly fast adjustment of the camshaft adjuster can be realized, so that by means of the camshaft adjuster, the timing can be changed very quickly.

The accumulator 7 includes a housing 8th , a storage element 9 , by means of which in the accumulator 7 stored oil is to be pressurized, and one in each case partially through the housing 8th and the memory element 9 limited reception chamber 10 to pick up the oil. The storage element 9 is at least partially relative to the housing 8th movable, reducing the volume of the receiving chamber 10 is changed or is changeable.

The housing 8th and the memory element 9 each partially delimit another chamber 11 of the accumulator 7 , the other chamber 11 on one of the receiving chamber 10 remote side of the memory element 9 is arranged. In the other chamber 11 at least one spring element is arranged, which is formed in the embodiment illustrated in the figure, for example, as a gas spring.

Will oil in the receiving chamber 10 initiated, then the memory element 9 such relative to the housing 8th that moves the volume of the receiving chamber 10 enlarged and the volume of the other chamber 11 is reduced. This will in the other chamber 11 absorbed compressed gas spring, so that the gas spring provides a spring force, which on the storage element 9 and about this on the in the reception room 10 absorbed oil acts. As a result, the memory element exercises 9 a pressure on that in the receiving chamber 10 absorbed oil, so that in the receiving chamber 10 absorbed oil by means of the storage element 9 subjected to a pressure and thereby in the pressure accumulator 7 is stored at a high pressure.

Will at least part of the in the receiving chamber 10 absorbed oil from the receiving chamber 10 and thus from the accumulator 7 discharged, so the gas spring can relax at least partially, and the pressure accumulator 7 can provide the oil with a high pressure. Furthermore, the pressure accumulator 7 provide a particularly large amount of the oil, so the consumer 4 can be supplied with a large amount of oil, which at the same time has a particularly high pressure, especially when the pump 3 is disabled.

LIST OF REFERENCE NUMBERS

 1

driving means

2

Oil circuit

3

pump

4

consumer

5

camshaft

6

reservoir

7

accumulator

8th

casing

9

storage element

10

receiving chamber

11

another chamber

Claims (9)

Drive device ( 1 ) for a motor vehicle, with at least one oil flow-through oil circuit ( 2 ), with at least one in the oil circuit ( 2 ) arranged pump ( 3 ) for conveying the oil through the oil circuit ( 2 ) and at least one in the oil circuit ( 2 ) ( 4 ), which with the the oil circuit ( 2 ) is supplied, characterized in that in the oil circuit ( 2 ) at least one in addition to the pump ( 3 ) provided accumulator ( 7 ), in which the oil is to be stored under pressure. Drive device ( 1 ) according to claim 1, characterized in that the pressure accumulator ( 7 ) is adapted to the oil in a deactivated state of the pump ( 3 ) under pressure to store and provide. Drive device ( 1 ) according to claim 1 or 2, characterized in that the pressure accumulator ( 7 ) a housing ( 8th ), a memory element ( 9 ), by means of which the oil is to be pressurized, and in each case partially through the housing ( 8th ) and the memory element ( 9 ) limited receiving chamber ( 10 ) for receiving the oil, wherein the storage element ( 9 ) at least partially relative to the housing ( 8th ), whereby the volume of the receiving chamber ( 10 ) is changeable. Drive device ( 1 ) according to claim 3, characterized in that the memory element ( 9 ) is designed as a rigid piston, which relative to the housing ( 8th ) is translationally movable. Drive device ( 1 ) according to claim 3, characterized in that the memory element ( 9 ) is formed as a membrane, which elastically deformable and thereby relative to the housing ( 8th ) is movable. Drive device ( 1 ) according to one of claims 3 to 5, characterized in that on one of the receiving chamber ( 10 ) facing away from the memory element ( 9 ) is arranged at least one designed as a mechanical spring or as a gas spring spring element, which by introducing oil into the receiving chamber ( 10 ) is compressible. Drive device ( 1 ) according to one of the preceding claims, characterized in that the consumer ( 4 ) is designed as a bearing, on which at least two components of the drive device ( 1 ) are mounted movable relative to each other. Drive device ( 1 ) according to one of the preceding claims, characterized in that the consumer ( 4 ) is designed as a hydraulically operated actuator. Drive device ( 1 ) according to claim 8, characterized in that the hydraulically operated actuator as a camshaft adjuster for variably setting control times of gas exchange valves of the drive device ( 1 ) is trained.

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