DE102019000896A1 - Valve device for a circuit of a motor vehicle through which a lubricant can flow - Google Patents

Abstract

The invention relates to a valve device (40) for a circuit (16) through which a lubricant can flow, with a housing (44), with a spring element (50) arranged in the housing (44), and with one arranged in the housing (44) and on the spring element (50) supported valve element (54), which against a spring force provided by the spring element (50) from a closed position blocking a flow opening (58) for the lubricant into at least one open position releasing the flow opening (58) relative to the housing (44) is displaceable, wherein a slide (60) which can be displaced relative to the housing (44) is arranged in the housing (44), and wherein the spring element (50) is supported on the slide (60) and on the valve element (54) which is displaceable against the spring force provided by the spring element (50) from the closed position into the open position relative to the slide (60).

Description

The invention relates to a valve device for a circuit of a motor vehicle through which a lubricant can flow according to the preamble of patent claim 1.

Such a valve device for a circuit of a motor vehicle, in particular a motor vehicle, through which a lubricant, in particular oil, can flow and is also referred to as a lubricant circuit or oil circuit, is for example already the DE 10 2014 009 361 A1 as known. The valve device has a housing and at least one spring element arranged in the housing. In addition, the valve device comprises at least one valve element which is arranged in the housing and is at least indirectly supported on the spring element along a direction of movement, which relative to a spring force provided by the spring element from a closed position blocking a flow opening for the lubricant into at least one open position releasing the flow opening along the direction of movement is displaceable to the housing.

Furthermore, the DE 10 2013 010 781 A1 a thermostat of a fluid system. From the DE 199 43 294 A1 a flow device within an oil circuit of an internal combustion engine is known. In addition, the DE 10 2014 017 102 A1 a lubricant supply device for an internal combustion engine of a motor vehicle.

The object of the present invention is to improve a valve device of the type mentioned at the beginning.

This object is achieved by a valve device with the features of claim 1. Advantageous refinements with expedient developments of the invention are specified in the remaining claims.

In order to improve a valve device of the type specified in the preamble of claim 1, it is provided according to the invention that the valve device comprises a slide which is arranged in the housing and is displaceable along the direction of movement relative to the housing. Furthermore, the spring element is supported along the direction of movement at least indirectly, in particular directly, on the slide and, on the other hand, at least indirectly, in particular directly, on the valve element. The valve element can be displaced from the closed position into the open position along the direction of movement relative to the slide against the spring force provided by the spring element.

The valve device also includes a thermoactive spring that is arranged in the housing and, along the direction of movement, at least indirectly, in particular directly, on the housing and, on the other hand, at least indirectly, in particular directly, supported on the slide and around which the lubricant flowing through the flow opening can flow directly. The feature that the lubricant can flow directly around the thermoactive spring is to be understood as the fact that the lubricant which flows through the flow opening when the valve element releases the flow opening can flow directly onto and around the spring and thus directly touch it . The spring has a preload or tension that changes as a result of heat exchange with the lubricant flowing directly around the spring. In other words, the fact that the lubricant touches the thermoactive spring directly results in a heat exchange between the spring and the lubricant. As a result of the heat exchange, for example, heat is transferred from the lubricant to the spring, whereby the spring is heated. It is also conceivable that heat is transferred from the spring to the lubricant, as a result of which the spring cools down. The heating or cooling of the spring causes a temperature change in the spring, which changes its tension or pretension as a result of the temperature change. As a result of the change in temperature, the spring, for example, is elongated or shortened, as a result of which the slide is displaced relative to the housing, for example by means of the spring. The change in the preload of the spring is accompanied by a change in an opening pressure from which the valve element is opened, that is, it is moved from the closed position into the open position.

The change in the opening pressure is to be understood as meaning that, for example, when the spring is cold, the opening pressure has a first value. If the spring is warm, the opening pressure has a second value that is lower than the first value. If a pressure of the lubricant corresponds to the opening pressure, the valve element is opened by the pressure acting on the valve element by the lubricant. Since the opening pressure varies with a temperature of the thermoactive spring and is therefore temperature-dependent, the valve device according to the invention is a temperature-dependent pressure valve, in particular a temperature-dependent differential pressure valve, by means of which, for example, at least one pressure in at least one branch of the circuit is simple in a space-saving, weight-saving and cost-effective manner and can be adjusted as required. In particular, the valve device according to the invention can function as a throttle valve, by means of which a first pressure of the lubricant can be reduced to a second pressure which is lower than the first pressure. The lubricant is conveyed for example by means of a pump, also referred to as an oil pump, in such a way that the lubricant has the first pressure. As a result, at least one high-pressure consumer can be supplied with the lubricant having the first pressure. The lubricant can flow into at least one branch of the circuit via the valve device according to the invention, the first pressure being able to be lowered to the second pressure by means of the differential pressure valve functioning, for example, as a throttle valve. As a result, at least one low-pressure consumer can be supplied, in particular operated, with the lubricant having the second pressure, so that both the high-pressure consumer and the low-pressure consumer can be supplied with the first pressure or the second pressure in a simple manner.

Further advantages, features and details of the invention result from the following description of preferred exemplary embodiments and from the drawing. The features and combinations of features mentioned above in the description as well as the features and combinations of features mentioned below in the description of the figures and / or shown alone in the figures can be used not only in the respectively specified combination, but also in other combinations or alone, without the scope of the Invention to leave.

• 1 eine schematische Darstellung einer Schmiermittelversorgungseinrichtung für ein Kraftfahrzeug, insbesondere für einen Kraftwagen;
• 2 ausschnittsweise eine schematische Schnittansicht einer erfindungsgemäßen Ventileinrichtung gemäß einer ersten Ausführungsform;
• 3 ausschnittsweise eine weitere schematische Schnittansicht der Ventileinrichtung gemäß der ersten Ausführungsform;
• 4 ausschnittsweise eine schematische Schnittansicht der Ventileinrichtung gemäß einer zweiten Ausführungsform;
• 5 ausschnittsweise eine schematische Schnittansicht der Ventileinrichtung gemäß der zweiten Ausführungsform;
• 6 ausschnittsweise eine schematische Schnittansicht der Ventileinrichtung gemäß einer dritten Ausführungsform; und
• 7 ausschnittsweise eine weitere schematische Schnittansicht der Ventileinrichtung gemäß der dritten Ausführungsform.

The drawing shows in:

• 1 a schematic representation of a lubricant supply device for a motor vehicle, in particular for a motor vehicle;
• 2 a fragmentary schematic sectional view of a valve device according to the invention according to a first embodiment;
• 3 a detail of a further schematic sectional view of the valve device according to the first embodiment;
• 4th a fragmentary schematic sectional view of the valve device according to a second embodiment;
• 5 a fragmentary schematic sectional view of the valve device according to the second embodiment;
• 6 a fragmentary schematic sectional view of the valve device according to a third embodiment; and
• 7th a detail of a further schematic sectional view of the valve device according to the third embodiment.

Identical or functionally identical elements are provided with the same reference symbols in the figures.

1 shows a lubricant supply device in a schematic view 10 for a motor vehicle, in particular for a motor vehicle. The lubricant supply device 10 is used, for example, to supply an internal combustion engine for driving the motor vehicle with a lubricant also known as oil or lubricating oil or motor oil. Alternatively or additionally, the lubricant supply device 10 High pressure consumer 12th and low pressure consumers 14th supplied with the lubricant, with at least one of the high pressure consumers 12th and / or at least one of the low-pressure consumers 14th can be a component of the internal combustion engine.

The lubricant supply device 10 comprises a circuit through which the lubricant can flow and is also referred to as an oil circuit or lubricant circuit 16 in which the high pressure consumer 12th and the low pressure consumers 14th are arranged. The high pressure consumers 12th are in a first branch 18th of the cycle 16 arranged, with the low-pressure consumer 14th in a second branch 20th of the cycle 16 are arranged. The lubricant can with a first pressure through the branch 18th flow so that the high pressure consumers 12th can be supplied with the lubricant having the first pressure. The lubricant flows through the branch at a second pressure that is lower than the first pressure 20th so that the low-pressure consumers 14th can be supplied with the lubricant having the second pressure. Since the first pressure is higher than the second pressure, the first pressure is also referred to as high pressure (HP), with the second pressure also being referred to as low pressure (LP). One of the high pressure consumers 12th is for example a camshaft bearing or the high pressure consumer 12th may include at least one or more camshaft bearings. A second is the high pressure consumer 12th is for example a camshaft adjuster or the high pressure consumer 12th can comprise at least one camshaft adjuster. Alternatively or additionally, at least one is the high pressure consumer 12th a chain tensioner or the high pressure consumer 12th can comprise at least one chain tensioner. For example, the first pressure is in a range of 1 inclusive, 5 bar up to and including 4.5 bar. The low pressure consumers 14th can for example comprise at least one engine and / or at least one piston syringe and / or at least one cylinder head of the internal combustion engine and / or at least one exhaust gas turbocharger and / or at least one vacuum pump.

The lubricant supply device 10 comprises a reservoir designed as a tank, for example 22nd , in which the lubricant, especially after the lubricant branches 18th and 20th has flowed through, can collect. Via a filter 24 can also be referred to as an oil pump or lubricant pump 26th the lubricant from the reservoir 22nd suck in and thus promote. Here is the pump 26th preferably a variable pump, so that a means of the pump 26th The volume flow of the lubricant to be conveyed is adjustable, in particular controllable. The pump, also known as a variable-volume oil pump 26th can thus as required a respective, from the high pressure consumers 12th and the low pressure consumers 14th Pump the required amount of lubricant. The pump 26th is for example via a proportional valve 28 , which is also referred to as a control valve, is controlled as a function of a map, in particular such that the pump 26th is regulated to the high pressure or to the low pressure. Thus, for example, the pump delivers 26th the lubricant with the first pressure. Via a check valve 30th and an oil filter 32 is the lubricant by means of the pump 26th to a heat exchanger 34 promoted through which the lubricant can flow and therefore in the circuit 16 is arranged. The heat exchanger 34 is in the present case, for example, designed as an oil / water heat exchanger and thus the lubricant and a liquid which at least or exclusively comprises water can flow through. Via the heat exchanger 34 the lubricant can be tempered, in particular cooled, by means of the liquid. From the heat exchanger 34 can get the lubricant to, into, and through the branches 18th and 20th and thus to the high pressure consumers 12th and to the low-pressure consumers 14th stream.

In the branch 20th is a pressure sensor 36 arranged, by means of which the second pressure or its value can be detected. The pressure sensor 36 provides a signal, which is, for example, an electrical signal, and from an electronic computing device also referred to as a control unit 38 Will be received. For example, depending on that of the electronic computing device 38 received signal controls the electronic computing device 38 the proportional valve 28 on, whereby for example by means of the electronic computing device 38 via the proportional valve 28 the pump 26th depending on the means of the pressure sensor 36 detected second pressure is operated, in particular regulated, is. This, for example, the pump 26th regulated to the low pressure or operated in such a way that the branch 20th lubricant flowing through has the low pressure.

In the cycle 16 is a valve device designed as a temperature-dependent differential pressure valve 40 arranged over which the from the heat exchanger 34 coming lubricant in the branch 20th can flow in or flow in. Besides, it's off 1 recognizable that the check valve 30th , the oil filter 32 , the heat exchanger 34 and the valve device 40 Components of an oil filter module 42 are. For example, by means of the valve device 40 the first pressure with which the lubricant, for example from the pump 26th is promoted, lowered to the second pressure (low pressure). Alternatively or additionally, it is conceivable that the valve device 40 the pressure in the branch also known as the HD channel 20th increased by a particularly temperature-dependent value.

2 and 3 show a first embodiment of the valve device 40 . The valve device 40 includes a housing also referred to as a valve housing 44 , which - as in 2 is illustrated by arrows - through which the lubricant can flow. The case 44 has an inlet, also known as the inflow 46 and a process also known as an outflow 48 on. The lubricant flows through the inlet, for example at high pressure 46 and thus over the inlet 46 in the housing 44 a. Furthermore, for example, the lubricant flows through the drain with the low pressure 48 and thus about the process 48 out of the case 44 out. This means, for example, that the lubricant with the high pressure in the valve device 40 flows in and with the low pressure from the valve device 40 flows out, so that by means of the valve device 40 the high pressure is lowered to the low pressure.

For this purpose, the valve device comprises 40 a spring element arranged in the housing 50 and one in the case 44 arranged and along an in 2 by a double arrow 52 illustrated direction of movement at least indirectly, in particular directly, on the spring element 50 supported valve element 54 , which is also referred to as a piston or valve piston. In the case 44 is also a valve seat 56 for the valve element 54 provided, the valve seat 56 integral with the housing 44 can be formed. Alternatively, it is conceivable that the valve seat 56 and the case 44 are designed as separately formed and interconnected components, wherein the valve seat 56 in the case 44 is arranged. In particular, the valve seat is 56 on the housing 44 set or relative to the housing 44 immobile.

The valve element 54 is along the direction of movement relative to the housing 44 displaceable, in particular between a closed position not shown in the figures and at least one in 2 and 3 shown open position. Here is the valve element 54 contrary to one by the spring element 50 provided spring force from the closed position into the open position relative to the housing 44 displaceable along the direction of movement, that is to say movable in a translatory manner. The valve element sits in the closed position 54 on the corresponding valve seat 56 so that the valve element 54 the valve seat in the closed position 56 touched directly. This closes the valve element 54 one through the valve seat 56 directly limited flow opening 58 so that the lubricant does not pass through the flow opening 58 and thus not through the valve device 40 can flow through. In the open position, however, the valve element gives 54 the flow opening 58 free, so that - as in 2 and 3 shown by the arrows - the lubricant through the flow opening 58 and by the valve device 40 overall can flow through.

To now the low pressure by means of the valve device 40 The valve device includes being able to adjust in a particularly simple, space-saving, weight-saving and cost-effective manner 40 one in the case 44 arranged and along the direction of movement relative to the housing 44 sliding slide 60 . The spring element 50 is on the one hand at least indirectly, in particular directly, on the slide along the direction of movement 60 especially on a floor 62 of the slide 60 , and on the other hand at least indirectly, in particular directly, on the valve element 54 supported. The valve element 54 is thus contrary to that caused by the spring element 50 provided spring force from the closed position into the open position along the direction of movement relative to the slide 60 movable.

It is also in the housing 44 one along the direction of movement on the one hand at least indirectly, in particular directly, on the housing 44 and on the other hand, at least indirectly, in particular directly, on the slide 60 supported, thermoactive and from which the flow opening 58 Flowing lubricant directly around the spring 64 arranged, the bias or tension as a result of a heat exchange between the spring 64 and the pen 64 directly flowing around lubricant changes. The feather 64 and the spring element 50 are separate springs. In addition, there is a separate, additional spring 66 in the case 44 added, with the spring 66 along the direction of movement, on the one hand, at least indirectly, in particular directly, on the housing 44 and on the other hand, at least indirectly, in particular directly, on the slide 60 is supported. Out 2 can be seen that the spring 64 directly on the valve seat 56 and thus over the valve seat 56 along the direction of movement on the housing 44 is supported. The feather 64 is thus on the one hand directly on the slide 60 and on the other hand via the valve seat 56 on the housing 44 supported along the direction of movement.

The slider 60 has throughflow openings 66 through which the lubricant can flow. In particular, the flow openings 66 permanent or always open. For example, the valve element is initially located 54 In the closed position, for example, the high pressure and thus a high oil pressure level are initially present in the inflow. The high pressure acts on the valve element via the inflow 54 . If the high pressure reaches or exceeds a so-called opening pressure of the valve element 54 so will the valve element 54 from its closed position into its open position by means of the high pressure corresponding to or exceeding the opening pressure. This gives the valve element 54 the flow opening 58 in the form of a throttle gap, which generates a volume flow-dependent differential pressure between the inflow and the outflow. By means of the throttle gap and thus by means of the valve element 54 the lubricant or the high pressure is throttled in such a way that the high pressure is lowered to the low pressure so that the lubricant with the low pressure flows through the drain and via the drain from the valve device 40 flows out and into the branch 20th flows in.

By a special arrangement of the slide 60 and the valve piston (valve element 54 ) as well as using the thermoactive spring 64 becomes a valve in the form of the valve device 40 created, which changes the opening pressure depending on a temperature of the lubricant also referred to as the temperature level, that is to say varies. For example, assign the lubricant and thus the spring 64 a first, low temperature, then the opening pressure of the valve element 54 a high first value. The feather 64 is designed with regard to its characteristics to a lower value of the opening pressure compared to the first value, while the spring 66 is designed for the first value of the opening pressure. The first value of the opening pressure is also referred to as the high opening pressure, while the second value of the opening pressure is also referred to as the low opening pressure. Thus, the lubricant or the spring is shown first 64 the first, low temperature, becomes the spring 64 by means of the spring 66 over the slider 60 compressed so that the slide 60 along the direction of movement on the valve element 54 is applied or vice versa and so, for example, initially the valve element 54 against the valve seat 56 is pressed. This forms the valve element 54 and the slide 60 a common slide unit, which opens when the high pressure corresponds to the high opening pressure, that is to say from the closed position from the open position of the valve element 54 is moved. In other words, the pen points 64 the low, first temperature on, so the spring 64 is cold, then when the high pressure corresponds to the high opening pressure or exceeds the high opening pressure, the valve element 54 and the slide 60 together or simultaneously along the direction of movement relative to the housing 44 from the closed position to the open position of the valve element 54 postponed. The thermoactive spring is at the low, cold first temperature 64 thus still ineffective and does not bring any force into the system. For example, there is the slide 60 and the valve element 54 together in the closed position of the valve element 54 so takes the slide 60 for example a first position. Here is the slide 60 along the direction of movement with the mediation of the valve element 54 in a coincident with the direction of movement and in 2 by an arrow 68 illustrated first direction on the valve seat 56 and thus above this on the housing 44 supported. The open position of the valve element 54 and thus the said slide unit corresponds to an intermediate position of the slide 60 , which together with the valve element 54 then along the direction of movement relative to the housing 44 in a direction coinciding with the direction of movement, opposite to the first direction and in 2 by an arrow 70 illustrated second direction is shifted into an intermediate position when the high pressure corresponds to or exceeds the high opening pressure. The named intermediate position corresponds to the open position of the valve element 54 .

If, for example, as the operation of the lubricant supply device continues, the lubricant flowing from the inflow to the outflow is heated, the thermoactive spring is thereby activated 64 heated because the lubricant flowing from the inflow to the outflow the spring 64 flows directly on and around it and thereby a heat exchange between the lubricant and the spring 64 in particular takes place in such a way that heat is transferred from the lubricant to the spring 64 transforms. This heating of the spring 64 a lattice structure switching point of the spring is exceeded 64 . As a result, the thermoactive spring changes 64 their tension or preload such that the thermoactive spring 64 provides a spring force acting along the direction of movement which is greater than that of the spring 66 provided spring force. The one from the pen 66 provided spring force acts, for example, in the first direction, with that of the spring 64 provided spring force acts in the second direction opposite to the first direction. Will the by the pen 64 provided spring force greater than that of the spring 66 provided spring force, so the slide 66 by means of the spring 64 provided spring force along the direction of movement and thereby in the second direction relative to the housing 44 moved, especially to an in 3 shown second position of the slide 60 . Thereby the slide 60 in the second direction relative to the valve element 54 moved along the direction of movement and thereby in the second direction. The slide is in the second position 60 in the second direction (arrow 70 ) at least indirectly, in particular directly, on the housing 44 supported, said intermediate position to the first position or between the closed position and the open position. Based on the in 2 The intermediate position shown can be the slide unit or the slide 60 and the valve element 54 move together into the first position or into the closed position.

While the slide 60 is in the second position, the valve element 54 for example, contrary to that by the spring element 50 provided spring force moved from the closed position into the open position or held in the open position. The second position is, for example, a top dead center of the slide 60 . By moving the slider 60 the spring is in the second position 64 ineffective. Then only the spring element is or will be 50 actively and influences or regulates the throttle gap, also referred to as the opening cross-section, or the flow opening 58 or their opening cross-section through which the lubricant can flow, in which the valve piston is against the spring element 50 relative to the slide 60 moved or can move along the direction of movement.

The slider is located 60 in the second position, the fact that in the second position the spring is sufficient 66 is inactive, the lower opening pressure compared to the high opening pressure from the valve element 54 contrary to that by the spring element 50 provided spring force from the closed position into the open position along the direction of movement relative to the housing 44 and in particular relative to the slide 60 to move or to hold in the open position. If the high pressure falls below the low one Opening pressure, so the valve element 54 by means of the spring element 50 provided spring force relative to the slide 60 shifted from the open position to the closed position along the direction of movement and in particular in the first direction, in particular during the slide 60 by means of the spring 64 is held in the second position. Cools the spring over time 64 off, so lets the pen 64 one by the pen 66 caused displacement of the slide 60 in the first direction and thereby in the first position, so that then the valve element again 54 and the slide 60 form the common sliding unit.

4th and 5 show a second embodiment of the valve device 40 . As with the first embodiment, the springs are 64 and 66 on respective sides of the slide facing away from one another along the direction of movement 60 each directly on the slide 60 supported. Knows the pen 64 the first, cold temperature on, so will the slide 60 by means of the spring 66 in an in 4th first position shown. The slide is in the first position 60 in the first direction (arrow 68 ) over the valve seat 56 on the housing 44 supported while the valve element 54 along the direction of movement (double arrow 52 ) relative to the housing 44 and relative to the slider 60 is movable. In particular, the valve element 54 contrary to that by the spring element 50 provided spring force can be moved along the direction of movement and in the second direction from the closed position to the open position, in particular when the high pressure reaches or exceeds the high opening pressure. In the second embodiment, the opening pressure is determined by changing a preload of the spring element 50 changed or varied, the change in the bias of the spring element 50 by changing the preload of the thermoactive spring 64 is effected. The spring pushes when the temperature is cold 66 the slider 60 in the in 4th first position shown, which is a bottom dead center of the slide 60 is. If the high pressure reaches or exceeds the high opening pressure, the valve element becomes 54 open. For example, if the spring heats up with increasing use 64 so pushes the thermoactive spring 64 the slider 60 from the first position to an in 5 second position shown. The slide is used for this 60 by means of the spring 64 in the second direction relative to the housing 44 postponed. The slide is in the second position 60 in the second direction, in particular directly, on the housing 44 supported while the valve element 54 along the direction of movement relative to the slide 60 and relative to the housing 44 is displaceable between the closed position and the open position. While the slide 60 is in the second position, the tension or bias of the spring element 50 as if the slide 60 is in the first position. Then the low opening pressure, which is lower than the high opening pressure, is sufficient to control the valve element 54 to open.

6 and 7th show a third embodiment of the valve device 40 . In the third embodiment, a pressure difference or a pressure difference, in particular between the inflow and the outflow, is only achieved by using two check valves. A first of the check valves is, for example, through the valve element 54 formed, being on the slide 60 a second check valve 72 is arranged. At the first, low or cold temperature, for example, the slide 60 in an in 6 shown first position by means of the spring element 50 held. The slide is in the first position 60 in the by the arrow 70 illustrated second direction at least indirectly, in particular directly, on the housing 44 supported. The housing 44 a second through-flow opening 74 which is in the first position of the slide 60 through the slider 60 is blocked. The check valve 72 has a return spring 76 and a check valve element 78 on, which along the direction of movement between an in 7th locking position shown and one in 6 Released position shown relative to the slide 60 is movable. The slide points 60 a third through-flow opening 80 on. The flow opening is in the blocked position 80 by means of the check valve element 78 blocked. In the release position there is the check valve element 78 the flow opening 80 free.

The slider is located 60 in the in 6 first position shown, the lubricant must pass through the check valve, which is designed as a ball check valve 72 , that is, through the flow opening 80 flow through it, the check valve 72 has the high opening pressure. If the high pressure corresponds to or exceeds the high opening pressure, the check valve element becomes 78 moved from the blocking position into the release position, and the lubricant can both through the flow opening 58 as well as through the flow opening 80 flow through it because, for example, the high opening pressure is sufficient to the valve element 54 contrary to that by the spring element 50 provided spring force along the direction of movement in such a way relative to the slide 60 and relative to the housing 44 move, especially while the slide is moving 60 is in the first position so that the valve element 54 is moved into the open position or held in the open position.

If the spring heats up with increasing operation 64 so pushes, in particular pushes, the spring 64 the slider 60 from the in 6 first position shown in 7th Second position shown, in which the slide 60 in the first direction on the valve seat 56 and above this on the housing 44 is supported. In the second position, the slide gives 60 the flow opening 74 free so that the lubricant flows through the opening 74 flows through and thus the flow opening 80 bypasses, especially while the check valve element 78 by means of the return spring 76 is held in the locked position. Thus the low opening pressure is achieved by the spring element 50 causes or the lubricant can then already through the valve device 40 flow when the high pressure corresponds to the low opening pressure or exceeds the low opening pressure. In other words, if the high pressure corresponds to or exceeds the low opening pressure, the valve element becomes 54 contrary to that by the spring element 50 provided spring force, especially while the slide is open 60 is in the second position, so that the lubricant then through the flow opening 58 and through the flow opening 74 can flow through and thus from the inflow to the outflow. The lubricant bypasses the check valve 72 via the flow opening 74 .

List of reference symbols

10

Lubricant supply device

12th

High pressure consumer

14th

Low pressure consumers

16

Cycle

18th

branch

20th

branch

22nd

reservoir

24

filter

26th

pump

28

Proportional valve

30th

check valve

32

Oil filter

34

Heat exchanger

36

Pressure sensor

38

electronic computing device

40

Valve device

42

Oil filter module

44

casing

46

Intake

48

procedure

50

Spring element

52

Double arrow

54

Valve element

56

Valve seat

58

Flow opening

60

Slider

62

ground

64

thermoactive spring

66

Flow opening

68

arrow

70

arrow

72

check valve

74

Flow opening

76

Return spring

78

Check valve element

80

Flow opening

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 102014009361 A1 [0002]
• DE 102013010781 A1 [0003]
• DE 19943294 A1 [0003]
• DE 102014017102 A1 [0003]

Claims (8)

Valve device (40) for a circuit (16) of a motor vehicle through which a lubricant can flow, with a housing (44), with at least one spring element (50) arranged in the housing (44), and with at least one arranged in the housing (44) and along a direction of movement (52) at least indirectly on the spring element (50) supported valve element (54), which against a spring force provided by the spring element (50) from a closed position (58) for the lubricant blocking a flow opening into at least one flow opening ( 58) releasing open position is displaceable along the direction of movement (52) relative to the housing (44), characterized in that: - in the housing (44) a slide (60) displaceable along the direction of movement (52) relative to the housing (44) ) is arranged; - The spring element (50) along the direction of movement (52) is supported on the one hand at least indirectly on the slide (60) and on the other hand at least indirectly on the valve element (54), which against the spring force provided by the spring element (50) from the closed position into the The open position is displaceable along the direction of movement (52) relative to the slide (60); and - in the housing (44) along the direction of movement (52) on the one hand at least indirectly on the housing (44) and on the other hand at least indirectly on the slide (60) supported, thermoactive and the lubricant flowing through the flow opening (58) can flow directly around the spring (64) is arranged, the bias of which changes as a result of heat exchange with the lubricant flowing directly around the spring (64). Valve device (40) after Claim 1 , characterized in that the valve element (54) and the slide (60) can be moved together along the direction of movement (52) against the spring force of the spring element (50) from the closed position into the open position of the valve element (54) relative to the housing (44) are. Valve device (40) after Claim 1 or 2 , characterized in that the slide (60) can be displaced relative to the housing (44) along the direction of movement (52) by changing the bias of the spring (64) between at least one first position and at least one second position. Valve device (40) after Claim 3 , characterized in that the slide is supported at least indirectly on the housing (44) at least in the first position in a first direction (70) coinciding with the direction of movement (52). Valve device (40) after Claim 4 , characterized in that the housing (44) has a second throughflow opening (74) for the lubricant, the second throughflow opening (74) being blocked in the first position by means of the slide (60). Valve device (40) after Claim 5 , characterized in that the slide (60) in the second position releases the second throughflow opening (74). Valve device (40) after Claim 6 , characterized in that: - the slide (60) has a third throughflow opening (80) for the lubricant, the third throughflow opening (80) being able to be bypassed by the lubricant in the second position of the slide (60) via the second throughflow opening (74) is; and - a check valve (72) with a check valve element (78) is arranged on the slide (60) which, in particular while the slide (60) is in the first position, relative to the slide (60) between a third throughflow opening (80) closing blocking position and at least one release position releasing the third throughflow opening (80) can be moved in a spring-loaded manner. Valve device (40) according to one of the Claims 4 to 7th , characterized in that the slide (60) in the second position is supported at least indirectly on the housing (44) in a second direction (68) which coincides with the direction of movement (52) and is opposite to the first direction (70).

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