DE102019210578A1 - Adjustable damping valve device with a piezo actuator - Google Patents

Abstract

Damping valve device comprising at least two individual damping valves, which can be adjusted with regard to their damping force characteristics via at least one piezo actuator, the at least one piezo actuator being connected to a supply line which runs in the area of a damping valve body, the damping valve body being designed as a hollow body in which the at least one piezo actuator is arranged, the hollow body being formed by at least two individual parts.

Description

The invention relates to an adjustable damping valve device according to the preamble of patent claim 1.

In the case of a piezo actuator, the change in length of a piezo element that occurs when an electrical voltage is applied is used, e.g. B. to adjust a damping valve. The DE 41 93 093 C2 discloses an adjustable damping valve device with one damping valve for each direction of flow. A piezo element is arranged on both sides of a damping valve body, which increases a closing force on a valve disc when it expands axially.

The electrical supply lines are not shown, but it is easy to see that the contacting of the piezo elements with a supply line within a piston rod 5 is difficult to design in a large-scale production.

In the JP 4-19435 A Therefore, a two-part damping valve device is used, which comprises an adjustable piston valve and an adjustable bottom valve. With regard to line protection, it is fundamentally difficult to lay a cable emerging from a cylinder in the area of a bottom valve in such a way that, if possible, no damaging influences can take effect in the wheel arch.

Another disadvantage of the piezo actuator is that the linear expansion is comparatively small. However, it is known that the actuator is to amplify its effect via a lever arrangement. In the 1 the JP 2008-223911 a lever arrangement is shown as an example, which, however, is very complex due to the large number of joints.

The object of the present invention is to realize a production-optimized damping valve device.

The object is achieved in that the damping valve body is designed as a hollow body in which the at least one piezo actuator is arranged, the hollow body being formed by at least two individual parts.

The hollow body is the best prerequisites for assembly, as there is no need to thread the connecting lines through to the piezo actuator several times.

In a further advantageous embodiment of the invention it is provided that at least part of the supply line is chambered by opposite end faces of the two individual parts. On the one hand, the resulting open cable duct simplifies the assembly, but also the sealing of the hollow body against leakage.

There is also the possibility that the supply line runs along an outer jacket surface of the damping valve body. To protect the supply line, you can then, for example, pull on a shrink tube.

In addition, the damping valve body can be equipped with a cover plate which fixes the supply line on a cover side of the damping valve body. As a result, the surface design can be significantly simplified, since no special cable routing has to be carried out in the surface of the damping valve body.

As a further measure to simplify assembly, the at least one piezo actuator is functionally arranged between the two individual damping valves and the two individual damping valves are adjusted when activated. The advantage is that you only need one connection to control both individual valves. This significantly simplifies the line routing on and in the damping valve device.

With a view to cost-effective production of the damping valve device, the individual parts of the damping valve body are based on identical blanks. The main flow paths are identical. There may be deviations in the fastening means for valve disks or the like.

For a simple flow of the damping medium through the damping valve device, outlet openings for the damping medium are equipped with check valves which assume a flow position in the outflow direction.

In order to increase the adjustment path of the piezo actuator, provision can be made for the piezo actuator to act on a rocker arm that transmits an adjustment movement to at least one valve disk of the damping valve.

In a further advantageous embodiment, the rocker arm is formed by an elastic tilt disk. A tilting plate is much more robust and a mechanical preload can be introduced, the force of which is independent of the force of the piezo actuator.

In order to avoid complex mountings for the rocker arm, the rocker arm is mounted on a rocker edge of the damping valve body. If the force application point of the piezo actuator and the force application point of the rocker arm are on the same side as the force application point, then the center is centered Rocker arm in the form of a tilting disk is particularly simple.

Another measure for good accessibility of the piezo actuator consists in that an inner wall of the damping valve body has a support bracket for the piezo actuator.

The invention is to be explained in more detail on the basis of the following description of the figures.

• 1 Dämpfventileinrichtung mit einem Piezo-Aktuator für beide Einzelventile
• 2 Dämpfventileinrichtung mit getrennten Piezo-Aktuatoren

It shows:

• 1 Damping valve device with a piezo actuator for both individual valves
• 2 Damping valve device with separate piezo actuators

The 1 shows a section from a vibration damper 1 Any design in the area of a damping valve device 3 , which in this embodiment example on a piston rod 5 is attached. The damping valve device 3 includes two single damping valves 7th ; 9 that have at least one common piezo actuator 11 are adjustable with regard to their damping force characteristics. The piezo actuator 11 has a ring shape and is centered indirectly on the said piston rod 5 . The piezo actuator 11 is with a supply line 13th connected, at least in part, by a canal 15th the piston rod 5 runs, and in a damping valve body 17th opens out, which is designed as a hollow body and in which the piezo actuator 11 is arranged. The damping valve body 17th is formed by at least two individual parts, so that a cavity 19th inside the damper valve body 17th is easy to access. Each end cover 21st ; 23 in connection with a cylinder 25th form the hollow body 19th . Both lids 21st ; 23 of the damping valve body 17th are based on identical blanks and have L-shaped passages 27 ; 29 , the outlet openings of which are from valve disks 31 ; 33 are covered. The passage channels 27 ; 29 form with the respective valve disks 31 ; 33 the two individual valves 7th ; 9 . The two lids 21st ; 23 lean on a paragraph 35 ; 37 inside the cylinder 25th and are for example by means of a form-fit connection 39 ; 41 with the cylinder 25th connected. The piston rod 5 penetrates the damping valve body 17th completely that against a shoulder 43 the piston rod 5 is tense. The damping valve body 17th divides a cylinder 45 as part of a vibration damper in two work rooms 47 ; 49 that are filled with a hydraulic damping medium.

Outlet openings 51 ; 53 on the outer cover sides of the damping valve body 17th are with valve discs 55 ; 57 , each of the check valves 59 ; 61 form, equipped, in the direction of flow from the damping valve housing 17th take an open position. These check valves 59 ; 61 only require minimal pressurization to open.

A spacer sleeve 63 inside the damper valve body 17th fixes the valve discs 31 ; 33 the damping valves 7th ; 9 within the tension chain of the damping valve device 3 . In the spacer sleeve 63 is a radial through hole 65 , here as a groove on the face, designed around the supply line 13th respectively. The at least one piezo actuator 11 is functional between single damping valves 7th ; 9 arranged, which are adjusted in the same direction when the piezo actuator is activated. If necessary, the piezo actuator 11 another profile beam 67 have, each on the top of the associated damping valve 7th ; 9 and its distance from the central axis represents a parameter for the basic damping valve setting.

When the piston rod moves 5 inside the cylinder 45 Damping medium flows into the passage channels 27 ; 29 and hits the valve disc 31 ; 33 of the damping valve 7th ; 9 . The pressure drop when passing through the damping valve 7th ; 9 provides a damping force that is dependent on the energization of the piezo actuator 11 can be changed in that it expands axially and the preload on the valve disks 31 ; 33 elevated. The damping medium flows through the cavity 19th and passes through the check valves 59 ; 61 in the other work area 47 ; 49 .

The execution after 2 follows the construction principle 1 . The lids are different 21st ; 23 each with a cylindrical section 69 ; 71 provided so that only two components are necessary to the damping valve body 17th to build. A difference to the 1 consists in the management of the supply line 13th . So at least part of the supply line becomes 13th from opposite end faces 73 ; 75 of the two individual parts. The supply line also runs 13th along an outer jacket surface 77 of the damping valve body 17th . So that is the supply line 13th very accessible. You can use the damper valve body 17th with a cover disk 79 equip the supply line 13th on a top side of the lid 21st fixed. When assembling the supply line 13th into the hollow piston rod 5 threaded and above the damper valve body 17th led out. Then the supply line runs 13th outside of the damper valve body 17th and can for example by a piston ring 81 on the outer surface 77 be fixed radially.

In the execution after the 2 can any single damping valve 7th ; 9 separately from an associated piezo actuator 11A; 11B can be controlled. An inner wall of the damping valve body has a support bracket in each case 83 ; 85 for the piezo actuator 11A; 11B of a damping valve 7th ; 9 on. The support bracket 83 ; 85 is formed, for example, by an open angle ring, so that an adjustment force of the piezo actuator 11A; 11B on a rocker arm 87 ; 89 acts that an adjustment movement on at least one valve disc 31 ; 33 of the damping valve 7th ; 9 transmits. Again 2 can be seen, the rocker arm 87 ; 89 formed by an elastic tilting disk. The rocker arm 87 ; 89 is on a tipping edge 91 ; 93 of the damping valve body is mounted and forms a one-sided lever, as a support area 95 ; 97 the tilting disk and a force application point 99 ; 101 the piezo actuators 11A; 11B related to the tilting edge 91 ; 93 on the same side of the rocker arm 87 ; 89 attack. As a result, the tilting disk centers itself automatically on the tilting edge 91 ; 93 and thus simplifies the entire tilting bearing. This illustration shows the open installation of the supply line particularly well 13th .

List of reference symbols

1

Vibration damper

3

Damping valve device

5

Piston rod

7th

Single damping valve

9

Single damping valve

11

Piezo actuator

13

supply line

15th

channel

17th

Damper valve body

19th

cavity

21st

cover

23

cover

25th

cylinder

27

Passage channels

29

Passage channels

31

Valve disc

33

Valve disc

35

paragraph

37

paragraph

39

Form-fit connection

41

Form-fit connection

43

shoulder

45

cylinder

47

working space

49

working space

51

Outlet opening

53

Outlet opening

55

Valve disc

57

Valve disc

59

check valve

61

check valve

63

Spacer sleeve

65

Through opening

67

Profile beam

69

cylindrical section

71

cylindrical section

73

Face

75

Face

77

Outer surface

79

Cover disk

81

Piston ring

83

Support bracket

85

Support bracket

87

rocker arm

89

rocker arm

91

Tipping edge

93

Tipping edge

95

Support area

97

Support area

99

Force application point

101

Force application point

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 4193093 C2 [0002]
• JP 4019435 A [0004]
• JP 2008223911 [0005]

Claims (11)

Damping valve device (3) comprising at least two individual damping valves (7; 9) which can be adjusted with regard to their damping force characteristics via at least one piezo actuator (11; 11A; 11B), the at least one piezo actuator (11; 11A; 11B) having a Supply line (13) is connected, which runs in the area of a damping valve body (17), characterized in that the damping valve body (17) is designed as a hollow body in which the at least one piezo actuator (11; 11A; 11B) is arranged , the hollow body 19 being formed by at least two individual parts (21; 23; 25; 69; 71). Damping valve device according to Claim 1 , characterized in that at least part of the supply line (13) is chambered by opposite end faces (73; 75) of the two individual parts (69; 71). Damping valve after Claim 1 , characterized in that the supply line (13) runs along an outer jacket surface (77) of the damping valve body (17). Damping valve after Claim 1 , characterized in that the damping valve body (17) is equipped with a cover plate (79) which fixes the supply line (13) on a cover side of the damping valve body (17). Damping valve housing according to Claim 1 , characterized in that the at least one piezo actuator (11) is functionally arranged between the two individual damping valves (7; 9) and the two individual damping valves are adjusted when activated. Damping valve device according to Claim 1 , characterized in that the individual parts (21; 23; 69; 71) of the damping valve body (17) are based on identical blanks. Damping valve after Claim 1 , characterized in that outlet openings (51; 53) for the damping medium are equipped with check valves (59; 61) which assume a passage position in the outflow direction. Damping valve after Claim 1 , characterized in that the piezo actuator (11A; 11B) acts on a rocker arm (87; 89) which transmits an adjustment movement to at least one valve disc (31; 33) of the damping valve (7; 9). Damping valve after Claim 8 , characterized in that the rocker arm (87; 89) is formed by an elastic rocker plate. Damping valve according to one of the Claims 8 or 9 , characterized in that the rocker arm (87; 89) is mounted on a tilting edge (91; 93) of the damping valve body (17). Damping valve after Claim 1 , characterized in that an inner wall of the damping valve body (17) has a support bracket (83; 85) for the piezo actuator (11A; 11B).

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