DE10325720B4 - Hydraulically damping engine mount - Google Patents

Abstract

Hydraulically damping engine mount with
- At least partially bounded by elastic walls, fluid-filled chambers and
- A separating the chambers, limited deflectable membrane,
- At least one channel connecting the chambers, wherein the bearing characteristic is adjustable by changing the rigidity of one of the chambers substantially vertically disposed flexible wall which works at low stiffness against an enclosed gas in a space and at least partially at high stiffness in Plant comes to a stop, wherein for the ventilation of the gap, a switch releases a flow connection to the atmosphere or a pressure accumulator and the venting of the gap via a valve in the flow connection, wherein a check valve in the region of the outer wall is provided as a valve, which via the flexible Wall can be acted upon by the tensile and compressive movements of the engine mount, so that the intermediate space is pumpable through the pumping work of the elastic walls via the check valve,
characterized,...

Description

The The invention relates to a hydraulically damping engine mount with at least partly of elastic walls limited, fluid-filled chambers and a limited deflectable membrane separating the chambers, with at least one channel connecting the chambers, the bearing characteristic through the change the stiffness of one in one of the chambers substantially perpendicular arranged flexible wall is adjustable, with low rigidity works against a trapped in a gap gas volume and the at high rigidity at least partially in contact with a Stop comes, being for ventilation In the interspace, a switch makes a flow connection to the atmosphere or a pressure accumulator releases and the ventilation of the space over a Valve in the flow connection takes place, as a valve, a check valve in the area of the outer wall is provided, which over the flexible wall due to the tensile and compressive movements of the engine mount can be acted upon, so that the gap through the pumping work the elastic walls over the check valve is inflatable.

There are already switchable hydraulic engine mounts known (eg DE 34 46 725 C2 . DE 34 47 950 C2 . DE 39 26 696 A1 ).

In addition, hydraulically damping rubber bearings with at least partially limited by elastic walls, fluid-filled chambers are known ( DE 42 38 752 C1 ), in which the bearing characteristic is adjustable by changing the rigidity of a flexible wall disposed in one of the chambers, which operates with low rigidity against an in-space gas volume connected to the atmosphere. It is provided as a valve, a check valve in the region of the outer wall, which can be acted upon via the flexible wall by the tensile and compressive movement of the engine mount, so that the intermediate space is pumped by the pumping work of the elastic walls via the check valve. The disadvantage here is that the armature is acted upon by a spring, so that the armature should close the flow connection. Due to vibrations in the vehicle and the armature is excited to vibrate, so that a seal of the flow connection is not guaranteed under all operating conditions.

Furthermore, the EP 0 595 591 A1 a hydraulically damping motor bearing on partially bounded by elastic walls fluid-filled chambers and a limited deflectable membrane with a horizontal region, and a channel connecting the chambers. The bearing characteristic is adjustable by the change in stiffness in a vertical, flexible wall region of the membrane so that the gap formed by this wall region can be filled with a gas volume, can be pumped empty, and regulated by valves. A disadvantage of this design is the complex structure of the channel carrier with the membrane arranged therein. A decoupling of the two chambers is also not provided.

task The invention is to provide a hydraulically damping engine mount, which can be controlled either hard or soft, it should the damping can be switched off to idle noise and to isolate vibrations, so while driving, the camp only as a hydraulic damping Motor bearing act and dependent be switchable from the driving state and that the damping in the de-energized state (check active) of the switch is effective.

By Direction reversal of the magnet is also the reversal possible (unpowered Condition corresponds to soft state).

to solution this object is inventively provided that the flexible wall has a horizontally extending area, with which the membrane interacts, with the flexible wall, a Decoupling area and a partition wall of the channel as one piece Component is formed. It is advantageous that the one-piece Component is provided with a triple function and by its one-piece design can be easily manufactured and assembled is.

A another embodiment Provides that the horizontally extending area through a channel packet passes through and at least partially limited the channel. There is an advantage here provided that the channel package consists of two parts and the horizontal section divides the channel into an inlet and outlet, wherein a recess makes the connection of inlet and outlet.

A another embodiment provides that the channel package provided with at least one opening is, so in the area of this opening the horizontal area separates the chambers from each other.

According to a further embodiment, it is provided that a spring is provided as the valve. It is advantageous that a spring leaf is provided as a spring. It is advantageous that the formation of the check valve as a simple, thin Spring leaf has a low mass, and is insensitive to vibration excitations in the vehicle. In the de-energized state of the valve while the spring keeps the flow connection closed and is opened by the pumping capacity of the flexible walls in one direction only (check valve function).

To A further embodiment provides that the valve of an electromagnet is applied.

preferred embodiments The invention are shown schematically in the drawings.

It shows:

1 a section through a hydraulically damping engine mount

2 another section with a view of the decoupling area

3 a hydraulically damping engine mount in an exploded view

4 a membrane as a detail in exploded view

5 a membrane as a detail, cut

6 a further embodiment of a hydraulically damping engine mount.

This in 1 shown hydraulic damping motor bearings consists essentially of the mounting hardware 14 and 15 , the elastic wall 16 , wherein the two chambers filled with damping means 7 and 8th through a channel package 3 are separated. The connection of the two chambers 7 and 8th takes place via the canal 4 ,

The channel package 3 owns, as in 2 it can be seen, openings 6 in which the horizontally extending area 2 directly from the chambers 7 and 8th is applied, so that a decoupling area 9 arises.

In the radial edge area is a flexible wall 1 provided that a gap 17 separated, with the gap 17 connected via a flow connection with the atmosphere. This flow connection is with a valve 11 Mistake. The valve 11 consists of a spring 12 and an electromagnet 13 so that a check valve is formed. Without applying the electromagnet 13 closes the spring 12 the flow connection to the atmosphere, while energization of the electromagnet, the spring 12 releases the flow connection to the atmosphere.

In the radially inner area is the partition wall with the channels 4 provided, with the channels 4 against each other through the partition 10 are separated from each other. It thereby arises from the chamber 7 a first part of an annular channel, which is in a region of the partition wall 10 with a recess 5 is provided so that then a second part of an annular channel 4 in the chamber 8th runs. The chamber 8th is with a membrane 18 provided and serves as a compensation chamber for the chamber 7 , which is designed as a pressure chamber.

From the 2 is to be seen as a detail that the flexible wall 1 a horizontally extending area 2 which, from the decoupling region 9 and the partition 10 of the canal 4 consists. This allows the flexible wall 1 form as a one-piece component, so that a flawless production and easy installation are guaranteed.

From the 3 is shown in an explosive representation of the hydraulically damping engine mount, consisting of the mounting hardware 14 and 15 , the elastic wall 16 as well as the housing parts 19 and 20 ,

The channel package 3 is in the 4 and 5 shown as a single part. In the lower area is the membrane 18 to form a compensation space, while an electromagnet 13 the feather 12 applied to the circuit of a flow connection.

From the 4 and 5 the channel package is shown as a detail, with the flexible wall 1 with a horizontal area 2 is trained. The channel package 3 is composed of two parts, the upper part 3a and the lower area 3b with openings 6a and 6b for the decoupling area 9 are provided. The radially inner area 10 serves the separation of the channel 4 , being an inlet 21 and the process 22 via a recess 5 in the horizontal area 2 the two halves of the channel 4 connect with each other. The element 23 includes the flow connection from the gap 17 to the atmosphere and at the same time the seat of the spring 12 to form the valve 11 ,

From the 6 shows a further embodiment of a hydraulically damping engine mount, in which in turn filled with damping means chambers 7 and 8th through a channel package 3 are separated from each other. The connection of the two chambers 7 and 8th takes place via the canal 4 , This engine mount is designed without a decoupling area.

In the radial edge region is again a flexible wall 1 provided that a gap 17 connects to the atmosphere via a flow connection. The flow connection is provided with a valve, which is a closure part 24 having, in the form that by an electromagnet, the closure part 24 the flow connection and thus the gap 17 close to the atmosphere. Otherwise, the other components of this engine mount with the components according to 1 comparable.

In case of the closure part 24 the flow connection to the gap 17 does not close, the hydraulically damping engine mount is provided with a low rigidity. If, however, the flow connection through the closure part 24 closed, so is the gap 17 sealed, but slightly compressible, so that the engine mount is provided with a high rigidity, since the gap 17 acts as an air spring.

1

flexible wall

2

horizontal running area

3

channel package

4

channel

5

recess

6

opening

7

chamber

8th

chamber

9

decoupling region

10

partition wall (of the channel)

11

Valve

12

feather

13

electromagnet

14

Fasteners

15

Fasteners

16

elastic wall

17

gap

18

membrane

19

housing part

20

housing part

21

Intake

22

procedure

23

element

24

closing part

Claims (6)

Hydraulically damping engine mount with - at least partially bounded by elastic walls, fluid-filled chambers and - a separating the chambers, limited deflectable membrane, - at least one channel connecting the chambers, the bearing characteristic arranged by the change in stiffness in one of the chambers substantially vertically flexible wall is adjustable, which works with low stiffness against an enclosed gas space in a gap and at least partially comes into abutment with a high rigidity at a stop, wherein for the ventilation of the gap, a switch releases a flow connection to the atmosphere or a pressure accumulator and the venting of the Interspace is carried out via a valve in the flow connection, wherein a non-return valve in the region of the outer wall is provided as a valve, which is acted upon via the flexible wall by the tensile and compressive movements of the engine mount, so that the intermediate space is pumpable through the pumping work of the elastic walls via the check valve, characterized in that the flexible wall ( 1 ) a horizontally extending area ( 2 ), with which the membrane cooperates, wherein the flexible wall ( 1 ), a decoupling area ( 9 ) and a partition ( 10 ) of the channel ( 4 ) is designed as a one-piece, non-adherent component without metal or plastic inserts. Motor bearing according to claim 1, characterized in that as a valve ( 11 ) a feather ( 12 ) is provided. Motor bearing according to claim 2, characterized in that as spring ( 12 ) a spring leaf is provided. Motor bearing according to claim 2, characterized in that the valve ( 11 ) of an electromagnet ( 13 ) is applied. Motor bearing according to claim 4, characterized in that the valve ( 11 ) of a pulling magnet ( 13 ) is opened. Motor bearing according to claim 4, characterized in that the valve ( 11 ) by a permanently acting spring ( 12 ) is held in open position and by a pushing magnet ( 13 ) is closed.