DE102017119748A1 - Coaxial damper for hydraulic system - Google Patents

Abstract

In a coaxial damper (1) for a hydraulic system, an insert (3) is inserted into a housing (2). A first hydraulic connection (21) is formed on the housing (2), and a second hydraulic connection (31) is formed on the insert (3). On the insert (3), a flow guiding structure (32) is formed, through which a hydraulic medium in a damping chamber (4) of the Koaxialdämpfers (1) can be conducted.

Description

The invention relates to a coaxial damper for a hydraulic system, more particularly to a coaxial damper with a housing and an insert inserted therein.

Hydraulic systems are used in various areas of technology, with a focus on the automotive sector. Here, hydraulic systems are used for example for actuating a clutch. Here, usually by the driver via a pedal in a master cylinder pressure builds up, which is passed through a hydraulic line to a slave cylinder and there moves a piston, which in turn ultimately actuates the clutch. Vibrations can occur on a coupling, which can propagate through the hydraulic medium used in the hydraulic system to the clutch pedal and cause vibrations there. On the one hand, such vibrations are unpleasant for the driver, but also mean that the clutch can no longer be actuated precisely by the driver. It is therefore of obvious advantage to dampen such vibrations in the hydraulic system. To achieve this, various damping systems are known, which must be tuned in their damping effect on the respective hydraulic system.

The German patent application DE 10 2012 201 275 A1 relates to a damping device for damping undesired pressure fluctuations in a hydraulic route. A master cylinder and a slave cylinder are connected to each other by means of a pressure line through which fluid flows. Using a damper arranged in the hydraulic path, which has a housing with a through-passage for the fluid, a sound-damping element is combined.

The German patent application DE10 2013 217 119 A1 relates to a damping device for damping pressure oscillations within a pressure line of the clutch of a motor vehicle. For this purpose, a damper volume is provided, which consists of a double-walled housing. In the housing, a sleeve is formed for receiving the pressure line. Further, connecting means for forming a positive and / or positive connection between the pressure line and at least the sleeve or the housing are formed.

The German patent application DE 10 2015 205 063 A1 relates to a damper for a hydraulic line, which has a housing and a lid. The cover can be connected to the housing in a fluid-tight and tensile-resistant manner, wherein the cover is sealed relative to the housing by means of a sealing ring in at least one corresponding groove. The cover is connected by a plurality of tension elements with the housing tensile strength.

Known damping systems consist of a variety of items that must be manufactured separately and correctly assembled; As a rule, it is also necessary to ensure an adequate seal between the individual parts. This is time consuming and also means a certain cost.

It is therefore an object of the invention to provide a coaxial damper for a hydraulic system, in which reduces the number of items and, above all, the assembly is simplified.

This object is achieved by a coaxial damper according to claim 1.

The coaxial damper according to the invention for a hydraulic system comprises a housing with a first hydraulic connection and an insert with a second hydraulic connection. The insert is inserted into the housing. The insert is formed in one piece, the housing is preferably formed in one piece. The coaxial damper according to the invention further comprises a damping chamber. According to the invention, the use of the coaxial damper according to the invention has a flow guiding structure, by means of which a hydraulic medium can be conducted into the damping chamber.

The damping effect of the coaxial damper is based on the introduction of hydraulic medium into the damping chamber. According to the invention, this introduction takes place by means of a flow guiding structure formed on the insert, so that no separate components are required for this purpose, which still have to be positioned at the correct position between the first and the second hydraulic connection and fixed there. It is sufficient to use the insert in the housing and to fix the insert as a whole. The number of joints to be sealed between the components is also reduced. Thus, obviously, the number of required components is reduced and also reduces the effort during assembly.

In one embodiment, the flow-guiding structure is formed at an end of the insert opposite the second hydraulic connection. The Strömungsleitstruktur is thus facing the first hydraulic port and can hydraulic fluid, which enters the coaxial damper through the first hydraulic port in the damping chamber.

In one embodiment, an elastic sealing element is provided between an end of the insert opposite the second hydraulic connection and a stop formed on the housing. On the one hand, the sealing element effects a seal in the region of the end of the insert opposite the second hydraulic connection and ensures that hydraulic medium flowing in through the first hydraulic connection flows through the coaxial damper only as far as possible on the intended paths. Due to the elasticity of the sealing element forces acting on housing such as use, by which a fixation of the insert is effected relative to the housing in an axial direction, and at the same time given a certain suspension between the insert and the housing.

In one embodiment, a through chamber is formed within the insert. The passage chamber has an opening to the first hydraulic port, so that through the passage chamber, there is a flow path for the hydraulic medium between the first hydraulic connection and the second hydraulic connection. The Strömungsleitstruktur is located at the opposite end of the second hydraulic connection end of the insert, it is ensured by the Strömungsleitstruktur that a portion of the incoming hydraulic medium is passed into the passage chamber and a portion of the incoming hydraulic medium in the damping chamber.

In one embodiment, the damping chamber is formed between the insert and the housing. In this case, the damping chamber is limited in a radial direction to the outside through the housing and inwardly through the insert.

In one embodiment, the damping chamber is limited in an axial direction by a sealant. This may for example be formed as a sealing ring which is arranged coaxially with the insert in the region between the insert and the housing and in contact with the insert and the housing.

Preferably, the sealing means, especially in the form of a sealing ring, arranged in a groove which is formed on an outer side of the insert coaxial with the insert annular. In a further development, a plurality of grooves is arranged on the outside of the insert, which are formed coaxially to the insert annular. In each of these grooves, the sealant can be used. Depending on the groove in which the sealant is used, the expansion of the damping chamber changes in the axial direction. In this way, the coaxial damper can be adapted in its damping effect to the respective hydraulic system.

In one embodiment, the damping chamber is formed elastically deformable. In this case, in particular, the housing and / or the insert, at least in the region of the damping chamber, be elastically deformable.

• 1 zeigt eine perspektivische Schnittansicht einer Ausführungsform eines erfindungsgemäßen Koaxialdämpfers.
• 2 zeigt eine perspektivische Ansicht einer Ausführungsform eines Einsatzes für einen erfindungsgemäßen Koaxialdämpfer.
• 3 zeigt eine Ansicht in axialer Richtung des in 2 dargestellten Einsatzes.

Hereinafter, the invention and its advantages will be explained in more detail with reference to the accompanying drawings.

• 1 shows a perspective sectional view of an embodiment of a Koaxialdämpfers invention.
• 2 shows a perspective view of an embodiment of an insert for a coaxial damper according to the invention.
• 3 shows an axial view of the in 2 illustrated use.

The drawings illustrate only embodiments of the invention; in no way should the drawings be construed as limiting the invention.

1 shows a perspective sectional view of a Koaxialdämpfers invention 1 , In a housing 2 is an assignment 3 used. At the housing 2 is a first hydraulic connection 21 , on the job 3 is a second hydraulic connection 31 educated. At one of the second hydraulic connection 31 in an axial direction 100 opposite end of the insert 3 is a flow guiding structure 32 educated; the axial direction 100 corresponds to the direction between the first hydraulic connection 21 and second hydraulic connection 31 , Inside the insert 3 is a passage chamber 33 educated. The passage chamber 33 forms a flow path in the axial direction 100 for hydraulic medium between the first hydraulic connection 21 and the second hydraulic connection 31 , In this case, the hydraulic medium through opening 36 from the first hydraulic connection 21 into the passage chamber 33 arrive or flow in the opposite direction.

An elastic sealing element 5 is between one on the case 2 trained stop 22 and the second hydraulic connection 31 opposite end of the insert 3 used, caused by its elasticity fixation of the insert in the housing 2 in the axial direction 100 and further provides a seal of the area around the opening 36 and the flow guiding structure 32 ,

Between the case 2 and the mission 3 is a damping chamber 4 intended. The damping chamber 4 becomes in a radial direction 110 out through the housing 2 and inside through the use 3 limited. In the axial direction 100 becomes the damping chamber 4 through a sealant 6 limited, which is designed here as a sealing ring. The sealant 6 is in a groove 34 used, which on an outside 37 of the insert 3 is trained; In the embodiment shown, the insert has four grooves 34 without limiting the invention to this number. Every groove 34 extends annularly on the outside 37 of the insert 3 to the use 3 around and is with the insert 3 coaxial; in particular, the grooves 34 coaxial with each other. The sealant 6 can in any of the grooves 34 are used, and then each with use 3 and housing 2 in contact. Depending on the groove 34 in which the sealant 6 is used, the expansion of the damping chamber changes 4 in the axial direction 100 , In this way, the damping effect of the coaxial damper 1 to the respective hydraulic system in which the coaxial damper 1 to be used, customizable.

2 shows an embodiment of an insert 3 for a coaxial damper according to the invention 1 in perspective view. To recognize are grooves 34 , Flow guiding structure 32 and second hydraulic connection 31 , side walls 38 the grooves 34 contribute to the fixation of the insert 3 in the case 2 (please refer 1 ) in the radial direction 110 (please refer 1 ) at. The flow structure 32 includes fins 39 for hydraulic medium, and a channel 35 passing through the fins 39 is limited.

3 shows a plan view of the in 2 shown insert 3 in the axial direction 100 (please refer 1 ). The axial direction is thus perpendicular to the plane of the drawing, the radial direction 110 runs in the drawing plane. Shown are flow guiding structure 32 with channel 35 and fins 39 , as well as the opening 36 , through the hydraulic medium into the passage chamber 33 (please refer 1 ) can get. Likewise, the second hydraulic connection 31 shown.

LIST OF REFERENCE NUMBERS

1

Koaxialdämpfer

2

casing

3

commitment

4

damping chamber

5

sealing element

6

sealant

21

first hydraulic connection

22

attack

31

second hydraulic connection

32

flow guide

33

Passage chamber

34

groove

35

channel

36

opening

37

Outside of the insert

38

Sidewall of a groove

39

baffle

100

axial direction

110

radial direction

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been 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.

Cited patent literature

• DE 102012201275 A1 [0003]
• DE 102013217119 A1 [0004]
• DE 102015205063 A1 [0005]

Claims (10)

A coaxial damper (1) for a hydraulic system, the coaxial damper (1) comprising a housing (2) with a first hydraulic connection (21); an insert (3) inserted in the housing (2) and having a second hydraulic port (31); a damping chamber (4); characterized in that the insert (3) has a Strömungsleitstruktur (32) through which a hydraulic medium in the damping chamber (4) can be conducted. Coaxial damper (1) according to Claim 1 wherein the Strömungsleitstruktur (32) at one of the second hydraulic port (31) in an axial direction (100) opposite end of the insert (3) is formed. Coaxial damper (1) according to Claim 1 or 2 in that an elastic sealing element (5) is provided between an end of the insert (3) opposite the second hydraulic connection (31) and a stop (22) formed on the housing (2). Coaxial damper (1) according to one of the preceding claims, wherein within the insert (3) a passage chamber (33) with an opening (36) to the first hydraulic port (21) is formed, so that through the passage chamber (33) has a flow path for the hydraulic medium between the first hydraulic port (21) and the second hydraulic port (31) is given. Coaxial damper (1) according to one of the preceding claims, wherein the damping chamber (4) between the insert (3) and the housing (2) is formed. A coaxial damper (1) according to any one of the preceding claims, wherein the damper chamber (4) is bounded in an axial direction (100) by a sealant (6). Coaxial damper (1) after Claim 6 wherein the sealing means (6) is arranged in a groove (34) which is formed on an outer side (37) of the insert (3). Coaxial damper (1) after Claim 7 , wherein on the outer side (37) of the insert (3) a plurality of grooves (34) is formed, in which the sealing means (6) is used in each case. Coaxial damper (1) according to one of the preceding claims, wherein the damping chamber (4) is designed to be elastically deformable. Coaxial damper (1) according to one of the preceding claims, wherein the housing (2) is formed integrally with the first hydraulic connection (21).

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