DE102019112438A1 - Sealing ring - Google Patents

Abstract

Sealing ring comprising a support body (1) made of a tough, hard material and a sealing washer (2) made of a polymeric material, the support body (1) including a radial flange (3). The sealing disk (2) is resiliently connected to the radial flange (3) in all spatial directions (5) by means of at least one spring element (4) made of elastomeric material.

Description

Technical area

The invention relates to a sealing ring, comprising a support body made of a tough, hard material and a sealing washer made of a polymer material, the support body including a radial flange.

State of the art

Such a sealing ring is for example from the DE 103 13 958 A1 known. The support body of the previously known sealing ring is made of a metallic material and the sealing washer is made of PTFE. The sealing washer and the radial flange are connected to one another by means of an elastomeric intermediate layer. The elastomer intermediate layer is provided in order to be able to fix the sealing washer made of PTFE, which is inherently poorly adhesive, to the radial flange more easily and permanently.
A sealing washer made of PTFE has the advantage that it is resistant to most of the media to be sealed. In addition, PTFE materials have good temperature resistance, good sliding behavior and good emergency running properties. A sealing washer made of PTFE is practically wear-free.

However, compared to sealing washers made of elastomeric materials, sealing washers made of PTFE have the disadvantage that they only have a comparatively poor ability to follow. A poor follow-up ability means that sealing washers made of PTFE can only poorly follow the relative movements of the machine elements to be sealed against each other. If one of the machine elements to be sealed against one another is, for example, a shaft to be sealed that has radial run-out during its intended use, i.e. runs out of round, and / or moves in the axial direction, a sealing washer made of PTFE can be used, especially if the Speed of the shaft to be sealed is high, the movements of the shaft to be sealed often do not follow the movements quickly enough, so that there is a risk of leaks.

Presentation of the invention

The invention is based on the object of developing a sealing ring of the type mentioned at the outset in such a way that the sealing washer made of a polymer material has better follow-up capability in relation to the relative movements of the machine elements to be sealed against one another, in particular better follow-up capability when the machine element to be sealed vibrates in any spatial direction / or has an impact in the radial direction and / or moves in the axial direction.

This object is achieved according to the invention with the features of claim 1. The subclaims refer to advantageous configurations.

To achieve the object, it is provided that the sealing washer is resiliently connected to the radial flange in all spatial directions by means of at least one spring element made of elastomeric material.

In contrast to the elastomeric intermediate layer of the sealing ring from the prior art mentioned at the beginning, the spring element according to the invention made of elastomeric material is not only used for the simple and permanent connection of the sealing disk and radial flange to one another. The spring element made of elastomeric material has a sufficiently large spring action in all spatial directions to keep the sealing washer always sealingly on a surface to be sealed of a machine element to be sealed when it vibrates in any spatial direction, for example when it is used as intended, has a blow in the radial direction and / or moves in the axial direction.
Unwanted vibrations of the machine element to be sealed off by the sealing washer often arise as a function of the level of the speed at which the machine element rotates, for example often when the speed 4000 Revolutions per minute exceeds.
Such vibrations can also be compensated for by the sealing washer hinged to the spring element. Even under the operating conditions outlined above, the sealing disk always lies reliably sealing against the surface to be sealed of the machine element to be sealed, for example a shaft.

It is preferably provided that the spring element is formed by a closed ring which is arranged in the axial direction between the radial flange and the sealing washer. The ring springs in all spatial directions. In order to be able to compensate movements of a machine element to be sealed in the radial direction, it is necessary that the ring also has a good spring effect in the radial direction. However, this is only possible if the ring is able to give way in the radial direction in order to compensate for radial relative movements of the machine elements to be sealed against one another. Details will be given later.

The spring element is preferred by the radial flange and the sealing washer touched directly adjacent. The sealing ring can thus be produced simply and inexpensively. In addition, the properties of use of the sealing ring can be easily and effectively adjusted to the particular circumstances of the application. The spring element is in direct contact with it even if it is fixed on the radial flange and / or on the sealing washer with the aid of an adhesion promoter.

The spring element, viewed in the section of the sealing ring, is preferably essentially square, with an axial width and a radial height, the ratio of axial width to radial height being 0.75 to 1.25, more preferably 1 to 1.25, amounts. Due to the essentially square ratio of axial width and radial height, the spring element has sufficiently good resilient properties in all spatial directions, in particular in the radial direction, which would deteriorate significantly if the ratio of axial width to radial height were 0.5.

The sealing washer is preferably made of PTFE. PTFE compound materials are also included. As already stated above, a sealing washer made of PTFE has many advantages over sealing washers made of elastomeric materials, the serious disadvantage - normally - being the insufficient follow-up capability of the PTFE material. According to the invention, this inadequate follow-up ability is practically completely compensated for in that the PTFE sealing washer is fixed on the radial flange by means of the spring element. As a result, the sealing washer made of PTFE material has a follow-up capability that practically does not differ from the follow-up capability of a sealing washer made of elastomeric material. The result is a sealing ring that has good overall performance properties, in particular good follow-up capability, despite the sealing washer made of a PTFE material.

The support body can comprise an axial flange which is arranged on the side of the radial flange facing away from the sealing washer in the radial direction and which extends axially in the direction of the sealing washer. A support body that has an axial flange is state of the art. The axial flange is used to permanently fix the sealing ring in the installation space of a sealing arrangement. The sealing arrangement comprises two machine elements to be sealed against one another, which are arranged concentrically and at a radial distance from one another, the sealing ring being arranged in the gap formed by the distance. One of the machine elements to be sealed is, for example, a shaft to be sealed, with a surface to be sealed which is enclosed in a sealing manner by the sealing washer. The other machine element is formed, for example, by a housing that encloses the shaft at a radial distance and into which the sealing ring is pressed. The axial flange can either be pressed directly into a bore in the housing. Alternatively, the axial flange can be enclosed by a rubber track that forms a static seal and statically seals against the housing. The axial flange and the radial flange can merge in one piece and be made of the same material. The support body consists for example of a metallic material.

According to an advantageous embodiment, it can be provided that the axial flange and the spring element are arranged concentrically and at a radial distance from one another, the gap formed by the distance having a radial extent that essentially corresponds to the axial width of the spring element. Because the spring element can move unhindered towards the axial flange in the radial direction and then away from it again, the ability of the sealing washer to follow movements of a machine element to be sealed, in particular in the radial direction, is optimized.
Since elastomeric materials are, by definition, incompressible materials, it is crucial for a sufficient spring action of the spring element in the radial direction that the spring element can move freely in the radial direction. If the spring element were virtually blocked in the radial direction by one of the machine elements to be sealed against one another, for example a housing, and elastic flexibility would only be provided by the flexibility of the material itself, as for example with the sealing ring from the prior art mentioned at the beginning, the spring effect would be radial direction is not sufficient to ensure that the sealing washer can follow suit.
The radial extent of the gap is in any case larger than the maximum radial deflection movement of the spring element during the intended use of the sealing ring.

Brief description of the drawing

An embodiment of the sealing ring according to the invention is explained in more detail below with reference to the figure shown schematically.

Implementation of the invention

In the figure, a sealing arrangement is shown which comprises the sealing ring according to the invention.
The sealing arrangement comprises two machine elements to be sealed against one another by the sealing ring 14th , 15th , of which the first machine element 14th as a shaft to be sealed 16 with a surface to be sealed 17th is formed and the second machine element 15th as a housing 18th .
The sealing ring has a particularly simple and partially poor structure and includes the support body 1 , which consists of a tough, hard material. In the embodiment shown, there is the support body 1 made of a metallic material. The support body 1 includes the radial flange 3 and the axial flange 10 which merge into one another in one piece and are made of the same material.

The sealing washer, which is used in the sealing ring shown, is made of PTFE and is by means of the spring element 4th with the radial flange 3 connected. The spring element 4th consists of an elastomer material and is in all spatial directions 5 resilient.

The spring element 4th is through a closed ring 6th formed, the ring 6th is essentially square in the section shown here. The ratio of the axial width 8th too radial height 9 of the spring element 4th is approximately 1 in the exemplary embodiment shown.

To a resilient movement of the spring element 4th in all spatial directions 5 to enable, in particular a spring action in the radial direction 11 , is the radial extension in addition to the aforementioned ratio 13 of the gap 12 of vital importance. The axial flange 10 and the spring element 4th are arranged concentrically and at a radial distance from one another, whereby the gap is determined by the distance 12 is formed. The radial extension 13 of the gap 12 corresponds essentially to the axial width 8th of the spring element 4th .

The operating conditions for a sealing arrangement and a sealing ring, which forms part of the sealing arrangement, are always particularly demanding when the sealing ring is to have consistently good performance properties over a long period of use, even when the machine element to be sealed 14th , 16 vibrates, a blow in a radial direction 11 has, rotates at high speeds, for example with speeds of more than 4000 revolutions per minute and / or rotates in the axial direction 7th emotional.
Usually have sealing washers 2 made of PTFE poor follow-up ability with regard to relative movements of the machine elements to be sealed 14th , 15th on. This inherently poor ability to follow is caused by the spring element 4th with its in all spatial directions 5 resilient properties practically completely balanced, based on a sealing washer made of elastomeric material. The spring element 4th ensures that sealing washers 2 made of PTFE can also be used when the operating conditions, as described above, are particularly demanding.

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 10313958 A1 [0002]

Claims (9)

Sealing ring, comprising a support body (1) made of a tough, hard material and a sealing washer (2) made of a polymeric material, the support body (1) comprising a radial flange (3), characterized in that the sealing washer (2) is by means of at least one spring element ( 4) made of elastomeric material is resiliently connected to the radial flange (3) in all spatial directions (5). Sealing ring after Claim 1 , characterized in that the spring element (4) is formed by a closed ring (6) which is arranged in the axial direction (7) between the radial flange (3) and the sealing washer (2) Sealing ring according to one of the Claims 1 or 2 , characterized in that the spring element (4) is in direct contact with the radial flange (3) and the sealing washer (2). Sealing ring according to one of the Claims 1 to 3 , characterized in that the spring element (4), viewed in the section of the sealing ring, is essentially square, with an axial width (8) and a radial height (9), the ratio of the axial width (8) to the radial height (9) is 0.75 to 1.25. Sealing ring after Claim 4 , characterized in that the ratio is 1 to 1.25. Sealing ring according to one of the Claims 1 to 3 , characterized in that the sealing washer (2) consists of PTFE. Sealing ring according to one of the Claims 1 to 3 , characterized in that the support body (1) comprises an axial flange (10) which is arranged on the side of the radial flange (3) facing away from the sealing washer (2) in the radial direction (11) and which extends axially in the direction of the sealing washer (2) extends. Sealing ring after Claim 7 , characterized in that the axial flange (10) and the radial flange (3) merge in one piece and are made of the same material. Sealing ring according to one of the Claims 7 or 8th , characterized in that the axial flange (10) and the spring element (4) are arranged concentrically and at a radial distance from one another and that the gap (12) formed by the distance has a radial extension (13) which essentially corresponds to the axial width ( 8) of the spring element (4) corresponds.

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