DE102016220390A1 - Sealing arrangement with a sealing ring comprising a plurality of sealing lips and machine element arrangement - Google Patents

Abstract

The present invention enters a sealing arrangement for sealing a space (03) between a first machine element (01) and a second machine element (02). The first machine element (01) and the second machine element (02) are arranged coaxially with each other and rotatable relative to each other. The sealing arrangement comprises a sealing ring (07) with at least one first sealing lip (11), a second sealing lip (12) and a third sealing lip (13), which are arranged adjacent in the axial direction and their existing in the axial direction to be sealed space (03) Distances in this order are increasingly formed. The sealing lips (11, 12, 13) each have a thickness extending in the axial direction. According to the invention, the thickness of the third sealing lip (13) is greater than the thickness of the first sealing lip (11) and greater than the thickness of the second sealing lip (12). Furthermore, the invention relates to a machine element arrangement with the sealing arrangement according to the invention.

Description

Field of the invention

The present invention relates to a sealing arrangement for sealing a space between a first machine element and a second machine element, wherein the first machine element and the second machine element are arranged coaxially with each other and rotatable relative to each other. The seal assembly includes a sealing ring having at least three sealing lips. Furthermore, the invention relates to a machine element arrangement with the sealing arrangement according to the invention.

The WO 2009/099085 A1 shows a bearing seal for sealing the storage space of a rolling bearing. The bearing seal comprises a metal core having a radially outer portion configured to engage a seal groove in a radially inner surface of an outer race at an end portion of a bearing. The bearing seal further comprises a rubber seal which is fixed to an inner surface of the metal core facing the interior of the bearing. The rubber seal comprises a thick walled portion having three axially spaced sealing lips configured to be brought into resilient contact with a radially outer surface of an inner race of the bearing. The inner sealing lip is oriented in the connection to the elastomeric body in the direction of the bearing interior. A disadvantage of this solution is that this sealing lip is stretched excessively in the installation situation by the orientation to the outside.

The JP 11-218141 describes a sealing system for a rolling bearing with a radially extending over the Wälzkörperraum base part and a base member attached to the elastic body. The base part is arranged in the axial direction in front of the elastic body, ie on the side facing away from the rolling elements. The base part includes a bent end portion which is fixed to the outer ring. The bent end region is followed by a section inclined away from the rolling elements. The inclined portion is followed by a perpendicular to the inner ring extending end portion. The elastic body has three radially extending sealing lips, which bear against the inner ring. The inner sealing lip is oriented in the connection to the elastomeric body in the direction of the bearing interior. A disadvantage of this solution is that this sealing lip is stretched excessively in the installation situation by the orientation to the outside.

The US 2012/0126489 A1 shows a bearing seal assembly, which is particularly intended for agricultural machinery. The bearing sealing arrangement has a sealing body with a plurality of sealing lips. One of the sealing lips has a plurality of sealing edges, which adversely affect each other during operation, so that an undisturbed contact between the respective sealing edge and a mating surface is not possible.

The US Pat. No. 6,817,769 B2 shows a cassette seal for a rolling bearing with a sealing washer and a slinger with L-shaped cross-section. The sealing washer is in communication with the outer ring. The centrifugal disc is attached to the inner ring and arranged in the axial direction in front of the sealing disc. The sealing disc has a radial extension extending into the rolling body space. At the end of the radial expansion of the sealing disc three elastomeric sealing lips are arranged, of which one in the axial direction and two in the radial direction with the centrifugal disc in contact.

Object of the invention

The object of the present invention, starting from the prior art, is to increase the sealing effect of a seal provided with a plurality of sealing lips with regard to dust ingress, ingress of water and ingress of grease with reduced friction.

Description of the invention

Said object is achieved by a sealing arrangement according to the attached claim 1. The said object is further achieved by a machine element arrangement according to the appended independent claim 9.

The seal assembly according to the invention serves to seal a room, for example in a running in a housing shaft or a rolling bearing. In particular, the sealing arrangement prevents leakage of lubricant from the space to the outside and penetration of solid, liquid or gaseous substances from outside into the room. In this case, a seal must be ensured in the static case, at standstill, as well as in the dynamic case of rotating parts.

The space to be sealed is formed between a first machine element and a second machine element. The first machine element and the second machine element are arranged coaxially with each other and rotatable relative to each other about an axis of rotation. The axis of rotation defines an axial direction. A radial direction intersects the axis of rotation perpendicular.

The seal assembly comprises a sealing ring with at least a first elastic Sealing lip, a second elastic sealing lip and a third elastic sealing lip. The first seal lip, the second seal lips and the third seal lip are disposed adjacent in the axial direction. The first sealing lip, the second sealing lips and the third sealing lip are preferably arranged immediately adjacent in the axial direction. The sealing ring preferably represents a multi-lip radial shaft seal.

The distances of the first sealing lip, the second sealing lip and the third sealing lip existing in the axial direction to the space to be sealed are increasingly formed in this order. Thus, there is a first axial distance between the first sealing lip and the space to be sealed, a second axial distance between the second sealing lip and the space to be sealed, and a third axial distance between the third sealing lip and the space to be sealed. The first distance is smaller than the second distance. The second distance is smaller than the third distance.

In a non-deformed state, the sealing lips preferably each have a hollow truncated cone shape. The Hohlkegelstumpfformen are arranged coaxially with the axis of rotation. The sealing lips are preferably arranged parallel in the undeformed state.

The sealing lips each have a thickness extending in the axial direction. The thickness is in each case formed by the height of the hollow truncated cone shape of the respective sealing lip.

According to the invention, the thickness of the third sealing lip is greater than the thickness of the first sealing lip and greater than the thickness of the second sealing lip. This relation is especially given when the sealing lips are in an undeformed state, i. H. are not acted upon by a sealing force.

A particular advantage of the sealing arrangement according to the invention consists in that the third sealing lip, which is preferably the outer sealing lip with respect to the space to be sealed, has the highest reaction force with respect to the other two sealing lips and, with increased exposure to media, a high degree of robustness of the sealing arrangement guaranteed.

The thickness of the third seal lip is preferably at least 1.1 times the thickness of the first seal lip and at least 1.1 times the thickness of the second seal lip.

The thickness of the first sealing lip is more preferably between 0.8 and 0.9 times the thickness of the third sealing lip. The thickness of the second sealing lip is particularly preferably between 0.8 and 0.9 times the thickness of the third sealing lip.

The thickness of the first sealing lip and the thickness of the second sealing lip are preferably the same size. The thickness of the first sealing lip is alternatively preferably smaller than the thickness of the second sealing lip.

The sealing lips each have, in an undeformed state of the sealing lips, an inner diameter that extends in the radial direction. The inner diameter is formed in each case by the diameter of the hollow portion of the hollow truncated cone shape of the respective sealing lip. The hollow portions are preferably each cylindrical in an undeformed state of the sealing lips.

The sealing lips each have, in an undeformed state of the sealing lips, a mean outer diameter which extends in the radial direction. The average outer diameter is formed in each case by the average diameter of the hollow truncated cone shape of the respective sealing lip.

The inner diameter of the third sealing lip is in an undeformed state of the sealing lips preferably smaller than the inner diameter of the first sealing lip and smaller than the inner diameter of the second sealing lip. Particularly preferably, the inner diameter of the first sealing lip, the inner diameter of the second sealing lip and the inner diameter of the third sealing lip are formed decreasing in this order in the undeformed state of the sealing lips.

The sealing lips each have an average length in an undeformed state of the sealing lips, which extends in the radial direction. The average length is formed in each case by a difference between the average outer diameter and the inner diameter of the respective sealing lip in the undeformed state. The average length is thus formed in each case by an average wall thickness of the hollow truncated cone shape of the respective sealing lip.

Preferably, the mean lengths of the sealing lips in the undeformed state of the sealing lips are the same size.

The mean outer diameter of the third sealing lip is in an undeformed state Sealing lips preferably smaller than the mean outer diameter of the first sealing lip and smaller than the average outer diameter of the second sealing lip. Particularly preferably, the mean outer diameter of the first sealing lip, the average outer diameter of the second sealing lip and the average outer diameter of the third sealing lip are formed decreasing in this order in the undeformed state of the sealing lips.

A first sealing lip space is preferably formed in an undeformed state of the sealing lips by a distance formed in the axial direction between the first sealing lip and the second sealing lip. A second sealing lip space is preferably formed in an undeformed state of the sealing lips by a distance formed in the axial direction between the second sealing lip and the third sealing lip. A third sealing lip space is preferably formed in an undeformed state of the sealing lips by a formed in the axial direction distance between the third sealing lip and a rigid outer seal boundary. The rigid seal boundary is preferably annular and formed on a sealing lips carrying the reinforcement of the seal assembly.

In the undeformed state of the sealing lips, the third sealing lip space is preferably larger than the first sealing lip space and larger than the second sealing lip space. Preferably, the first sealing lip space, the second sealing lip space and the third sealing lip space are increasingly formed in this order in the undeformed state of the sealing lips.

Particularly preferably, the first sealing lip space in the undeformed state of the sealing lips is between 0.55 and 0.65 times as large as the third sealing lip space. Particularly preferably, the second sealing lip space is in the undeformed state of the sealing lips between 0.60 and 0.70 times as large as the third sealing lip space.

A first sealing lip cover is formed in an undeformed state of the sealing lips preferably by a radial portion, which the first sealing lip covers the third sealing lip. The radial portion is a one-dimensional relative measure in the radial direction. The overlap can be determined by a projection of the sealing lips on a plane perpendicular to the axis of rotation. A second sealing lip cover is preferably formed in the undeformed state of the sealing lips by a radial portion, which the second sealing lip covers the third sealing lip. The first sealing lip overlap and the second sealing lip overlap are preferably each less than one in the undeformed state of the sealing lips. The first sealing lip overlap is preferably smaller than the second sealing lip overlap in the undeformed state of the sealing lips. Particularly preferably, the first sealing lip overlap in the undeformed state of the sealing lips is between 0.55 and 0.65. Particularly preferably, the second sealing lip coverage in the undeformed state of the sealing lips is between 0.60 and 0.70.

The sealing ring preferably comprises the exactly three sealing lips. The sealing ring alternatively alternatively comprises more than three of the sealing lips.

The sealing ring is preferably designed for tight attachment to the first machine element. The sealing lips are preferably designed to abut against a mating surface of the second machine element.

In preferred embodiments of the sealing arrangement, the sealing ring has a metallic reinforcement, to which an elastomeric body comprising the sealing lips is attached. The reinforcement serves to fasten the sealing ring on the first machine element. The elastomeric body and the sealing lips are preferably formed in one piece.

The machine element arrangement according to the invention comprises a first machine element and a second machine element, which are arranged coaxially to each other and are rotatable relative to each other. The machine element arrangement according to the invention further comprises the sealing arrangement according to the invention for sealing a space between the first machine element and the second machine element. The machine element arrangement according to the invention preferably comprises one of the described preferred embodiments of the sealing arrangement according to the invention.

In preferred embodiments of the machine element arrangement according to the invention, the first machine element and the second machine element are each formed by a bearing ring of a roller bearing. The space to be sealed is formed by a Wälzkörperraum serving to receive rolling bodies. The machine element arrangement thus preferably represents a roller bearing.

list of figures

• 1 eine bevorzugte Ausführungsform eines erfindungsgemäßen Wälzlagers mit einer erfindungsgemäßen Dichtungsanordnung;
• 2 einen in 1 gezeigten Dichtungsring in einem unverformten Zustand;
• 3 den in 2 gezeigten Dichtungsring mit Maßeintragungen;
• 4 den in 2 gezeigten Dichtungsring mit weiteren Maßeintragungen; und
• 5 den in 2 gezeigten Dichtungsring mit weiteren Maßeintragungen.

Further details, advantages and developments of the invention will become apparent from the following description of a preferred embodiment of the invention; with reference to the accompanying drawings. Show it:

• 1 a preferred embodiment of a rolling bearing according to the invention with a seal assembly according to the invention;
• 2 one in 1 shown sealing ring in an undeformed state;
• 3 the in 2 shown sealing ring with Maßeintragungen;
• 4 the in 2 shown sealing ring with further Maßeintragungen; and
• 5 the in 2 shown sealing ring with further Maßeintragungen.

Detailed description of the drawings

1 shows a preferred embodiment of a machine element assembly according to the invention in the form of a rolling bearing in a partial cross-sectional view. The rolling bearing comprises an outer ring 01 and an inner ring 02 , In a room 03 between the outer ring 01 and the inner ring 02 are rolling elements 04 , which in a Kä 06 be guided.

The space 03 between the outer ring 01 and the inner ring 02 is sealed with a preferred embodiment of a seal assembly according to the invention. The sealing arrangement is in particular by a sealing ring 07 formed, which is a metallic reinforcement 08 includes, which are tight in the outer ring 01 sitting. The reinforcement 08 has a frusto-conical section 09 on, on the inside of an elastomeric body 10 sitting. At the elastomer body 10 are a first sealing lip 11 , a second sealing lip 12 and a first sealing lip 13 educated. The three sealing lips 11 . 12 . 13 are against the inner ring 02 pressed so that they are in a deformed state.

2 shows the in 1 shown sealing ring 07 in an undeformed state in which the three sealing lips 11 . 12 . 13 not against the inner ring 02 (shown in 1 ) are pressed. The three sealing lips 11 . 12 . 13 each have the basic shape of a hollow truncated cone in this undeformed state.

3 shows the in 2 shown sealing ring 07 with custom entries. The first sealing lip 11 has a thickness y. The second sealing lip 12 also has the thickness y. The third sealing lip 12 has a thickness z. According to the invention, y <z.

The first sealing lip 11 has a mean length L1. The second sealing lip 12 has a mean length L2. The third sealing lip 12 has a mean length L3. In the preferred embodiment shown: L1 = L2 = L3.

4 shows the in 2 shown sealing ring 07 with further dimensional entries. Exemplary are the third seal lip 13 an inner length LI and an outer length LA registered. Due to the hollow truncated cone shape: LA <LI. This also applies to the first sealing lip 11 and for the second sealing lip 12 ,

5 shows the in 2 shown sealing ring 07 with further dimensional entries. A first seal lip space W1 is in the axial direction between the first seal lip 11 and the second sealing lip 12 available. A second seal lip space W2 is in the axial direction between the second seal lip 12 and the third sealing lip 13 available. A third seal lip space W3 is in the axial direction between the third seal lip and the reinforcement 08 available. The following applies: W1 <W2 <W3. It is preferable that: 0.55 × W3 × W1 × 0.65 × W3 and 0.60 × W3 × W2 × 0.70 × W3.

LIST OF REFERENCE NUMBERS

01

outer ring

02

inner ring

03

room

04

rolling elements

05

-

06

Cage

07

sealing ring

08

reinforcement

09

frustoconical section

10

elastomer body

11

first sealing lip

12

second sealing lip

13

third sealing lip

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

• WO 2009/099085 A1 [0002]
• JP 11218141 [0003]
• US 2012/0126489 A1 [0004]
• US 6817769 B2 [0005]

Claims (10)

Sealing arrangement for sealing a space (03) between a first machine element (01) and a second machine element (02), wherein the first machine element (01) and the second machine element (02) are arranged coaxially to each other and rotatable relative to each other, wherein the sealing arrangement a Sealing ring (07) comprising at least a first sealing lip (11), a second sealing lip (12) and a third sealing lip (13), which are arranged adjacent in the axial direction and their existing in the axial direction to be sealed space (03) distances in this Are increasingly formed, wherein the sealing lips (11, 12, 13) each have an axially extending thickness (y, z), characterized in that the thickness (z) of the third sealing lip (13) greater than the thickness ( y) of the first sealing lip (11) and greater than the thickness (y) of the second sealing lip (12). Seal arrangement according to Claim 1 , characterized in that the third sealing lip (13) has a smaller inner diameter than the first sealing lip (11) and as the second sealing lip (12). Seal arrangement according to Claim 2 characterized in that the inner diameter of the first seal lip (11), the inner diameter of the second seal lip (12) and the inner diameter of the third seal lip (13) are decreasing in this order. Sealing arrangement according to one of Claims 1 to 3 , characterized in that the sealing lips (11, 12, 13) each have an average length (L1, L2, L3) in the radial direction, which is defined by a difference between an average outer diameter and an inner diameter of the respective sealing lip (11, 12, 13 ), wherein the sealing lips (11, 12, 13) have the same average length (L1, L2, L3). Sealing arrangement according to one of Claims 1 to 4 characterized in that a first seal lip space (W1) is formed by an axially formed space between the first seal lip (11) and the second seal lip (12), that a second seal lip space (W2) is formed by an axially formed distance between the second sealing lip (12) and the third sealing lip (13) is formed, and that a third sealing lip space (W3) is formed by an axially formed distance between the third sealing lip (13) and an outer seal boundary, wherein the third sealing lip space ( W3) is greater than the first sealing lip space (W1) and larger than the second sealing lip space (W2). Seal arrangement according to Claim 5 , characterized in that the first sealing lip space (W1), the second sealing lip space (W2) and the third sealing lip space (W3) are increasingly formed in this order. Sealing arrangement according to one of Claims 1 to 6 characterized in that a first seal lip overlay is formed by a radial portion over which the first seal lip (11) covers the third seal lip (13) and a second seal lip overlay is formed by a radial portion which the second seal lip (13) forms third sealing lip (13) covered, wherein the first sealing lip overlap is smaller than the second sealing lip overlap. Sealing arrangement according to one of Claims 1 to 7 , characterized in that the sealing ring (07) has a reinforcement (08) to which an elastomeric body (10) comprising the sealing lips (11, 12, 13) is fastened. Machine assembly; comprising a first machine element (01) and a second machine element (02), which are arranged coaxially to each other and are rotatable relative to each other, and a sealing arrangement according to one of Claims 1 to 8th for sealing a space (03) between the first machine element (01) and the second machine element (02). Machine element arrangement according to Claim 9 , characterized in that the first machine element and the second machine element are each formed by a bearing rings (01, 02) of a rolling bearing, wherein in the space to be sealed (03) rolling elements (04) are arranged.

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