DE102016221611A1 - sealing arrangement - Google Patents

Abstract

The invention relates to a sealing arrangement (1) for sealing a first component (2a) relative to a second component (2b) which is rotatable relative thereto, comprising a seal (3) arranged on the first component (2a) and attached to the second component (2b). the seal (3) is made of an electrically conductive plastic (4) and at least partially surrounded by a conductive liquid (5), wherein upon application of an electrical current ions (6) of the electrically conductive plastic (4 ) flow into the conductive liquid (5) to reduce the volume of the electrically conductive plastic (4).

Description

The invention relates to a sealing arrangement for sealing a first component relative to a second component rotatable relative thereto. In particular, the invention relates to a seal assembly for a rolling bearing.

The sealing of a rolling bearing against environmental influences is necessary in many applications to ensure a sufficient life of the rolling bearing. For example, in wheel bearings for vehicles it is essential to protect the rolling bearings arranged in the wheel fastenings against splash water and other contaminants in daily use. Usually contact seals are used for this purpose, which are known for example in the design of cassette seals, which can be used in the rolling bearing as a seal set. In the cassette seals usually one to two in the axial direction and one to two in the radial direction touching sealing lips are positioned.

From the DE 10 2009 050 215 A1 goes out a sealing ring for sealing a rolling space of a rolling bearing. The sealing ring has a for attachment to a first bearing part provided, an elastic part holding carrier part. The sealing ring is provided by means of a radial or axial sealing lip on the elastic part for sealing the Wälzraumes between the first bearing part and a first bearing part relatively rotatable second bearing part or between the first bearing part and another attached to the second bearing part, relative to the first bearing member movable component , The sealing lip is intended to form a gap with the second bearing part or with the component. Furthermore, the sealing lip has an annular groove for forming a gap closing lubricant ring.

The object of the present invention is to further develop a sealing arrangement and in particular to reduce frictional losses.

The sealing arrangement according to the invention for sealing a first component relative to a second component rotatable relative to it comprises a seal arranged on the first component, which rubingly abuts against the second component, wherein the seal is formed of an electrically conductive plastic and at least partially of a conductive liquid surrounded when applying an electric current ions from the electrically conductive plastic flow into the conductive liquid to reduce the volume of the electrically conductive plastic.

Thus, a change between a first and a second operating state is performed for the inventive seal assembly during operation, the change is particularly dependent on whether it is a humid or dry environment. The first operating state is realized by energization and is also the initial state of the seal assembly. The first state is given in particular when the environment outside the sealing arrangement or outside the storage device in which the sealing arrangement is provided is substantially dry. There is an electrical gradient between the plastic and the liquid due to a concentration gradient of ions. The application of an electrical voltage generates an electrochemical driving force which releases ions, ie positively charged atoms, from the plastic and shifts them into the conducting liquid. The concentration of ions in the conductive liquid increases, while at the same time the concentration of ions in the plastic decreases. The electrically conductive plastic is preferably a polyaniline or polypyrrole. The conductive liquid is preferably mixed with salts, acids or bases to ensure sufficient conductivity of the liquid. The more ions flow out of the plastic, the greater its volume loss. The decrease in the volume of the seal and, accordingly, the height of a forming sealing gap between the seal and the second component is limited to the saturation of the conductive liquid to ions.

The second state is accomplished by turning off the electrical current, causing the ions to flow back into the plastic due to the electrochemical driving force, thereby increasing the concentration of ions. The volume of the seal increases analogously. The second state is switched in particular when the environment outside the storage device has a certain moisture content, as a result of which the storage device is endangered with regard to the entry of water or moisture.

Preferably, the sealing arrangement comprises a circuit with a humidity sensor, which is provided to trigger a switch for switching the electric current, wherein the circuit further comprises a battery for generating the electric current. The moisture sensor serves as an initiator. If a moisture limit value is exceeded or undershot, the moisture sensor triggers a switch which switches between the first and second state of the sealing arrangement.

A second embodiment of the sealing arrangement according to the invention for sealing a first component relative to a relative thereto rotatable second component comprises a seal arranged on the first component, wherein the seal is formed of a swellable material, wherein the swellable material is provided to increase the volume of the seal under moisture absorption, so that the seal comes to rest on the second component thereby form a circumferential seal. By a swellable material is meant a material whose volume increases by contact with moisture and a moisture absorption.

Consequently, a change between a first and a second operating state is performed during operation for the second embodiment of the sealing arrangement according to the invention in operation, wherein the change is particularly dependent on whether it is a humid or dry environment. A first state is at the same time the initial state of the seal arrangement. The first state is given in particular when the environment outside the sealing arrangement or outside the storage device in which the sealing arrangement is provided is substantially dry. The seal has a defined radial height and a defined moisture content.

The second state is initiated when the gasket comes in contact with moisture. The moisture can be, for example, rain or spray water. The second state is switched in particular when the environment outside the storage device exceeds a certain moisture content, whereby the storage device is endangered with respect to the entry of water or moisture. Due to the moisture absorption of the swellable material increases the volume of the seal, so that correspondingly increases the radial dimension of the seal and comes to rest on the second component. A retrograde change from the second state to the first state occurs by condensing the moisture from the swellable material, whereby the volume of the material decreases. It is advantageous that no initiator is to be provided for the second embodiment. A circuit comprising a humidity sensor, a switch and a current-generating battery is not necessary for this, since for initiation alone the contact between the swellable material and a liquid is sufficient.

Further preferably, a sealing gap is formed radially between the seal and the second component, which is intended to receive a greasy film. The sealing gap and the grease film are provided for both embodiments of the sealing arrangement. Due to the sealing gap, there is no contact, that is, no friction between the seal and the second component. As a result, friction losses from the bearing device and, accordingly, the CO ₂ emission of a vehicle can be reduced by means of such sealing arrangements. The greasy film in the sealing gap is intended to act, even in the first state to a certain extent dirt and dust repellent. As a result, contamination of the bearing interior due to moisture, dirt or dust in both the first state and in the second state can be avoided.

• 1 eine schematische Schnittdarstellung zur Veranschaulichung des Aufbaus einer ersten Ausführungsform einer erfindungsgemäßen Dichtungsanordnung in einem ersten Zustand,
• 2 eine schematische Schnittdarstellung zur Veranschaulichung des Aufbaus der ersten Ausführungsform der erfindungsgemäßen Dichtungsanordnung in einem zweiten Zustand,
• 3 eine schematische Schnittdarstellung zur Veranschaulichung des Aufbaus einer zweiten Ausführungsform der erfindungsgemäßen Dichtungsanordnung in einem ersten Zustand, und
• 4 eine schematische Schnittdarstellung zur Veranschaulichung des Aufbaus der zweiten Ausführungsform der erfindungsgemäßen Dichtungsanordnung in einem zweiten Zustand.

Further measures improving the invention will be described in more detail below together with the description of a preferred embodiment of the invention with reference to the two figures. This shows

• 1 3 is a schematic sectional view for illustrating the structure of a first embodiment of a sealing arrangement according to the invention in a first state,
• 2 3 is a schematic sectional view for illustrating the structure of the first embodiment of the sealing arrangement according to the invention in a second state,
• 3 a schematic sectional view illustrating the construction of a second embodiment of the seal assembly according to the invention in a first state, and
• 4 a schematic sectional view illustrating the construction of the second embodiment of the seal assembly according to the invention in a second state.

According to 1 is a first embodiment of a seal assembly according to the invention 1 for sealing a first component 2a opposite a relatively rotatable second component 2 B shown in a first state. The seal arrangement 1 includes one on the first component 2a arranged seal 3 , where the seal 3 made of an electrically conductive plastic 4 formed and at least partially by a conductive liquid 5 is surrounded. The seal arrangement 1 includes a circuit 8th with a battery 11 and a humidity sensor 9 which acts as an initiator and a switch 10 triggers to switch the electric current. The moisture sensor 9 is for direct measurement of moisture in the immediate vicinity of the seal assembly 1 arranged. In the first state, ions flow when an electric current is applied 6 from the electrically conductive plastic 4 into the conductive liquid 5 so that the volume of electrically conductive plastic 4 decreases. Radial between the seal 3 and the second component 2 B is formed by the decrease in the volume of the plastic 4 a sealing gap 13 out, making it between the seal 3 and the second component 2 B no contact point and thus no friction losses.

To 2 The electric current is generated by the triggering of the switch 10 shut off by the humidity sensor 9 measures a humidity value that exceeds a threshold. By triggering the switch 10 interrupts the circuit 8th and a second state of the seal assembly 1 occurs. By switching off the flow, the ions enriched in the liquid flow 6 in the electrically conductive plastic 4 , causing an increase in volume of the plastic 4 takes place. Due to the radial extent of the seal comes 3 on the second component 2 B rubbing the plant to thereby form a circumferential seal.

The sealing gap 13 is due to the radial deformation of the seal 3 during the shutdown of the electric power is closed and thus is not existent in the second state. Thus, an on-demand, in particular a moisture-sealed seal between the first component 2a and the relatively rotatable second component 2 B created.

In 3 is a second embodiment of a seal assembly according to the invention 1 for sealing a first component 2a opposite a relatively rotatable second component 2 B shown in a first state. The seal arrangement 1 includes one on the first component 2a arranged seal 3 , where the seal 3 from a swellable material 7 is trained. The swellable material 7 has a relatively small volume in the illustrated dry state. Radial between the seal 3 and the second component 2 B is therefore a sealing gap 13 formed, making it between the seal 3 and the second component 2 B no contact point and thus no friction losses.

To 4 is the swellable material 7 provided, under moisture absorption, the volume of the seal 3 to enlarge, so the seal 3 on the second component 2 B rubbing comes to the plant, thereby forming a circumferential seal. The sealing gap 13 is due to the swelling of the seal 3 by the moisture absorption of the swellable material 7 closed and thus is not existent in the second state. Thus, an on-demand, in particular a moisture-sealed seal between the first component 2a and the relatively rotatable second component 2 B created.

LIST OF REFERENCE NUMBERS

1

sealing arrangement

2a, 2b

component

3

poetry

4

electrically conductive plastic

5

Conductive fluid

6

ions

7

swellable material

8th

circuit

9

humidity sensor

10

switch

11

battery

12

sealing lip

13

sealing gap

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 102009050215 A1 [0003]

Claims (4)

A sealing arrangement (1) for sealing a first component (2a) relative to a second component (2b) rotatable relative thereto, comprising a seal (3) arranged on the first component (2a) and frictionally engaging the second component (2b) , wherein the seal (3) made of an electrically conductive plastic (4) and at least partially surrounded by a conductive liquid (5), wherein upon application of an electric current ions (6) of the electrically conductive plastic (4) in the conductive Liquid (5) flow to reduce the volume of the electrically conductive plastic (4). Seal arrangement (1) according to Claim 1 characterized in that the seal assembly (1) further comprises a circuit (8) having a humidity sensor (9) arranged to trigger a switch (10) for switching the electrical current, the circuit (8) further comprising a battery (11) for generating the electric current. Sealing arrangement (1) for sealing a first component (2a) relative to a second component (2b) rotatable relative thereto, comprising a seal (3) arranged on the first component (2a), wherein the seal (3) consists of a swellable material (7 ), wherein the swellable material (7) is provided to increase the volume of the seal (3) while absorbing moisture, so that the seal (3) abuts the second component (2b) to thereby form a circumferential seal. Sealing arrangement (1) according to one of the preceding claims, characterized in that radially between the seal (3) and the second component (2b), a sealing gap (13) is formed, which is intended to receive a greasy film.

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