Seal for a joint or juncture – Seal between relatively movable parts – Piston ring or piston ring expander or seat therefor
Reexamination Certificate
2002-11-04
2004-04-20
Knight, Anthony (Department: 3676)
Seal for a joint or juncture
Seal between relatively movable parts
Piston ring or piston ring expander or seat therefor
C277S438000, C277S552000, C277S566000
Reexamination Certificate
active
06722658
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a wiper. More specifically, the present invention relates to a wiper having an integrated seal.
BACKGROUND INFORMATION
German Patent Application No. 296 16 242 U1 describes a double wiper. The double wiper is provided for sealing a movable part with respect to a pressure system, the double wiper surrounding the movable part as a ring. A connection is produced between the two end faces of the double wiper when an opening pressure in the pressure system is exceeded.
SUMMARY OF THE INVENTION
According to one embodiment of the present invention, the present invention seeks to provide a wiper of the type described above in such a way that the wiper with the integrated seal is relieved from pressure. In addition, the present invention seeks to provide a wiper of the type described above in such a way that penetration of dirt and moisture along quasi-static sealing lips in the direction of the space to be sealed is reliably avoided.
To achieve the objective, a wiper having an integrated seal is provided, including at least one first, dynamically stressed sealing lip arranged in the direction of the space to be sealed and at least one wiping lip arranged on the side facing away from the space to be sealed. In addition, the wiper with integrated seal includes three quasi-statically stressed second, third and fourth sealing lips, which are each able to be placed against at least one counter-surface of the mounting space of the wiper with integrated seal. The second sealing lip is fluid-conductive. Each of the third and fourth sealing lips are formed and operate as a pressure relief valve. The second, third and fourth sealing lips are arranged to function in series. Due to the arrangement of the quasi-statically stressed sealing lips in series, they essentially function as a labyrinth seal to effectively prevent penetration of impurities from the surroundings past the quasi-statically stressed sealing lips into the space to be sealed.
To avoid an undesirably large displacement of the wiper with integrated seal within its mounting space, the second sealing lip is fluid-conductive, the third and fourth sealing lips are configured as a pressure relief valve. The third and fourth sealing lips are able to be lifted off of their respective counter-surfaces, for example, in response to an opening pressure of approximately 4 bar. The wiper is thereby prevented from being undesirably greatly deformed and/or being forced out of its mounting space. The third sealing lip is disposed functionally between the second and the fourth sealing lips. The third sealing lip prevents impurities from the surroundings from being able to penetrate past the second sealing lip into the space to be sealed. Even if the impurities have already passed the fourth sealing lip, there is no disadvantageous effect on the working properties of the wiper. Because the impurities are reliably held back by the fourth and third sealing lips, the second sealing lip does not come into contact with the impurities. The second sealing lip is thereby protected from wear and tear during a long service life, and dirt is effectively prevented from penetrating into the space to be sealed off.
Under normal operating conditions, the space to be sealed off in front of the seal integrated into the wiper is at zero pressure. The space may be empty, partially filled or completely filled with a medium to be sealed off. Under certain conditions, the medium may also be under a low pressure of up to 4 bar.
The third and fourth sealing lips sealingly abut against the wall of a housing, the wall bounding the mounting space.
The third sealing lip is configured such that medium to be sealed is reliably held back on the side of the second sealing lip facing the space to be sealed. A passage of fluid past the third sealing lip in the direction of the fourth sealing lip is prevented provided that the aforementioned pressure is not exceeded.
The second sealing lip is constructed so that it also abuts against the wall of the housing. However, due to the structure of its surface or due to small gaps in the sealing edge, the second sealing lip allows a small volumetric flow to pass which is sufficient to relieve the pressure.
If the pressure within the space to be sealed rises above 4 bar, for example, due to leakage of a further seal upstream of the wiper with integrated seal in the direction of the space to be sealed off, then a volumetric flow takes place past the second sealing lip in the direction of the third sealing lip. Due to the pressure, the third sealing lip allows the volumetric flow to pass in the direction of the fourth sealing lip. The fourth sealing lip lifts off briefly from its counter-surface, so that the volumetric flow emerges visibly as leakage in the direction of the surroundings. The visible leakage is an indication that seals within the space to be sealed and/or the rod to be sealed are damaged/worn out and should be replaced.
Of the quasi-statically stressed sealing lips, at least the second sealing lip facing the space to be sealed has a surface structure with a roughness R
a
of greater than 2 &mgr;m. Such a surface structure can be achieved, for example, when manufacturing the wiper with integrated seal by forming in a mold having a corresponding surface roughness. The surface roughness in the mold can be produced, for example, by eroding the relevant surface.
It is also possible to produce the surface structure in a different manner, for example, by blasting the surface with a granular material of steel, non-ferrous metals, sand, ceramics or plastic having a particle size of the granular material of approximately 2 to 20 &mgr;m. The surface roughness yields for the medium to be sealed a fluid-conductive connection in the direction of the third sealing lip via the second sealing lip without the second sealing lip lifting off from the counter-surface. Thus, the surface structure permits a fluid-conductive connection between the space to be sealed and the third sealing lip.
The fluid-conductive connection may also be produced or supported by one or more gaps, for example, by grooves running in the axial direction in the area of the second sealing edge.
The third sealing lip, arranged between the second and the fourth sealing lips, preferably has a sealing edge which is bounded by two mutually intersecting conical surfaces. The first conical surface faces the space to be sealed, forming a smaller angle relative to an imaginary axis parallel to the axis of symmetry than the second conical surface facing away from the space to be sealed. The first conical surface preferably forms a first angle of approximately 15° relative to the axis. The second conical surface preferably forms a second angle of approximately 45° relative to the axis.
The third sealing edge may be smooth or else may be provided with a structure similar to the second sealing edge. Due to the comparatively flat first angle and the steeper second angle, when the opening pressure is exceeded, the third sealing lip is deformed in such a way that the medium to be sealed passes the third sealing lip in the direction of the fourth sealing lip. Advantageously, a volumetric flow is able to travel past the third sealing lip in the direction of the fourth sealing lip, for example, through grooves extending essentially in the radial direction, within the sealing ring between the third and the fourth sealing edge, or through channels within the mounting space which are also not closable by an adjacent seal.
According to a preferred embodiment, the passage may be formed by a plurality of grooves, extending in the radial direction and distributed uniformly in the circumferential direction, which form a component of the wiper with integrated seal.
To achieve good seal tightness, the dynamically stressed, first sealing lip preferably has a sealing edge which is sharp or provided with a small radius of 0.2 mm or less. The wiping lip is preferably rounded, having a radius R=0.2. In contrast, sharp-edged wiping lips wipe off
Braun Otmar
Siegrist Uwe
Carl Freudenberg KG
Kenyon & Kenyon
Knight Anthony
Patel Vishal
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