DE2351066B1 - Lip seal for reciprocating rods, especially for high pressure shock absorbers - Google Patents

Description

The invention relates to a lip seal of the type described in the preamble of claim 1.

For sealing reciprocating rods, e.g. piston rods, valve stems, shock absorbers, Often sealing rings with an elastically flexible sealing lip are used. For this it is Generally known, the contact point of the sealing lip with the rod surface is linear or flat train, with the line contact and in particular at low pressure of the medium to be sealed if the medium to be sealed is under high pressure, surface contact is preferred.

From DT-PS 1 243 934 a valve stem seal is known, which in the area of its cylindrical Sealing surface one which connects both end faces of the seal and runs in a helical manner Has a lubrication groove that provides uniform and metered lubrication of the valve stem moving back and forth should enable. Such a design cannot be used as a high-pressure seal, since that is to be sealed Penetrate the medium through the sealing surface groove from one side of the sealing lip to the other side can.

For sealing rotating shafts or axles, it is known from US-PS Re 15 061, in a sealing lip surface resting on the shaft surface is an axially non-continuous, spiral-shaped one Provide groove. As a result of the rotating direction of rotation of the shaft to be sealed, it is possible that the shaft to be sealed Medium is conveyed into the spiral groove and thereby for lubrication between the sealing lip and the shaft surface contributes. However, the use of such a seal on reciprocating rods would hardly Contribute to the improvement of the lubricating effect between the sealing lip and the rod surface.

In addition, US Pat. No. 2,161,767 "is not new to shaft seal rings with surface contact between the sealing lip and the shaft surface, the running surface of the sealing lip with a circumferential, to provide annular groove and thus the sealing surface in two axially adjacent sealing surface zones to subdivide.

The DT-AS 2 101 120 discloses the further idea, which is worked into the sealing surface by means of a circumferential groove divided into two sealing surface zones sealing surface of a shaft sealing ring on the to be sealed medium facing side of the sealing lip with a closed in the circumferential direction Form the sealing zone and the membrane-side sealing surface area by several, on the circumference of the Sealing lip distributed axial grooves to be used as a support bearing for the sealing lip. The axial grooves have it the task of a lubricant fed separately from the back of the seal into the support bearing area the sealing surface and thus a hydrodynamic lubricating effect when rotating Enable wave.

To improve the lubrication of sliding surfaces in lip seals, GB-PS 499 480 is already known, in the sealing lip surface resting on a rotating shaft or reciprocating rod several inclined to the seal axis and parallel to each other with grooves in the circumferential direction provide a wavy or zigzag course.

The grooves are alternately open to one side or the other of the sealing lip. The one between the grooves remaining webs have triangular cross-sections. Both the groove course and the for The cross-section of the web, which is pointed towards the shaft or rod surface, prevents the use of a seal for sealing media under high pressure.

DT-OS 1 946 570 meets the demand for improved sliding and lubrication conditions High-pressure seals closer to the extent that, at least in the later operating state, the sealing lip surface has a circumferential, self-contained sealing surface zone, while the sealing lip faces the medium side has open axial cuts. It is disadvantageous when using such a seal as a rod seal the axially parallel course of the incisions, since in the purely axial relative movement in the area of the Sealing surface segments resting on the rod surface between the grooves are not sufficiently hydrodynamic Can build up pressure cushions for lubrication and relief.

The invention is based on such a lip seal, as it is specified in more detail in the preamble of claim 1.
The invention is based on the object of improving a lip seal of the type described above for reciprocating rods for sealing a high-pressure medium in such a way that, as a result of the axial movement of the rod, a metered supply of the pressure medium is achieved.

medium between the support surfaces of the sealing lip and the rod surface and thus on the one hand the sealing lip is relieved and on the other hand the lubrication of the sealing lip sliding on the rod surface is improved.

This object is achieved according to the invention in that the rest on the rod surface Boundary edges of the grooves over a substantial part of their axial extent obliquely to the rod axis get lost. During the reciprocating movement of the rod surface, the one in the grooves becomes damming liquid medium parts thereof with under the support surfaces resting on the rod surface the sealing lip promoted. The inclined course of the boundary edges of the grooves ensures one possible uniform hydrodynamic structure of a pressure relief and lubrication wedge between Sealing lip and rod surface.

It is also proposed that the radial depth of the grooves should be dimensioned such that they only extend over one Extend part of the radial sealing lip cross section. On the one hand, in the sealing surface area radially has relatively less deep grooves, on the other hand the ring-shaped closed one radially outer part of the sealing lip to a higher mechanical load capacity of the sealing lip.

It is of further advantage if the grooves ending in front of the annular sealing zone have a circumferential one Annular groove are connected to each other. In this way, pressure builds up evenly over the circumference by the medium to be sealed in front of the sealing zone, combined with a uniform, hydrodynamic Lubrication and relief of the sealing zone, guaranteed.

It is also conceivable that the grooves are different Have depth and / or width in such a way that the cross-sectional areas of the 'grooves to the medium side increase in the radial and / or circumferential direction. This results in a further improved supply of the medium into the grooves and thus between the sealing lip and Bar surface reached.

Finally, it is proposed that the sealing lip be provided by a helical tension spring washer in a manner known per se to surround, whose radial line of action lies in a radial plane running through the sealing zone. This measure allows the sealing pressure and thus the sealing effect in the area of the intrinsic Sealing point of the sealing lip, namely the sealing zone, still increase what is in connection with the special Training and the thus achievable hydrodynamic lubrication and relief of the entire sealing lip contact surface is possible.

Embodiments of the subject matter of the invention are shown in the drawing and are described below described in more detail. Show it

F i g. 1 to 3 sealing profiles with differently designed Grooves in the area of the sealing lip contact surface.

F i g. 1 shows half a cross section through a rod seal 1, which is used for sealing the dash-dotted line indicated piston rod 2 of a high-pressure shock absorber not shown further used will. The rod seal 1 consists of the holding part 3 with an embedded one which is used for stiffening Metal disk 4 and a sealing lip 5, which via an elastic membrane 6 with the holding part 3 connected is. The installation of such a seal is carried out in such a way that the sealing lip 5 faces inwards, d. H. in Direction is directed towards the medium 7 to be sealed (shock absorber fluid). The one on the rod surface lying running surface 8 of the sealing lip 5 is in two axially adjacent and through the circumferential groove 9 divided sealing surface areas 10, 11 from one another, the medium-side sealing surface area 10 a plurality of grooves 12 distributed around the circumference with delimiting edges running obliquely to the rod axis 13 14, 15 and in the axial width a multiple of the width of the relatively narrow, in the circumferential direction uninterrupted sealing zone 11 on the side of the running surface facing away from the medium 8 corresponds to The grooves 12 have the task of sealing the medium under high pressure for the purpose of forming a lubricating film between the running surface 8 of the sealing lip 5 and the piston rod surface to supply and thus to achieve a hydrodynamic effect and, moreover, relieving to act on the sealing lip 5.

In the embodiment of Figure 2 is the Running surface 16 of the sealing lip 17 of a rod seal 18 with an endless, undulating in the circumferential direction extending groove 19 formed, the medium-side wave crests via axial grooves 20 a Establish a connection to the medium side 7.

According to the in FIG. 3 illustrated embodiment The grooves 21 can have different radial depths or different widths in the circumferential direction be formed, the cross-sectional areas of the grooves 21 increasing towards the medium side 7.

Furthermore, in the notch 24 present between the sealing lip 22 and the holding part 23, there is a helical tension spring washer 25 inserted, its radial line of action

26 lies in a radial plane running through the sealing zone 27 thus also the sealing effect in the area of the sealing zone

27 is further increased, which is due to the specially designed running surface area 28 in accordance with the invention Connection with the targeted lubrication of the entire running surface 29 of the sealing lip 22 is possible.

1 sheet of drawings

Claims (5)

Patent claims: 1. Lip seal for reciprocating rods to seal against an under higher Pressurized medium, especially for high-pressure shock absorbers, which has a sealing lip that rests relatively wide under the medium pressure, with a ring-shaped circumferential, relatively narrow sealing zone at the end of the facing away from the medium Sealing surface and with grooves in the remaining sealing surface area that are connected to the space of higher pressure stand and between these grooves in the circumferential direction remaining on the rod surface resting support surfaces, characterized in that the on the rod surface overlying boundary edges (14, 15) of the grooves (12, 19, 21) over a substantial part their axial extension run obliquely to the rod axis (13). 2. Lip seal according to claim 1, characterized in that the radial depth of the grooves (12,19,21) is dimensioned such that it extends over only part of the radial sealing lip cross section extend. 3. lip seal according to claims 1 and 2, characterized in that the before Sealing zone (11) ending grooves (12) are connected to one another via a circumferential annular groove (9). 4. lip seal according to claims 1 and 2, characterized in that the cross-sectional areas of the grooves (21) to the medium side (7) increase in the radial and / or circumferential direction. 5. lip seal according to claim 1, characterized in that the sealing lip (22) of a helical tension spring ring (25) is surrounded, the radial line of action (26) in a through the Sealing zone (27) extending radial plane lies.