DE3937896A1 - Composite piston groove ring seal - has washer-type support body with axial recesses for bosses on seal base - Google Patents

Abstract

The composite piston sealing ring works between moving and stationary components and/or forming an axial guide for the former. It has an elastic sealing body (16) of softer material with a mounting base (16.1) and a lip (12). Clear of the latter is a relatively rigid support body (20) of harder material, positively secured in the base. The radial, washer-type body has axial recesses at intervals round the periphery at its wide side, facing the lip and narrowing in the radial direction towards the inside or outside. Mating bosses are formed on the surface of the base, bearing against the body and engaging in the recesses in the axial direction to compress the sealing body under radial sealing pressure. ADVANTAGE - No base expansion beyond support body.

Description

The invention relates to a composite element, in particular a U-ring seal for pistons and their rods including plungers, as a seal of a moving Machine part against a stationary machine part and / or as axial guidance of the former on the latter; With an elastic sealing body made of softer material, the one storable base part and a molded, has radially projecting, dynamic sealing lip; and with a relative distance from it rigid support body made of harder material, which in the Basic part inserted and with this at least is non-positively connected.

Composite elements of this type are for different Sealing purposes known, for example as Groove ring seals are used where a general Sealing problem also occurs, which is axially next to the dynamic sealing lip a radial one Free space between the stored base part and the moving part Machine part not only to create, but also under Hold pressure so that the sealing function without Frictional losses can take effect.

A disadvantage of the known groove ring seals initially mentioned type, which the problem mentioned solve, but is the radial relative mobility of the stored base part and its inserted Support part with respect to each other. That agility results in pressure penetration of the nut ring Medium such as hydraulic fluid to shear forces in the radial interface in which the softer base part and the harder support part more or less intimately touch. Even if the existing one there non-positive connection of the support body to the base body  resists actual shear, the because of its softness naturally larger elastic Deformability of the base part cause this near the support part over its radial Limiting the above mentioned free space in this penetrates it radially reducing, the Friction with the moving machine part undesirable increases.

The invention is therefore based on the object Composite element, in particular a lip seal, the type mentioned in the beginning without the disadvantage mentioned to create a shape that automatically ensures that an expansion of the base part is rigid Support body is omitted by.

According to the invention, this object is achieved by that the radially arranged, disc-shaped support body on its broad side facing the sealing lip the axial circumference distributed axial depressions is that with radially outer or inner seal and / or guiding action of the composite element radially progressively narrowing outside and inside; and that the Base part of the sealing body on its on the support body adjacent composite surface with complementary increases is provided for a radial form fit in the engage radially tapering recesses axially and under radial sealing pressure on the Materially compress the sealing body.

An advantage of such a composite element is that secure anchoring of the base part of the sealing body in the support body, which is one in its area of effect radial displacement of the sealing body with great success opposes. In this context, an existing one non-positive connection of the support body with the Basic part only the importance of securing the axial cohesion of both element components.  

In a preferred embodiment of the invention Composite element have the depressions of the support body and the corresponding increases in the sealing body Base part each have two continuously converging edges, which follow each other in the circumferential direction and preferably a radial, possibly hollow, wedge / stump limit in the circumferential direction. - Provide such flanks for a self-locking of the invention Composite element with simplicity of its Construction, which is favorable to the production costs affects.

In the preferred embodiment also form the circumferentially between two each other adjacent recesses of the support body raised parts of the same radial wedge or truncated wedge, which is a circumferential zigzag line with rounded tips. This makes the Top view of the elevation of the support body of a ring gear, which is not only cast, but also optionally machined can be formed.

In the preferred embodiment, stretches the support body in the radial direction at least approximately over the entire radial extent of the Seal body base part. In the in Embodiment of the invention given The support body is the approximate case of a seal also on the radial side of the effective range of Sealing lip with a film made of material Seal body covered. - This film is hiring Filling material and provides the support body Corrosion protection. This can be done with a wiperless composite element according to the invention improve that the support body on all sides in the Sealing body embedded and on its the Sealing lip facing away from the broadside with a film Material of the sealing body is coated.  

Finally, the support body has the preferred Embodiment with one of the sealing lip axially groundbreaking known wiper lip or second Sealing lip two mirror images, facing away from each other Broad sides, one of which is the sealing lip and the other of the wiper lip or the second sealing lip is facing. - This configuration of the support body, to which a corresponding design of the sealing body Heard base part, vouches for the advantage of composite element according to the invention and thus its Trouble-free not only for the freedom of dynamic sealing lip, but in the same way also for the free space of the wiper lip.

The film mentioned above also offers that as a filler Advantage that the seal body base in addition to Support body and this on the radial side of the The effective range of the dynamic sealing lip is not exactly flush must lie what the manufacture of the composite element simplified.

The invention is based on two alternatives the preferred embodiment of the invention Composite element, namely a lip seal, in individual explained. It shows:

Fig. 1 a guided in an axial cross section of the first alternative,

Fig. 2A is an enlarged plan view of the two wide sides of a supporting body of the first alternative,

FIG. 2b shows a cross section along the cranked line IIB-IIB in Fig. 2a by this support body,

Fig. 3a shows a Fig. 2a corresponding view of a supporting body of the second alternative,

Fig. 3b shows a section along the line IIIB-IIIB in Fig. 3a through that support body.

The first alternative of the preferred embodiment of the composite element according to the invention is, according to FIG. 1, a U-ring seal for rods including plungers, which are to be thought of to the right of the composite element, which itself is to be thought of as being arranged in a rectangularly profiled installation space which is open to the right. This annular seal has an eponymous annular groove ( 10 ) which is open towards the high pressure side and is delimited by a radially inner dynamic sealing lip ( 12 ) with a sealing edge ( 12.1 ) and a radially outer static sealing lip ( 14 ) which bears against the base of the installation space . The two sealing lips ( 12 and 14 ) are connected to each other by the storable base part ( 16.1 ) of a sealing body made of softer material. In addition to the two axially projecting sealing lips ( 12 and 14 ), an axially projecting wiping lip ( 18 ) axially opposite to the dynamic sealing lip ( 12 ) with wiping edge ( 18.1 ) is integrally formed on the sealing body base part ( 16.1 ). The dynamic sealing edge ( 12.1 ) and the scraper edge ( 18.1 ) rest against the rod to be sealed with radial preload.

An annular disk-shaped support body ( 20 ) is almost embedded in the sealing body base part ( 16.1 ), with only a radial part ( 20.1 ) of its low-pressure side end face being exposed, for example in atmospheric air. At its radially inner edge, the support body ( 20 ) made of harder material is provided with a film ( 16.2 ) made of the softer material of the sealing body ( 16 ). This film ( 16.2 ) thus extends axially between the dynamic sealing lip ( 12 ) and the wiper lip ( 18 ) into which it merges. At its radially outer edge, the support body ( 20 ) maintains a radial distance from a conical circumferential surface ( 16.3 ) of the sealing body ( 16 ), which lies opposite the bottom of the installation space. As indicated in Fig. 1 by dashed lines, the support body ( 20 ) can optionally extend to the peripheral surface ( 16.3 ).

In various variants of the first alternatives, the film ( 16.2 ) and / or the part of the entire U-ring seal with wiping lip shown below the dash-dotted horizontal line in FIG. 1 may be missing, in the latter case without the first case, the entire low-pressure side face of the Support body can also be covered with a film made of the material of the sealing body ( 16 ), for example polyurethane.

The support body ( 20 ), for example cast from aluminum, is smooth on one broad side in the special case mentioned above, but in the exemplary embodiment according to FIG. 2b is provided with mirror-image broad sides, each of which has a row of knob-like, flat elevations ( 22 ) distributed uniformly over the ring circumference, which each reach the radially inner circumference of the support body ( 20 ) with a slope ( 22.1 ), but not to the radially outer edge of the support body, in the vicinity of which the approximately rectangular plan of the elevations ( 22 ) shows two quarter-circle rounded corners ( 22.2 ), which do not have a notch effect on the adjacent sealing body base part ( 16.1 ).

Between each pair of adjacent, that is consecutive in the circumferential direction knuckles (22) a recess (24) is in the form of a flat hollow wedge, which from each one of the two parallel flanks (22.3) of a projection (22) edges formed continuously, namely in a straight line , converge in the radial direction inwards, the point of convergence being outside the center M of the support body ( 20 ). The flanks ( 22.3 ) are flat and lie in planes to which the axis ( 20.2 ) of the support body ( 20 ) is parallel.

The wedge-shaped recesses ( 24 ) correspond to complementary elevations, not shown, of the sealing body base part ( 16.1 ), with which the latter engages in a form-fitting manner radially inwards, the axial connection of the support body ( 20 ) with the sealing body ( 16 ) on the one hand via the base surfaces the depressions ( 24 ) and the surfaces of the elevations ( 22 ) and, on the other hand, are produced by the corresponding stepped composite surface of the base part ( 16.1 ).

As soon as the medium pressure indicated in Fig. 1 by a curly arrow from the annular groove ( 10 ) to the elevation ( 22 ) takes effect, it tries to push the elevations of the sealing body base part ( 16.1 ) engaging in the recesses ( 24 ) radially inwards . The softer material of the sealing body ( 16 ) yields until it is compressed by the raised flanks ( 22.3 ) of the supporting body ( 20 ) made of harder material to such an extent that the elastic restoring force of the softer material that is produced compensates for the medium pressure. The support body elevations ( 22 ) apparently prevent the sealing body base part ( 16.1 ) from being extruded radially inward into the receiving space of the support body ( 20 ) for the rod to be sealed. For this purpose, the dimensions of the support body ( 20 ) matched to the softer material of the sealing body ( 16 ) are selected so that the sealing body base part ( 16.1 ) no longer exceeds the inner edge of the supporting body ( 20 ) radially inward until the maximum medium pressure is reached than the film ( 16.2 ).

The second alternative is a grooved ring seal for pistons and corresponds largely to the first except for another support body ( 120 ) and a corresponding modification of the seal body base part. Therefore, of the second alternative, which has a second dynamic sealing lip replacing the wiper lip ( 18 ) in a symmetrical arrangement with respect to the first one, only the support body ( 120 ) is shown and also this only to the extent that it deviates from the support body ( 20 ). Mutually identical or corresponding support body parts are provided with 100 higher reference numbers. - Here is radially inside to outside and vice versa.

The truncated pyramid-shaped elevations ( 122 ), which do not extend from the radially outer edge of the support body ( 120 ) to its radially inner edge, where there is a continuous circular ring ( 122.4 ) in the circumferential direction, show in the course of their oblique flanks ( 122.3 ) and edges. Rounding ( 122.2 ) approximately the course of a zigzag line with rounded tips, that is, the shape of a ring gear, between the raised teeth of which the sealing body base part engages in a form-fitting manner with the elevations corresponding to the radially outwardly tapering depressions ( 124 ).

Claims (7)

1. Composite element, in particular a groove ring seal for pistons and their rods including plungers, as a seal of a movable machine part against a stationary machine part and / or as an axial guide of the former on the latter; with an elastic sealing body ( 16 ) made of softer material, which has a mountable base part ( 16.1 ) and a molded, radially projecting, dynamic sealing lip ( 12 ); and with a relatively rigid support body ( 20 ) made of harder material, which is arranged in the base part ( 16.1 ) and is at least non-positively connected thereto, characterized in that the radially arranged, disc-shaped support body ( 20 ; 120 ) its broad side facing the sealing lip ( 12 ) is provided with axial depressions ( 24 ; 124 ) distributed over the circumference of the axis, which progressively narrow radially outward or inward when the composite element is radially outer or inner sealing and / or guiding action; and that the base part ( 16.1 ) of the sealing body ( 16 ) is provided on its support surface ( 20 ; 120 ) with complementary elevations which engage axially for a radial positive engagement in the radially tapering depressions ( 24 ; 124 ) and underneath Compress radial sealing pressure on the sealing body ( 16 ) materially. 2. Composite element according to claim 1, characterized in that the depressions ( 24 ; 124 ) of the support body ( 20 ; 120 ) and the corresponding elevations of the sealing body ( 16 ) base part ( 16.1 ) each have two continuously converging flanks ( 22.3 ; 122.3 ) , which follow each other in the circumferential direction ( Fig. 2a; 3a). 3. Composite element according to claim 2, characterized in that the two flanks ( 22.3 ; 122.3 ) of each recess ( 24 ; 124 ) or increase limit a radial, possibly hollow, wedge / stump in the circumferential direction ( Fig. 2a; 3a) . 4. Composite element according to claim 3, characterized in that also in the circumferential direction between two mutually adjacent recesses ( 124 ) of the support body ( 120 ) located raised parts ( 122 ) of the same form radial wedges or truncated wedges which form a circumferential zigzag Show line with rounded tips ( Fig. 3a). 5. Composite element according to one of claims 1 to 4, characterized in that the supporting body ( 20 ) extends in the radial direction at least approximately over the entire radial extent of the sealing body ( 16 ) base part ( 16.1 ) and in the approximate case of a seal on the radial Side of the effective range of the sealing lip ( 12 ) is covered with a film ( 16.2 ) made of the material of the sealing body ( 16 ) ( Fig. 1). 6. Composite element according to claim 5, characterized in that the support body ( 20 ) embedded on all sides in the sealing body ( 16 ) and on its the sealing lip ( 12 ) facing away from the wide side ( 20.1 ) is covered with a film of material of the sealing body ( 16 ). 7. Composite element according to one of claims 1 to 5, with one of the sealing lip ( 12 ) axially pointing scraping lip ( 18 ) or second sealing lip, characterized in that the support body ( 20 ; 120 ) has two mirror-inverted, mutually opposite broad sides, one of which one facing the sealing lip ( 12 ) and the other facing the wiper lip ( 18 ) or the second sealing lip ( Fig. 2b; 3b).