DE3626067C1 - Rod seal which can be fitted into a groove - Google Patents

Abstract

The invention relates to a rod seal which can be fitted into a groove (4) and is intended for rotating rods. To increase the wear resistance and obtain sealing in both axial directions, the rod seal is constructed from a PTFE ring (1) and a rubber ring (2) which surrounds the PTFE ring, the PTFE ring (1) having, on its inner circumferential surface (7), two sleeves (9, 10) of tongue-shaped cross-section which are spread apart in a V shape relative to the radial centre plane (8) of the seal and the inner edges (11, 12) of which are designed as lip seals. <IMAGE>

Description

The invention relates to a rod that can be fitted into a groove seal for rotating rods.

For rod seals, a so-called dynamic sealing between the sealing element and itself rotating rod and on the other hand a so-called static Sealing between the sealing element and around the rod closing cylinder requires. At both sealing points the sealing element must be preloaded on the counter surface issue. The sealing effect is only maintained as long as also, despite wear-related abrasion in the area of dynamic seal that maintains preload remains.  

The well-known rod seals for rotating rods generally consist of both a static Seal on the groove wall of the cylinder as well dynamic seal on the rotating rod lying rubber ring on one or both foreheads sides supported by fabric-reinforced plastic backing rings is. Such rod seals have only a limited number Sealing effect, primarily due to abrasion Wear is at risk.

They are piston seals for reciprocating pistons or rods known (o + p oil hydraulics and pneumatics 30 (1986), No. 4, page 281), which consists of an inner PTFE ring with lip seal and one around the PTFE ring closing and preloading rubber O-ring, which be tightly fitted into an inner groove of the piston, wherein the rubber ring the static seal and the PTFE Ring form the dynamic seal. With the known Piston seal, the PTFE ring has a sealing lip, the Height only slightly larger than the width of the gap between piston and cylinder. The sealing lip points a flat wedge-shaped cross-section, the low of which  Wedge base area from the pressure of the medium to be sealed is opened. The known piston seal is therefore capable to seal only in one axial direction, but with the leaked quantities are still so large that at least two such piston seals in a row on Pistons must be provided. In addition, the well-known Piston seal very sensitive to wear limited abrasion. This sealing solution requires narrow gaps and a perfect piston surface, since the PTFE Material is sensitive to damage on the piston. These are for use with rotating bars Piston seals are not suitable.

Furthermore, DE-PS 32 07 081 and GB-OSen 20 96 247 and 21 41 189 rod seals for reciprocating Known pistons or rods made from a PTFE ring and a rubber ring enclosing the PTFE ring. The PTFE ring has wedge-like ridges on the piston side on the sealing effect with reciprocating pistons increase. For rotating, especially fast and Constantly rotating rods are the seals mentioned not inclined, since in this case the beads are very abrasive are subject to leaks in the shortest possible time would lead between the pistons.

The invention has for its object a wear fixed, usable from low to high pressure differences To create seal for rotating rods in both Directions, d. H. regardless of the direction of the Pressurization, seals reliably.

This object is achieved according to the invention achieved that the rods in a conventional manner seal from one on its inner peripheral surface two all-round sealing projections with PTFE ring and a the rubber ring surrounding the PTFE ring and that Sealing protrusions from two opposite the radial center plane the seal spread V-shaped, in Cross-section tongue-shaped cuffs exist, the inner edges are formed as a lip seal. At the rod seal according to the invention not only deliver the rubber ring, but to a very considerable extent as well the two V-shaped spread cuffs required preload for the static seal opposite the cylinder and for dynamic sealing opposite the rod, with the cuffs on her back elasticity even with a certain abrasion in the area  maintain their seals or sealing edges, so that also at low pressure differences or at the beginning of a Pressure build-up a perfect sealing effect is given. If the medium pressure is higher, the pressure applied is increased Cuff reinforced toward one inward stretched position, causing the system pressure of the Rod seal in the area of dynamic and static seal grows with increasing medium pressure, so that even at high pressure differences a flawless Sealing effect is achieved. The rod seal works reliable in both axial directions according to the invention  sealing, and as a rule the arrangement of one is sufficient single rod seal. Of course you can too two rod seals according to the invention side by side be arranged if the highest security requirements are posed.

In an embodiment of the invention it can be provided that the PTFE ring on its circumferential surface with a circumference groove is provided for receiving the rubber ring. Hereby becomes a large area system of PTFE ring and rubber ring reached so that a along the interfaces wall-free static sealing is given.

According to the invention it can also be provided that the PTFE ring has a rectangular cross-section in the groove insertable base body and that the cuffs and the circumferential groove symmetrical to the radial central plane of the Base body are arranged. The cross-sectional thickness of the Cuffs advantageously take from the root to the Point down, whereby the elastic deflectability of the Cuffs increased and a constant tight fit their sealing edges on the rod is guaranteed.  

Furthermore, it can be provided according to the invention that about the length of the cuffs between the root and the tip is equal to the radial wall thickness of the base body and that the diameter of the rubber ring is approximately equal to the distance between the circumferential groove deepest and the tips of the Cuff is. The cuffs are advantageously made from mutually bent halves of a split, in Cross-section of a frustoconical inner web of the PTFE Ring, the cut edges as sealing lips of dynamic seal are pre-bent. With one Training of the cuffs is made the so-called Take advantage of memory effect, d. H. the urge of certain work fabrics, here polytetrafluoroethylene, in their original Return form. For this purpose, the Original PTFE cone shape existing split in the cooled state. Get the cuffs thereby a resilient spring force, which the upright maintenance of a pre-tension guaranteed.

In a further embodiment of the invention, the Cuffs are concave on the outside, so that the cuffs or their sealing edges when pressure is applied  Impact pressed against the rod to an increased extent will. The rod seal according to the invention can be built relatively narrow, if according to one another feature of the invention the cuffs within of the space delimited by the end faces of the base body lie.

The inner plastic ring that forms the dynamic seal is preferably made of PTFE, but it can also be made of ver applied plastics such. B. PFA can be manufactured.

The object of the invention is described below with reference to a shown in the drawing embodiment closer explained.

The rod seal consists of a PTFE ring 1 and a rubber O-ring 2 , which is seated in a groove 3 which is semicircular in cross section on the outer peripheral surface of the PTFE ring 1 . The rod seal is fitted into an inner annular groove 4 of the cylinder 5 which accommodates the rotating rod to be sealed. The PTFE ring 1 consists of a base body 6 which is approximately rectangular in cross-section, on the outer circumference of which the groove 3 is provided and which on its inner circumferential surface 7 has two V-shaped, tongue-shaped cross-sections 9, 10 which are spread apart in a V-shape relative to the radial center plane 8 of the rod seal has, the inner edge 11, 12 of which come into contact as a lip seal on the rod to be sealed. The cross-sectional thickness of the sleeves 9, 10 increases continuously from the root 13 to the tip 14 . The length of the sleeves 9, 10 between the root 13 and the tip 14 is approximately equal to the radial wall thickness of the base body 6 , and the diameter of the rubber ring 2 is approximately equal to the distance between the circumferential groove 15 and the tips 14 of the sleeves. The cuffs 9, 10 are concave on their outer sides 16 and convex on their inner sides 17 . Both sleeves 9, 10 lie within the space delimited by the end faces 18, 19 of the base body 6 , and the entire rod seal is formed symmetrically to its radial central plane 8 .

The sleeves 9, 10 consist of mutually bent halves of a split, frustoconical cross-section, in the drawing in dash-dotted lines shown inner web 20 of the PTFE ring 1 , the section edges are bent apart as sealing lips.

When installing the rubber ring 2 sits with prestress on the bottom of the groove 4 and on the wall of the circumferential groove 3 and the sleeves 9, 10 sit with prestress on the rotating rod to be sealed. When pressure is applied, depending on the axial side from which the pressure is applied, the sleeve 9 or 10 is pressed inward, so that the sealing edges 11, 12 are pressed against the rod with increased tension. At the same time, this causes the entire rod seal to expand radially outward, as a result of which the contact pressure increases in the area of the static seal formed by the rubber ring 2 .

Claims (9)

1. Fitable in a groove rod seal for rotating rods, characterized in that in a known manner, the rod seal from a on its inner peripheral surface ( 7 ) has two circumferential sealing projections PTFE ring ( 1 ) and a rubber ring surrounding the PTFE ring ( 2 ), and that the sealing projections consist of two with respect to the radial center plane ( 8 ) of the seal V-shaped apart, tongue-shaped sleeves ( 9, 10 ) in cross section, the inner edge edges ( 11, 12 ) are designed as a lip seal. 2. Rod seal according to claim 1, characterized in that the PTFE ring ( 1 ) is provided on its peripheral surface with a circumferential groove ( 3 ) for receiving the rubber ring ( 2 ). 3. Rod seal according to claims 1 or 2, characterized in that the PTFE ring ( 1 ) has a rectangular cross section, in the groove ( 4 ) insertable base body ( 6 ) and that the sleeves ( 9, 10 ) and the circumferential groove ( 3 ) are arranged symmetrically to the radial central plane ( 8 ) of the base body ( 6 ). 4. Rod seal according to one of claims 1 to 3, characterized in that the cross-sectional thickness of the sleeves ( 9, 10 ) decreases from the root ( 13 ) to the tip ( 14 ). 5. Rod seal according to claim 4, characterized in that the length of the sleeves ( 9, 10 ) between sausage ( 13 ) and tip ( 14 ) is approximately equal to the radial wall thickness of the base body ( 6 ) and that the diameter of the rubber ring ( 2 ) is approximately equal to the distance between the circumferential groove deepest ( 15 ) and the tips ( 14 ) of the sleeves ( 9, 10 ). 6. Rod seal according to one of claims 1 to 5, characterized in that the sleeves ( 9, 10 ) consist of mutually bent halves of a split, frustoconically shaped inner web ( 20 ) of the PTFE ring ( 1 ), the edges ( 11, 12 ) are pre-bent as sealing lips of the dynamic seal. 7. Rod seal according to claim 6, characterized in that the sleeves ( 9, 10 ) on their outer sides ( 16 ) are concavely curved. 8. Rod seal according to claim 7, characterized in that the sleeves ( 9, 10 ) within the from the end faces ( 18, 19 ) of the base body ( 6 ) are limited space. 9. Rod seal according to claim 1, characterized in that the plastic ring ( 1 ) made of PTFE-related plastics, for. B. PFA.