DE4039173A1 - Piston rod seal - is free to move with piston rod, and has support incorporated in cylinder head - Google Patents

Abstract

A sealing element (4) is held inside a support (5) which is free to move in the direction of the piston rod stroke. The seal support (5) is incorporated in the cylinder head (2) and provides a gas-tight seal for the working cylinder (11). USE/ADVANTAGE - The piston rod is float supported in the cylinder head; low friction, longer life.

Description

The invention relates to a piston rod seal for pressure medium operated, closed with cylinder covers Working cylinder with piston rod.

A distinction is made roughly in the case of pressure-operated working cylinders between piston rod cylinders and piston rodless, so-called Drawstring cylinders. Working cylinders with piston rods are everywhere there used where it is not important to minimize the dimensions, or where high force effects are important. It is necessary that the piston rod connected to the piston from the pressure medium acted upon cylinder interior and sealed becomes. This sealing of the piston rod is special Pay close attention as this is like the seals of the piston are heavily used.

Various are from the prior art Possibilities of piston sealing known. From EP 00 81 043 it is known to arrange a sealing ring within the cylinder cover. There this sealing ring is small, it is required in addition to the seal a guide of the piston rod led to the outside.  

This is done in this known embodiment by a guide hole accomplished within the cylinder cover. In the wall of this The guide bore is in a circumferential groove of the piston rod surrounding sealing ring arranged. Another way of Piston rod sealing is shown in EP 00 82 933. Here is the piston rod via a guide sleeve inside the Cylinder cover guided and with one pushed from the outside Sealing ring sealed gas-tight.

When using such a working cylinder, the working cylinder becomes itself fixed and the piston rod on the outside led end accordingly with the element to be moved within connected to a machine. If you look at this assembled operational state of such a working cylinder, it is striking that between the fixed guide of the piston rod and the to moving machine element connected end of the piston rod due tilting moments arise from always existing mismatches. These Guide surfaces in the cylinder or in the cylinder covers passed on. One speaks of an overdetermination of the storage of the Piston rod. This has two main consequences. For one thing, the Limited mobility due to increased frictional forces and secondly there is increased wear in the area of the seals. A Another disadvantage arises in these known working cylinders that through the necessary guide sleeves or guide holes Overall length of the cylinder cover is relatively large. This limits the over the Piston rod available stroke length sometimes considerably.

The object of the invention is therefore to provide a piston rod seal create where the arrangement of guide sleeves or Guide bores are omitted and the piston rod in the cylinder cover area  is floating.

The object is achieved by the characterizing Features of claim 1 solved. Further refinements of the Invention are presented in the subclaims.

The piston rod seal consists of a sealing element that is inside a Seal carrier is arranged to build, the seal carrier Movable perpendicular to the piston rod stroke direction and in the cylinder cover the cylinder is finally integrated pressure-tight, has the Advantage that the above-mentioned. State of the art disruptive overdetermination of Storage of the piston rod is thus eliminated. Because of the mobility of the seal carrier is thus a floating guide with a seal given the piston rod. This leads to the relief of Sealing elements for a significantly longer service life and also enables smooth operation of the working cylinder. So that's it too possible, mismatches between the intended cylinder fixation and balance piston rod fixation. The further development the invention proposed design of the cylinder cover, in which the cylinder cover is open to the outside in the axial direction has cup-shaped recess, allows in a simple manner Inclusion of the seal carrier in which the actual seal is arranged. The through opening in the bottom of this recess leaves through the piston rod. About pressing on with an annular Forming provided seal carrier on the in the bottom annular recess of the cylinder cover lying ring seal on the one hand, the necessary sealing of the cylinder interior to the outside enables and secondly the floating storage of the whole Seal carrier and thus also the floating guide of the piston rod given. The pressure of the seal carrier, the one on the open Screw-in retaining nut at the end of the recess in the cylinder cover  is accomplished, if necessary enables an easily accessible to Change the sealing elements appropriate arrangement. The cylinder cover in the Area of the lateral surface to be provided with a sealing ring and the Cylinder cover itself at least partially in the cylinder housing to be insertable and fixable has the advantage of a simple one and quick assembly of the entire working cylinder.

An embodiment example of the invention is in the drawing shown and explained in more detail below.

The drawing shows the piston rod seal according to the invention in section. The figure shows an installation option for the cylinder cover 3 containing the piston rod seal.

The cylinder cover 2 has the floating seal of the piston rod. The recess 13 of the cylinder cover 2 is designed such that the cylinder cover is cup-shaped and can thus accommodate the seal carrier 5 . Within the seal carrier 5 , the sealing element 4 of the piston rod seal is arranged as a standard sealing element. Such seals are generally referred to as wiper seals because they enable the piston rod 1 to be sealed to move axially. In the bottom of the cylinder cover 2, a through hole 12 is arranged to carry out the piston rod 1, wherein the through hole 12 does not have any management task here, and can thus be formed larger in diameter than the diameter of the piston rod. 1 In the bottom of the recess and thus in the cup-shaped cylinder cover 2 , an annular depression is arranged, within which an annular seal 8 is embedded. The seal carrier 5 is provided on the outer surface corresponding to the bottom of the recess 13 with a corresponding material-like annular formation 6 which engages in the assembled state in the annular recess 7 and presses the ring seal 8 embedded there. This ensures that the cylinder chamber is sealed so that it is pressure-tight. In this case, it proves to be advantageous both for assembly and for operation to design both the annular recess 7 and the corresponding annular projection 6 in their cross-section correspondingly conical to one another. The dimensions of the annular recess 7 and the annular formation 6 are chosen so that the outer surfaces do not come into contact with the corresponding inner surfaces in the operating state, that is to say that there is a certain amount of play. The size of the game is determined not least by the screw-in depth of the retaining nut 3 screwed in from the outside, which presses the seal carrier 5 or the associated annular molding 6 onto the ring seal 8 . An annular seal 8 for housing sealing is arranged in the jacket area of the cylinder cover 2 . The cylinder cover 2 can be inserted at least partially into the cylinder housing 11 and can be fixed via the housing fixation 9 and thus forms the entire cylinder cover arrangement. A last advantage in this embodiment results from the fact that the cylinder cover arrangement can be retrofitted to any piston rod cylinder.

It would also be conceivable for the cylinder cover to be arranged in a ring is, in which case the cylinder cover ring and the cylinder cover the entire cylinder cover arrangement results and the cylinder cover ring then for example via an additional seal in the axial direction could be screwed to the cylinder.

Claims (7)

1. Piston rod seal for pressure medium operated, closed with cylinder covers working cylinder with piston rod, characterized in that the piston rod seal consists of a sealing element ( 4 ) that is arranged within a seal carrier ( 5 ), that the seal carrier ( 5 ) perpendicular to the piston rod stroke direction and movable Working cylinder is finally arranged in a gas-tight manner in the cylinder cover ( 2 ). 2. Piston rod seal according to claim 1, characterized in that the cylinder cover ( 2 ) has an axially outwardly open, cup-shaped recess ( 13 ) which is provided on the bottom side with a through opening ( 12 ) for the piston rod ( 1 ). 3. Piston rod seal according to claim 2, characterized in that the seal carrier ( 5 ) is arranged within the recess ( 13 ) and is provided on the side facing the bottom of the recess ( 13 ) with an annular projection ( 6 ). 4. Piston rod seal according to claim 3, characterized in that the recess ( 13 ) on the seal carrier ( 5 ) facing the bottom side is provided with a corresponding annular recess ( 7 ) within which an annular seal ( 8 ) is arranged. 5. Piston rod seal according to claims 1-4, characterized in that the seal carrier ( 5 ) with its annular formation ( 6 ) in the ring seal ( 8 ) containing annular recess ( 7 ) via an at the open end of the recess ( 13 ) screwable Holding nut ( 3 ) can be pressed. 6. Piston rod seal according to claims 1-5, characterized in that the annular projection ( 6 ) and the annular recess ( 7 ) have a conical cross-sectional profile. 7. Piston rod seal according to claims 1-6, characterized in that the cylinder cover ( 2 ) is provided with a sealing ring ( 10 ) arranged in the region of its lateral surface and at least partially insertable into the working cylinder ( 11 ) and can be fixed via a housing fixation ( 9 ) .