DE19906733A1 - Sealing system for piston-and-cylinder units comprises at least one fiber-free sealing element and a further sealing element constituted a ring set with a harder wear resistant glide ring and an outer softer sealing ring - Google Patents

Abstract

At least one of the sealing elements (42, 44, 46, 48) is free from fiber material. A further sealing element (34) is constituted as a sealing ring set (36, 38) in which a harder wear resistant glide ring (38) is inserted into a softer sealing ring (36) provided with a narrow sealing lip (40) next to the glide ring.

Description

The invention relates to a sealing system for piston-cylinder Units in which a first machine element, for example a Zy lighter, dense on a substantially cylindrical surface surface of a second machine element, for example a piston rod or a piston, runs and in the first machine element an essentially annular installation space for a plurality provided axially adjacent sealing elements is, of which at least a first in axial section V-shaped is trained.  

Sealing systems of the type mentioned above are general known. They are also called in technical language "Roof seal systems" called. The one in the axial cut V-shaped sealing elements ("roof seals") best made from a vulcanized textile fabric. In the preparation of these rings are the textile fabric in a rubber solution ge soaks and then this vulcanized together.

For conventional sealing systems, e.g. B. in an annular groove, which is in the cylindrical inner surface of a cylinder is located, a plurality of such sleeves next to each other the inserted. The arrangement is such that with the roof cuffs using a suitable pressure ring installation in the axial direction. As a result of this The roof seals give way to axial force like a stuffing out radially and press against them as well cylindrical outer surface of the piston rod (or Kol bens) that runs in the cylinder.

Although such a boot seal system is widely used tet, they have the disadvantage that they are in long-term use be destroyed permanently. This destruction generally begins mean that the ent on the surface of the piston rod long sliding edge of the roof collar is folded, esp especially at high travel speeds of the piston rod, so that a peeling process then takes place. It is also destruction processes by other tissue detachments z. B. as a result of Dry running, expanding air or the like. Known.

If a roof boot system of the type described above the entire piston-cylinder unit must be worn out  Operation set and dismantled. After the piston or the piston rod has been pulled out of the cylinder, one can remove the roof boot system from the ring groove in the cylinder and replace with a new sealing system.

This work is extremely complex and time consuming and the more difficult to perform, the worse the piston Cylinder unit is accessible. They also have there due to the downtimes of the piston-cylinder unit usually significant economic consequences because piston Cylinder units typically only one part, namely a Be are elements of a more complex system, which are then if it has to be stopped. So piston-cylinder Units typically used in heavy engineering, For example, with casting cylinders in continuous casting plants, with hydraulic Presses, for punching and drawing systems, but also for cranes, heavy construction and civil engineering machinery as well as locks and Weirs in hydraulic engineering.

It is easy to see that there is significant economic damage arise when a worn sealing system at a Piston-cylinder unit of such a complex system must be exchanged.

Conventional roof seal systems have this addition, the disadvantage that especially when new and high Bias a rattling when moving z. B. a piston rod occurs in a cylinder because the sealing system during the Movement in sections slides and jams (so-called "stick-slip effect"). This phenomenon bears on the other hand continues to wear the sealing system.  

From DE 24 61 455 C is a seal, especially for hy Draulically actuated cylinder pistons and piston rods are known. In this well-known seal, which is also known in the professional world "TDI seal" is called, lies in an annular Installation space a seal ring set. The sealing ring set consists of egg a softer, elastic sealing ring and a bearing in it harder, abrasion-resistant and radially relatively thin glide ring. The slide ring lies on the piston rod surface, just like the sealing ring, which holds the slide ring on both axial Pages included. On one of these two axial sides is the Sliding ring designed as a relatively thin sealing lip. The The slide ring is on the side facing the sealing lip provided with a recess.

Such known seals with a set of sealing rings are also widespread. However, they come up against limits when the site of the sealing ring on which the sealing lip is located, and the usually the high pressure side of the piston-cylinder unit facing a very high pressure.

In contrast, the invention is based on the object Sealing system of the type mentioned further to make sure that the disadvantages mentioned above are avoided the. In particular, it should be achieved that a low-friction and stick-slip-free seal is provided that can also be used at high pressures on the high pressure side, a much longer lifespan than the known roof sleeve ten sealing systems and finally in simple Wei in piston-cylinder units already in use can be installed if a conventional  roof gasket sealing system anyway an exchange is required.

This task is at the beginning of a sealing system ge named type solved according to the invention in that the at least a first sealing element is fiber-free and that a second sealing element is designed as a set of sealing rings, in which a harder and more abrasion in a softer sealing ring ster slide ring is inserted and the sealing ring next to the slide tring runs into a narrow sealing lip.

The object on which the invention is based is achieved in this way completely solved.

According to the invention, a sealing system is namely available posed, which is identical to the outer dimensions those of conventional roof boot sealing systems can be designed. The roof cuff according to the invention term sealing system can therefore easily in the event of an off exchange of a worn conventional roof sleeve Sealing system can be replaced with this.

The use of the known sealing ring set with white Cherem sealing ring and harder, abrasion-resistant slide ring has the Advantage that a longer life sealing system is available is provided, which is also low-friction and long-term use stick-slip-free runs. The user of the roof according to the invention cuff-like sealing system does not need to to waive the usual cuff-shaped sealing elements ten, even if they are part of the seal according to the invention systems perform a different function than conventional ones  Roof seal systems. As part of the present Invention have the V-shaped in axial section Sealing elements namely no exclusive sealing radio tion but rather a management function for you ring set and in particular a pressure reducing function if the in axial section V-shaped sealing elements between the seal ring set and the high pressure side of the piston-cylinder unit are arranged.

In a preferred development of the roof according to the invention cuff-like sealing system is the first seal element made of solid plastic, in particular of a polyu rethane, a nitrile rubber or a fluoroelastomer.

These materials have proven to be particularly advantageous in the proven relationship.

In another preferred embodiment, the second is Sealing element in a first axial end position of the one construction space arranged. This first axial end position is before preferably from the high pressure side of the piston-cylinder End position pointing unit.

This measure has the advantage that the second sealing element can be operated on the low pressure side, the zwi between the second sealing element and the high pressure side the first sealing elements from a pressure reducing function practice so that the sealing lip of the second sealing element only is exposed to a relatively low pressure.  

In a further preferred development of this variant is at a position opposite the first axial end position second axial end position of the installation space on a support ring orderly.

This measure has the advantage that by providing the support ring a length adjustment is possible if namely support ring ge with different axial dimensions are used, by different axial dimensions of the installation space in the rear compensate for the view of the sealing elements.

Although in the roof cuff-like you according to the invention an axial preload of the sealing elements in the Contrary to conventional roof seal systems is not necessary, it may be appropriate in individual cases e.g. B. the pressure reduction effect of the first sealing elements due to a much lower axial preload adjust.

Further advantages result from the description and the at added drawing.

It is understood that the above and the following standing features to be explained not only in each specified combination, but also in other combinations or can be used alone, without the scope of to leave the present invention.

An embodiment of the invention is in the drawing shown and is described in more detail in the following description explained. Show it:  

Figure 1 is an axial section, highly schematic, through an embodiment of a roof-like seal system according to the invention.

Fig. 2 for comparison, a corresponding sealing system in the type of roof boot according to the prior art.

In Fig. 1, 10 denotes a total piston-cylinder arrangement, as z. B. is used in heavy engineering, for example. In casting cylinders in continuous casting plants, in hydraulic presses, pull cylinders, punching and drawing systems and the like. Such piston-cylinder arrangements are also, for. B. used in hydraulic engineering to operate lock gates or gates in dams. In addition, such piston-cylinder arrangements are also used in cranes, construction machines, civil engineering machines, tunnel boring machines and the like.

In piston-cylinder arrangements of the aforementioned type high travel speeds are desirable. One should maximum sealing function between piston or piston rod and Cylinder must be guaranteed, and as simple as possible Wise. It is also desirable that the operation of you stick-slip-free, so without a rattling Movement z. B. a piston rod in the cylinder.

Because piston rods are now often finely machined and also with ceramic, e.g. B. with a metal oxide, coated upper are provided, sealing systems for such Arrangements can also be suitable for these applications.  

In the arrangement 10 according to FIG. 1, a piston or a piston rod, which runs in a cylinder 14, is indicated by 12. The cylinder 14 has a cylinder body 16 shown only broken off, which surrounds the cylindrical surface 18 of the piston rod 12 .

The cylinder body 16 is provided on its inside with a ring-shaped installation space 20 . The installation space 20 is partially limited by conventional sealing and guide rings 22 , 24 at the axial ends. In Fig. 1, the high pressure side of the arrangement 10 is on the right and the low pressure side on the left. On the low pressure side, the left sealing and guide ring 24 runs out into an oblique wiper 26 , as is known per se.

The left end position in FIG. 1 of the annular installation space 20 is also limited by an annular pressing element 28 which, with a projection 30, determines part of the radial end face at the left end of the annular installation space 20 . However, it must already be pointed out at this point that the pressing element 28 is only optional, in the context of the present invention, as will be explained, an axial pressing is not absolutely necessary.

The pressing element 28 is ben ben 32 fixed in the cylinder body 16 by means of screw.

A so-called TDI sealing element 34 is located in the installation space 20 on the low-pressure side, that is to the left. The sealing element 34 comprises a sealing ring 36 , which is preferably made of a softer material, so z. B. an elastomer. The sealing ring 36 surrounds a slide ring 38 made of harder, well-slidable material, preferably a PTFE compound. The sealing ring 36 surrounds the slide ring 38 on both axial sides, wherein it runs out on the right side in FIG. 1 in a sealing lip 40 .

The sealing element 34 is known as a set of sealing rings and z. B. in the already mentioned DE 24 61 455 C be written.

To the right of the sealing element 34 there are a total of four sealing elements which are V-shaped in axial section and which are thus configured in the usual parlance to be “roof-shaped”. The sealing elements 42 to 48 , however, in contrast to classic roof cuffs, are not made of a vulcanized textile fabric, but rather are made of fiber-free fiber. For this purpose, polyurethanes (PUR) come into consideration in standard applications. For special functions, one can also use a trilubile rubber, such as is commercially available under the name NBR, or a fluoroelastomer, such as that used for B. is available under the registered brand name "VITON" from Dupont.

To the right, the arrangement in the installation space 20 is completed by egg NEN support ring 50 , which is also made of a solid plastic. The sealing ring 50 may axially have differing surface dimensions so that a desired number of sealing elements 42 depending on the application in pre gebenem installation space 20 - can be used 48th

The sealing elements 42 to 48 have essentially also a filling function. However, they also have a technical function in that the hydraulic pressure acting on the arrangement from the high pressure side is gradually reduced by the multi-stage arrangement of the several sealing elements, so that the sealing lip 40 is only exposed to a relatively low hydraulic pressure. This function can be set characterized in that the pressing element over at 28 a certain but very small axia len pressure on the sealing element 42 if required - exerts 48th In addition, the sealing elements 42 may - 48 exert a radial guidance function.

For illustration and comparison with the prior art, a conventional roof seal system is shown in Fig. 2.

In the same installation space 20 'there is an arrangement which is formed on the left by a pressure ring 60 to which to the right alternately a fabric sleeve 62 , a rubber sleeve 64 , again a fabric sleeve 66 , again a rubber sleeve 68 and then one more time Connect Gewebeman cuff 70 , whereby the arrangement to the right is also completed by a support ring 72 .

In this arrangement according to the prior art, the pressing element 28 'is absolutely necessary because a considerable axial pressure must be exerted for the function of the sleeves 62 - 70 , which allows the roof sleeves V-shaped in axial section to evade in the radial direction, so that they produce the desired sealing function in the manner of a stuffing box.

. When the conventional arrangement shown in Fig 2 is worn from the outset reasons Kol ben-cylinder assembly is disassembled and the worn Man schetten 62-70 and rings 60, 72 are removed from the installation space 20 'removed. One can then install the roof collar-like sealing system according to FIG. 1 according to the invention without further structural changes, which is far superior to the conventional system shown in FIG. 2 in terms of tightness and above all in terms of service life.

Tests have shown that with the dachman according to the invention chain-like sealing system in the temperature range between -30 ° C and + 120 ° C sliding speeds of 1 m / s and above can be achieved, no wear even in long-term use could be determined.

Claims (10)

1. Sealing system for piston-cylinder units, in which a first machine element runs tightly on a substantially cylindrical surface ( 18 ) of a second machine element and in the first machine element a substantially annular installation space ( 20 ) for a plurality of axially side by side horizontal sealing elements ( 34 , 42 - 48 ; 62 - 70 ) is provided, of which at least a first ( 42 - 48 ; 62 - 70 ) is V-shaped in axial section, characterized in that the at least one first sealing element ( 42 - 48 ) is designed free of fa and that a second Dichtungsele element ( 34 ) is designed as a set of sealing rings ( 36 , 38 ) in which a harder and abrasion-resistant slide ring ( 38 ) is inserted into a softer sealing ring ( 36 ) and the sealing ring ( 36 ) runs out into a narrow sealing lip ( 40 ) next to the slide ring ( 38 ). 2. Sealing system according to claim 1, characterized in that the first sealing element ( 42 - 48 ) consists of solid plastic. 3. Sealing system according to claim 2, characterized in that the plastic is a polyurethane, a nitrile rubber or is a fluoroelastomer. 4. Sealing system according to one or more of claims 1 to 3, characterized in that the second sealing element ( 34 ) is arranged in a first axial end position of an installation space ( 20 ). 5. Sealing system according to claim 4, characterized in that the first axial end position is that of the high pressure end position pointing away. 6. Sealing system according to claim 4 or 5, characterized in that a support ring ( 50 ) is arranged at one of the first axial end position ge opposite second axial end position of the installation space ( 20 ). 7. Sealing system according to one or more of claims 4 to 6, characterized in that the sealing lip ( 40 ) to the at least one first sealing element ( 42 - 48 ). 8. Sealing system according to one or more of claims 1 to 7, characterized in that at least three first sealing elements ( 42 - 48 ) are used side by side. 9. Sealing system according to one or more of claims 1 to 8, characterized in that means for exerting egg nes axially directed pressure on the side lying sealing elements ( 34 , 42 - 48 ) are provided. 10. Sealing system according to one or more of claims 1 to 9, characterized in that the first machine element is a cylinder ( 14 ) and the second machine element ( 12 ) are a piston rod or a piston.