DE2356469C3 - - Google Patents

Description

30th

The invention relates to an oil seal device for a piston of a rotary piston machine, consisting of located in the piston end walls Annular grooves, which each receive at least two sliding rings, both of which are arranged in the groove green I. Spring washer are acted upon, which has bent-up sections that are independent of one another act on both slip rings.

There is an oil seal device of this type known (JA-PS 42 244), in which the spring washer is a corrugated Ring is that sits with its wave troughs on the groove base and in the area of its wave crests with each is provided with a longitudinal slot, wöbe * the sections of a wave crest adjacent to this longitudinal slot rests against one of the two sliding rings. In the case of such a spring ring, the contact surface is with the groove base very small, so that there is poor heat dissipation to the piston mass and thus the danger which results in overheating and destruction. In addition, there is a risk that the slots adjacent Sections of the wave crests collapse at high temperatures, which affects the spring force will.

The object of the invention is to create an oil seal device of the type described above, in which such a collapse of the spring ring is prevented and in which it has the largest possible area rests on the groove base in order to optimally dissipate the heat transferred from the sliding rings to the piston mass.

This object is achieved in that the spring ring has a flat base section resting over its entire circumference on the groove base and spring tongues protruding freely from both circumferential regions of the base section are provided as bent-up sections freely protruding spring tongues act independently of one another, so that even if one spring tongue fails, the usability of the spring ring, ie the spring action of the other spring tongue, is not impaired.

There is a spring ring for sliding rings known, which has a U-cross section and with its two legs in Direction of the groove base, while spring tongues are punched out and bent up from the web rest on the sliding ring. Apart from the extraordinarily large height of such a spring ring, it offers he has the smallest possible contact area with the groove base (US-PS 37 18 412).

The remaining base section is advantageously designed as a meander strip running in the circumferential direction and each concave section of this band is punched out by bending up one which serves as a spring tongue Section formed. Such a spring ring can be produced in a very simple manner by means of a punching process Manufactured from a flat material with a minimum of material waste.

It is advisable to improve the spring properties and to increase the compliance of the sliding rings the spring ring is alternately provided on both circumferences with rectangular projections, each of which only a part is bent back as a spring tongue. With this structure you get spring tongues with relative g-wide span, which enables soft springing and thus extensive following ability.

The subject matter of the invention is illustrated below with reference to a schematic drawing of two exemplary embodiments explained in more detail.

F i g. 1 is a partial perspective view of one of the present invention Spring ring;

F i g. 2 is one of the F i g. 1 corresponding representation of a modified embodiment of an inventive Spring ring;

F i g. 3 and 4 show in cross section an oil seal device according to the invention with the spring washers according to FIG. 1 or 2.

The spring ring 13 according to FIG. 1 has bent-up sections 16 which act as spring tongues and which are firmly attached to a flat base portion 15 are connected and alternately from both circumferences of the base portion protrude freely, which is thus designed as a meandering strip running in the circumferential direction. A Such a spring ring is formed from a flat flat material by standing at the same circumferential distance Fin cuts 14 are provided alternately starting from both circumferences and the between These incisions exposed section is bent up as a spring tongue 16. The free end section the spring tongues 16 is to form a contact surface 17 with respect to the remaining part of the spring tongue angled. This spring ring according to FIG.] Is in the FIG. 3 in a manner located in a piston end wall 4 of a rotary piston machine Annular groove 8 used and serves to support two superimposed sliding rings 9 and 10, the are each supported by spring tongues of the same inclination, which extend over the contact surface 17 to the Gleitririge apply and rest with their base section 15 on the groove bottom.

In the case of FIG. 2, the base section 15 of the spring ring 18 is a flat band that alternates between the two Provided with rectangular projections around the circumference

is, of which a part is bent back as a spring tongue 16 and provided with an angled contact surface 17. Such a spring ring is inserted into an annular groove in the piston end walls of a rotary piston machine in the manner shown in FIG ^1st trim their contact surface 17, while the base section 15 rests on the zero base. Since the spring washers with a! If a relatively large area rest on the bottom of the groove, they ensure good heat dissipation to the piston mass and are therefore protected from premature destruction due to overheating. On the other hand, this means that lower quality material can be used for such spring washers.

For this purpose 2 sheets of drawings

Claims (3)

raientansproche: 1 _t öldiehtungsvorrichtung for a piston of a rotary piston machine, comprising located in the piston end walls of annular grooves which receive at least two seal rings, both of which are acted upon by an element located in the groove bottom spring ring having a bent-up sections, which act independently to both seal rings, characterized in that the spring ring (13; 18) has a flat base section (15) resting against the groove base over its entire circumference and spring tongues (16) protruding freely from both circumferential areas of the base section are provided as bent sections. 2. Öldichtungvornchtung according to claim 1, characterized in that the remaining base portion (15) as a running in the unifangsrichtung; Meander band is formed and each concave section of this band is formed by bending up a punched section serving as a spring tongue (16). 3. Oil seal device according to claim 1. characterized characterized in that the spring ring (18) alternately on both circumferences with rectangular Projections is provided. only a part of which is bent back as a spring tongue (16).