DE1929012A1 - Rotary piston internal combustion engine - Google Patents

Description

"Rotary piston internal combustion engine" The invention relates to a rotary piston internal combustion engine in particular trochoid design with a Piston which is provided with sealing strips at its corners, which consist of a support part exist and their tips are equipped with wear parts.

With the sealing strip designs known today as a composite strip support and wear parts are firmly connected to one another to form a unit. the different coefficients of thermal expansion of the two parts and of the connecting means (Solder, putty, etc.), however, cause undesirable in this design of the sealing strip Stresses that often lead to cracking during manufacture.

The invention is based on the object of designing composite strips in such a way that that an unhindered expansion of the support and wear part is made possible.

According to the invention, this object is achieved in that the wear part the sealing strip, the tip of which is rounded in a manner known per se, on his The underside is finely machined and wetted with a lubricant on the its corresponding surface also finely machined support part is pushed, so that it can be moved parallel to its underside, but a lift-off vertically to the bottom is not possible due to the effect of the air pressure.

The invention provides another equivalent solution to the problem posed before that the wearing part of the sealing strip, its tip in a manner known per se is rounded, is divided perpendicular to its longitudinal axis, each part of the Wear part for itself on the underside in only a small area of its Length connected to the supporting part of the sealing strip by soldering, gluing, cementing or similar is.

Both solutions have the advantage that for support and wear part The sealing strip uses materials with different coefficients of thermal expansion can be. In this way the Verscille can be made of ceramic, quartz glass, Sintered material or similar

are manufactured, whereby there is no between support and wear part Thermal stresses can arise because longer soldering, cement or spraying surfaces are not required. Thus, the disadvantage is eliminated that certain materials of the required mechanical Cannot withstand stress. Especially with the first solution they have the finest machined and pushed parts a good one due to the lubricant capacity to each other and can be viewed as one part during assembly. Thus, an economical production is given. The wearing part, e.g. made of oxide ceramic manufactured, has an isolating effect on the support part, whereby the support part and the sealing strip spring have lower temperatures.

This results in further advantages: The play of the sealing strip in its groove can become smaller; it can be more heat-resistant and more wear-resistant Material can be used with elimination of its disadvantages; further is the temperature in the gas space under the sealing strip lower, and the corners of the sealing strip become cooler, which results in better lubrication conditions and less wear; Last but not least, it should be mentioned that through better adaptation of the support and wear part the sealing strip to the corner the machine becomes ~ more gas-tight.

Further advantageous refinements of the invention are set out in the claims and the drawing, in which it can be seen from exemplary embodiments, how the idea of the invention can be implemented in detail. They show: FIG. 1 a Sealing strip consisting of support, wear and corner parts in a longitudinal view, 2 shows a sealing strip in FIG Longitudinal view, the wearing part being divided perpendicular to its longitudinal axis 1, FIGS. 3 to 12 each have a different possible cross section of the one shown in FIG. 1 or FIG. 2 sealing strip shown by the support and wear part.

According to Fig. 1 is the Dichtleißte 1, the middle part 2 by a surface 3 separated in the longitudinal direction in a lower support part 4 and an upper wear part 5 is, at the ends in per se tszann $ r way through a plane perpendicular to its View and at an acute angle to their longitudinal axis of two substantially triangular corner parts 6 and 7 separated, with extensions 8 and 9 to support the sealing strip spring are equipped.

Fig. 2 shows a substantially the same sealing strip 1 as in Fig l is shown with a wear part 5, which is perpendicular to its longitudinal axis is divided in the middle into two parts 5a and 5b, each of the two parts 5a and 5b by itself on the underside in a small area 10 of its length Soldering, gluing, puttying or the like. is connected to the support part 4 of the sealing strip 1.

From Fig. 3 it can be seen that the underside 11 of the wearing part 5 as a perpendicular to the flanks 12 and 13 of the sealing strip 1 level is formed, the height of the wearing part 5 being approximately equal to the height of the support part 4 is.

According to FIG. 4, the support part 4 has a rectangular cross-section Chamber 14 for receiving a sealing strip spring from the underside 15 of the support part 4 let in in the middle of its cross-section, the width of the chamber 14 being approximately corresponds to half the width of the sealing strip 1 and the height of the chamber 14 is approximately three Quarter the full height of the support 4.

According to Fig. 5, the underside 11 of the wear part 5 is as a plane formed perpendicular to the cross section of the sealing strip 1 under a pointed Angle to the underside 15 of the support part 4 from a lower edge 16 of the support part 4 starting from the cross section of the sealing strip 1 cuts approximately diagonally.

In Fig. 6, the underside 11 of the wear part 5 is in cross section V-shaped - and in Fig. 7 W-shaped - formed, the height of the wearing part 5 corresponds to approximately half the height of the support part 4.

According to Fig. 8, the wearing part 5 has a circular cross-section, The height of the wearing part 3 5 corresponds approximately to half the height of the supporting part 4.

According to Fig. 9, the support part 4 is rectangular in cross section, wherein the wearing part 5, which is also essentially rectangular in cross section, in FIG the center of the upper delimiting surface 17 of the support part 4 in a longitudinal groove 18 is recorded.

From Fig. 10 it can be seen that the wearing part 5 and the support part 4 essentially by a perpendicular to the flanks 12 and 13 of the sealing strip 1 Level are separated, with the wearing part 5 on its underside 11 in the middle with a longitudinal bar 19 is equipped, which is in a corresponding Longitudinal groove 18 is held in the support part 4, which is almost square in cross section is formed, and the width of about one third of the width of the sealing strip 1 lost, right.

According to FIG. 11, this is essentially rectangular in cross section Wear part 5 used in the area of the dome 20 of the sealing strip 1 and is through a strip-like projection 21 of the support part 4 divided in the longitudinal direction.

According to FIG. 12, the support part 4 is rectangular in cross section is both on the side of the dome 20 of the sealing strip 1 and on its flanks 22 and 23 enclosed by the wearing part 5, the width of the support part 4 being approximately corresponds to half the width of the entire sealing strip 1 and the llöhe of the support part 4 about three quarters of the entire height of the sealing strip 1.

Those in the above description, in the drawing and in the The following claims disclosed features can both individually and in any combinations with each other for the realization of the invention in your various embodiments are essential.

Claims (11)

Expectations ) Itotation piston internal combustion engine in particular trochoid design with a piston which is provided at its corners with sealing strips that consist of a Support part exist and the tips of which are equipped with wearing parts, thereby characterized in that the wearing part (5) of the sealing strip (1), its tip (20) is rounded in a known manner, finely machined on its underside (11) is and wetted with a lubricant on the on its corresponding surface (3) also finely machined support part (4) is pushed so that it is parallel can move to its underside (11), but a lift-off perpendicular to the underside (11) is not possible due to the effect of the air pressure. 2. Itotation piston internal combustion engine in particular trochoid design with a piston which is provided at its corners with sealing strips that consist of a Support part exist and the tips of which are equipped with wearing parts, thereby characterized in that the wearing part (5) of the sealing strip (1), its tip (20) is rounded in a known manner, divided perpendicular to its longitudinal axis is, each part (5a and 5b) of the wearing part (5) for itself on the underside (11) in only a small area (10) of its length by soldering, gluing, cementing or the like is connected to the support part (4) of the sealing strip (1). 3. Rotation piston internal combustion engine according to claim 1 or 2, characterized characterized in that the underside (11) of the wearing part (5) as one to the Flanks (12 and 13) of the sealing strip (1) is formed in a vertical plane, with the height of the wearing part (5) approximately equal to the height of the support part (4) is. 4. Rotary piston internal combustion engine according to claim 3, characterized in that that in the support part (4) a chamber (14) which is preferably rectangular in cross section for receiving a sealing strip spring from the underside (15) of the support part (4) is preferably embedded in the middle of its cross-section, the width the chamber (14) corresponds to about half the width of the 1) ic1it strip (1) and the height of the chamber (14) about three quarters of the entire height of the support part (4). 5. Rotary piston internal combustion engine according to claim 1 or 2, characterized characterized in that the underside (11) of the wearing part (5) is designed as a plane is, the perpendicular to the cross section of the sealing strip (1) at an acute angle to the underside (15) of the support part (4) from the area of a lower edge (16) of the Support part (4) starting from the cross section of the sealing strip (1) intersects approximately diagonally. f). Rotary piston internal combustion engine according to claim 1 1 or 2, characterized in that the underside (11) of the wearing part (5) in cross section Is V-shaped or W-shaped, the height of the wearing part (5) about the halbezz height of the support part (4) corresponds. 7-. Rotary piston internal combustion engine according to Claim 1 or 2, characterized characterized in that the wearing part (5) has a circular cross-section, wherein the height of the wearing part (5) corresponds approximately to half the height of the support part (4). 8. Rotary piston internal combustion engine according to claim 1 or 2, characterized by a support part (4) which is essentially rectangular in cross section and which is preferably in the middle of its upper boundary surface (17) in a longitudinal groove (18) that im Section also accommodates essentially rectangular wear parts (5). 9. Rotary piston internal combustion engine according to claim 1 or 2, characterized gekemlzeich that the wearing part (5) and the support part (4) in wefentllchen separated by a plane perpendicular to the flanks (12 and 13) of the diaphragm strip (1) are, the Versclileißteil (5) on its underside (11) preferably in the Center is equipped with a longitudinal strip (19) which is in a corresponding longitudinal groove (18) is held in the support part (4), which is almost square in cross-section is, and the width of which corresponds to about a third of the width of the sealing strip (1). 10. Rotary piston internal combustion engine according to claim 1 or 2, gekennzeic1rnet by an inserted in the area of the dome (20) of the sealing strip (1), in cross section substantially rectangular wear part (5), which by a strip-like projection (21) of the support part (4) preferably in the middle of the sealing strip () is divided lengthways. 11. Rotary piston internal combustion engine according to claim 1 or 2, characterized by a support part (4) which is preferably rectangular in cross section and which both on the side of the dome (20) of the dictl strip (1) as well as on its flanks (22 and 23) is enclosed by the wear part (5), the width of the support part (4) corresponds approximately to half the width of the entire sealing strip (1) and the height of the support part (4) about three quarters of the entire height of the sealing strip (1).