The invention relates to a shaft connection between two shafts according to the definition of the species in Patent Claim 1.
DE 43 30 819 A1 describes a connection between a rotary valve or a swivel valve and a rotary drive in which an outer end of a valve shaft engages in a coupling part of the output shaft of the rotary drive, which is why the outer end of the valve shaft is designed as a dihedron and engages in a corresponding recess in a form-fitting manner.
In order to allow a transmission of force from the rotary drive to the rotary valve or swivel valve to take place, a suitable form fit is necessary, but this requires an accurate alignment of the axis of the valve shaft and the axis of the shaft of the rotary drive. If the two shafts are tilted relative to one another, insertion of the free end of the valve shaft into the coupling part is impossible or results in severe wear in the valve because the inclination of the axes of the shafts relative to one another cannot be compensated. Furthermore, the valve may become leaky because of this wear.
The object of the invention is therefore to provide a shaft connection between two shafts, in particular between a rotary valve or a swivel valve and a rotary drive, which will allow a slight inclination between the axes of the shafts, in particular the axes of the valve shaft of the rotary valve or swivel valve and the drive shaft of the rotary drive.
This object is achieved according to the invention by a shaft connection between two shafts as recited in Patent Claim 1.
Advantageous embodiments and refinements of the invention are described in the subclaims.
According to the invention, at least one side face of the exterior profile, designed as a dihedron, of the free end of a first shaft, which is preferably designed as a valve shaft, or at least one side face of the interior profile, designed as a dihedron, of the coupling part, which is connected in a rotationally fixed manner to the second shaft, the latter preferably being formed by the shaft of a rotary drive, is designed with a convex shape in the longitudinal direction of the first shaft and the second shaft. A surface curved in this way allows a tilting movement of the two shafts relative to one another, preferably a tilting movement of the valve shaft with respect to the coupling part, allowing compensation of unaligned axes of the two shafts or unaligned axes of the valve shaft and drive shaft of the rotary drive.
Both sides of the free end of the valve shaft or both side faces of the interior profile of the coupling part are preferably designed to be convex in the longitudinal direction, thus allowing compensation of greater offsets between the shafts.
The convex side faces are preferably designed as part of a cylindrical surface, the axis of the cylinder running perpendicular to the longitudinal axis of the valve shaft.
The convex side face preferably has in particular a radius of curvature which allows swiveling of the longitudinal axis of the first shaft, in particular the valve shaft, by approximately 1° to 3°, preferably by approximately 1.5° to 2°, in the coupling part. As a rule, greater inclinations of the axes relative to one another need not be compensated, so a comparatively slight curvature of the side faces is sufficient to achieve the desired result.
The valve plug according to the invention for a rotary valve or a swivel valve has a base body and a valve shaft situated on the base body, the valve plug being rotatable about a longitudinal axis running through the valve shaft in the rotary valve or swivel valve; the free end of the valve shaft facing away from the base body is designed as a dihedron having two essentially parallel side faces, at least one of the side faces, preferably both side faces, having a convex curvature in the longitudinal direction of the valve shaft. The convex side face is preferably designed here as part of a cylindrical surface, with the axis of the cylinder running perpendicular to the longitudinal axis of the valve shaft.
The valve plug is preferably designed in particular as a valve plug for a plug valve, in particular as a conical plug or a ball plug.
The invention will now be explained in greater detail on the basis of the following figures.
b shows another axial section through the exemplary embodiment according to
c shows a top view of the valve plug according to
b shows an axial section through a secondary exemplary embodiment of the invention having a valve plug and a coupling part,
b shows another axial section through the exemplary embodiment according to
c shows a top view of the coupling part according to
a shows an axial section through a third exemplary embodiment of the invention having a valve plug and a coupling part,
b shows another axial section of the exemplary embodiment according to
c shows, a top view of the valve plug according to
a shows an axial section through a fourth exemplary embodiment of the invention having a valve plug and a coupling part,
b shows another axial section through the exemplary embodiment according to
c shows a top view of the coupling part according to
a, 1b and 1c show a first exemplary embodiment of the invention having a valve plug 10 and a coupling part 17. Valve plug 10 has a base body 15 and a valve shaft 12 situated thereon, valve shaft 12 being designed essentially as a cylinder and defining a longitudinal axis 1 of valve plug 10. Base body 15 is designed as a cone and has a through-opening 16, so that valve plug 10 forms a conical plug.
Valve shaft 12 has a free end 12a, which is formed by the end of valve shaft 12 facing away from base body 15. Free end 12 has an exterior profile, which is designed as a dihedron having two side faces 14a, 14b. Each of two side faces 14a, 14b has a convex curvature, for example, in such a way that they form a portion of a cylindrical surface, the cylinder being situated in such a way that the axis of the cylinder runs perpendicular to longitudinal axis 1 of valve plug 10. Side faces 14a, 14b need not necessarily lie on the surface of a single cylinder. Side faces 14a, 14b are designed in such a way that for each cross section through free end 12a of valve shaft 12, the sectional lines run parallel to one another on side faces 14a, 14b. However, since side faces 14a, 14b are convex and since they are opposite one another on free end 12a, each is positioned on the outside, and thus they have opposite curvatures, so side faces 14a, 14b do not run exactly parallel to one another. The radius of curvature of side faces 14a, 14b is selected to be much larger than the distance of side faces 14a, 14b from longitudinal axis 1, resulting in a comparatively shallow curvature of side faces 14a, 14b.
Free end 12a of valve shaft 12 engages in a recess 19 in a coupling part 17. Recess 19 has an interior profile, which is designed as a dihedron having two opposite side faces 18a, 18b. Side faces 18a, 18b are designed as flat parallel faces. Side faces 14a, 14b of free end 12a of valve shaft 12 may be in contact with side faces 18a, 18b, but due to the curvature of side faces 14a, 14b of free end 12a, there is no flat contact between the two side face pairs 14a, 14b; 18a, 18b. Due to the curvature of side faces 14a, 14b of free end 12a, it is possible to tilt valve plug 10 by a small angle a in recess 19 of coupling part 17, as shown in
The connection between coupling part 17 and valve shaft 12 of valve plug 10 is a shaft connection by which it is possible to rotate valve plug 10 about its longitudinal axis 1 via a rotary drive (not shown) whose drive shaft is connected to coupling part 17 in a rotationally fixed manner. Valve plug 10 is situated in a plug valve (not shown) or some other rotary valve or swivel valve. Minor offsets between longitudinal axis 1 of valve plug 10 and the longitudinal axis of the drive shaft of the rotary drive may be compensated by the embodiment according to the invention of free end 12a of valve shaft 12 of valve plug 10.
a, 2b and 2c show a second exemplary embodiment of the invention having a valve plug 20 and a coupling part 27. Valve plug 20 has a base body 25 and a valve shaft 22 situated thereon, valve shaft 22 being designed essentially as a cylinder and defining longitudinal axis 1 of valve plug 20. Base body 25 is designed as a cone, so that valve plug 20 forms a ball plug and has a through-opening 26.
Valve shaft 22 has a free end 22a, which is formed by the end of valve shaft 22 facing away from base body 25. Free end 22 has an exterior profile, which is designed as a dihedron having two side faces 24a, 24b. Side faces 24a, 24b run parallel to one another and are designed as planar.
Free end 22a of valve shaft 22 engages in a recess 29 in coupling part 27. Recess 29 has an interior profile, which is designed as a dihedron having two opposite side faces 28a, 28b. Each of two side faces 28a, 28b has a convex curvature, for example, so that they form a part of a cylindrical surface, the cylinder being situated in such a way that the axis of the cylinder is perpendicular to the longitudinal axis of the drive shaft of the rotary drive, which runs parallel to longitudinal axis 1 of valve plug 20 in an accurately aligned system. Side faces 28a, 28b are designed in such a way that for each cross section through coupling part 27, the sectional lines on side faces 28a, 28b run parallel to one another. However, side faces 28a, 28b are curved, namely in opposite directions, because they form opposing side faces 28a, 28b of recess 29, so side faces 28a, 28b do not run exactly parallel to one another. The radius of curvature of side faces 28a, 28b is selected to be much larger than the distance of side faces 28a, 28b from longitudinal axis 1, resulting in a comparatively flat curvature of side faces 28a, 28b.
c shows a top view of recess 29 of coupling part 27, which shows that recess 29 is designed essentially as a cube and as a dihedron, the two longitudinal side faces 28a, 28b having a convex curvature.
Side faces 24a, 24b of free end 22a of valve shaft 22 may be in contact with side faces 28a, 28b, but because of the curvature of side faces 28a, 28b of coupling part 27, there is no flat contact between two side face pairs 24a, 24b; 28a, 28b. Due to the curvature of side faces 28a, 28b of coupling part 27, it is possible to tilt valve plug 20 by a small angle α in recess 29 of coupling part 27, as shown in
The connection between coupling part 27 and valve shaft 22 of valve plug 10 forms a shaft connection, by which it is possible to rotate valve plug 20 about its longitudinal axis 1 via a rotary drive (not shown), whose drive shaft is connected to coupling part 27 in a rotationally fixed manner. Valve plug 20 is situated in a plug valve (not shown) or some other rotary valve or swivel valve. A minor offset between longitudinal axis 1 of valve plug 20 and the longitudinal axis of the drive shaft of the rotary drive may be compensated by the embodiment of coupling part 27 according to the invention.
a, 3b and 3c show a third exemplary embodiment of the invention, which corresponds largely to the exemplary embodiment according to
a, 4b and 4c show a fourth exemplary embodiment of the invention, which is largely identical to the second exemplary embodiment illustrated in
Number | Date | Country | Kind |
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10 2007 049 579.1 | Oct 2007 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2008/008738 | 10/15/2008 | WO | 00 | 6/1/2010 |