The present invention relates to a ball screw. Such ball screws convert a rotating motion into a linear motion.
From DE 100 44 447 A1, for example, a ball screw has become known, with a ball roller screw and a screw nut arranged thereon. Balls are arranged so that they can circulate endlessly in an endless ball channel limited by helical, spiral ball tracks of the ball roller screw and the screw nut. The ball channel comprises a load section wound about the ball roller screw, whose beginning and end are endlessly connected to each other by a load-free return section. Two balls are housed in a common ball cage, whose cage pockets each house one of the balls. The ball cage is formed of a flat, disc-shaped base with oval outer contours, in which two circular recesses form the pockets for the balls. The pocket walls are slightly concave and enclose a portion of the ball circumference on both sides of an equatorial plane, so that the balls are held in these pockets so that they cannot be lost. Due to the minimal wrap-around by means of the concave pocket walls, a pronounced dip by the balls in these cage pockets is set. This dip—or also pocket play—could be reduced in that the ball cage and thus the ball wrap-around have a thicker configuration. However, thicker ball cages are associated with other disadvantages: the ball cage extends along the ball channel. In this extension direction, the ball cage has webs, which are arranged parallel to the ball tracks but outside of these ball tracks. The radial spacing between the outer periphery of the ball roller screw and the inner periphery of the screw nut must be constructed at least as large as the thickness of this web, so that the ball screw is functional. If the ball cage has a thicker construction, that is, if the web is also thicker, then this leads to the result that this radial spacing increases. The ball screw then has a larger structure. Another problem presents itself in the region of the return section. In the return section, typically there is a groove, in which this web runs. If this web now has a thicker construction, then the groove and thus the return section must have a larger construction.
The objective of the present invention is to provide a ball screw according to the features of the preamble of claim 1, in which the ball play in the ball cage is reduced, without causing the described disadvantages.
According to the invention, this objective is met in that the ball cage has discs at its axial ends and between adjacent balls, each of which engages in the ball tracks and are provided with a concave receptacle for the balls on their sides facing the balls. Consequently, for the ball screw according to the invention, these discs extend into the ball track cross section. Thus, the ball wrap-around is increased significantly. The ball play is simultaneously considerably reduced due to the increased ball wrap-around. The radial spacing between the outer periphery of the ball roller screw and the inner periphery of the screw nuts remains unchanged, because the cage web can also remain unchanged in its thickness.
Preferably, two balls are arranged in one ball cage. The invention is likewise suitable, however, in an advantageous manner for ball cages with at most four pockets, in each of which is housed a ball so that it cannot be lost.
In the ball screw, there is a plurality of such ball cages arranged one behind the other in a line. To guarantee that touching ball cages cannot be interlocked, an improvement according to the invention provides that the discs lying on the ends of the ball cage are constructed on their opposing sides as convex bumpers. Consequently, two adjacent ball cages both have these convex bumpers on their facing sides, which guarantees an interlocking-free passage through the ball channel.
During a complete cycle of the ball cages through the ball channel, pivoting motions are made between adjacent ball cages. The convex bumpers of the two ball cages touch in an approximately point-shaped contact. This contact point of the two bumpers wanders as a function of a pivot position of the two ball cages relative to each other along the convex bumper surface. These convex bumpers are adjusted to each other so that an interlocking-free passage through the ball channel is guaranteed. The bumpers can also be adjusted to each other so that during the wandering of the contact point, there are no or only negligible relative motions in the direction of the ball channel between the two ball cages.
The already mentioned web is arranged on at least one longitudinal side of the ball cage, wherein all of the discs are connected by the web. Such ball cages are preferably made from plastic in an injection-molding process. The plastic can preferably have a flexible, smooth, low-friction, and noise-damped construction. If only one web is provided, the pockets can have an open construction and the ball cage becomes even more flexible. That is, the balls are not enclosed over a complete equatorial circumference. However, two webs can also be provided, wherein the other web is arranged on the other longitudinal side. In this case, the balls are completely enclosed about an equator.
According to another improvement of the invention, the web can be provided on sides facing away from each other with a guide cam for guiding the ball cage, wherein one side is arranged radially outside of the screw nut and the other side is arranged radially inside the ball roller screw. These guide cams become important especially in the return section. In the return section, the balls circulate without loading. Therefore, in the return section the balls can contact walls defining the return section and can cause undesired noise. This noise can now be prevented such that, on one hand, the ball play is considerably reduced by the discs according to the invention and, on the other hand, the return section is provided with guide surfaces for guiding the cage web. In this way, in the return section, it can be guaranteed that the ball cage is guided exclusively on these guide surfaces. Consequently, the balls cannot contact the walls defining the return section despite a small play in the ball cage, but instead pass through the return section without touching the walls.
These guide surfaces can be preferably constructed on facing groove walls of a guide groove.
For reducing the friction between the balls and the ball cage, a roller body, which is in rolling contact with the two balls of a ball cage, can be arranged between the two balls. Preferably, the rotational axis of this intermediate roller body lies in a common plane with the rotational axes of the balls.
The invention is described in more detail below with reference to three embodiments shown in a total of eleven figures. Shown are:
The ball screw according to the invention shown in FIGS. 1 to 7 and
The bumpers and the receptacles are to be seen especially clearly in
Both longitudinal sides of the ball cage 10 are formed by webs 17, which connect the discs 12, 15 to each other. The ball cage 10 is presently made from plastic in an injection-molding process, wherein the webs 17 and the discs 12, are integrally connected to each other.
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Number | Date | Country | Kind |
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10 2004 037 123.7 | Jul 2004 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP05/07392 | 7/8/2005 | WO | 4/12/2007 |