The present invention relates to a planetary system workpiece support as well as a surface treatment method for workpieces.
It relates fundamentally to workpiece support engineering for vacuum treatment and, in particular, vacuum coating installations. The goal of workpiece support engineering is always to move the workpieces past treatment sources, such as in particular coating sources and etching sources, such that as uniform as possible a treatment effect, in particular coating thickness and coating quality is ensured on all surfaces to be treated of the workpieces.
In the not prior published Swiss Patent Application No. 2278/97 and 1736/98, of Sep. 25, 1997 and Aug. 25, 1998, respectively, a planetary system workpiece support is described which is structured as follows:
A first system is provided which can be coupled with an installation-side driving and which is rotatable about an axis with respect to the installation.
This first rotational system is denoted in the following as sun system.
With respect to the sun system a second rotational system is provided on the latter, with rotational axis offset and parallel with respect to that of the sun system, in the following referred to as planet system, whose rotational motions are generated through the releasable engagement on the reference system formed by the installation or the chamber.
On the planetary system is provided a third rotational system, referred to in the following as moon system, which is rotatably supported with rotational axis parallel to the planetary system and sun system axis. The workpieces are set into [motion] characteristic [of the moon system] on the moon systems.
Workpiece supports of this type with threefold rotational motion are applied, in particular, in the case of relatively small workpieces in order to guide them past treatment sources stationary on the installation, such as coating sources, and to treat them uniformly on all sides.
At the above described workpiece support configuration the moon systems are set intermittently into rotational motion. This takes place thereby that with the sun system rotational motion and the superimposed planetary rotational motion they are guided past stops, which, developed like springs, act onto a ratchet-like toothing on the moon system. Inertially sluggish moon systems run therein past the stops without rotation incrementation, which has correspondingly negative consequences for the uniform workpiece treatment. The jolt-like incremental rotational motion of the moon systems generally means that, especially with relatively short treatment times, in particular coating times of tools and correspondingly provided low treatment effect, respectively small layer thickness, negative effects on the treatment homogeneity on the workpieces result due to statistical fluctuations with respect to the resilient stop engagements and the orientation resulting therefrom of the substrates to the treatment sources.
The task of the present invention is to develop further said workpiece support and to eliminate therein said disadvantages. This is realized by a planet system workpiece support of the above described type through its development according to the invention wherein the driving connection between sun system and moon system is established such that it is uninterrupted and a continuous moon system rotational motion is realized. The driving connection is preferably realized as a forced driving connection such that the moon system is perforce set into rotational motion.
Preferred embodiments of the workpiece support configuration according to the invention and a treatment method for workpieces according to the invention are also claimed.
In the following the invention will be explained by example in conjunction with figures which depict:
a a schematic representation of a further preferred driving connection between sun and planet system, and
b schematically the configuration according to
In
Under rotational driving of the sun system about the sun system axle 7, the planet axle 11 experiences the planet rotation ωp.
On the at least one planet axle 11 at least one planet wheel 17 is disposed so as to be torsion-tight, on which, parallel to the planet axle 11, at least one moon axle 19 is rotatably supported. Freely rotationally movable with respect to the planet axle 11 and coaxially with it, is provided a transfer wheel 21, preferably transfer toothed wheel, which engages a moon drive wheel 29, torsion-tight on the moon axle 19, preferably developed as a toothed wheel.
On the transfer toothed wheel 21 is fastened a stop bracket 25, which, during its rotational motion about the planet axle 11, lastly comes into stop connection at P with a stop 27 on the sun system with sun wheel 9.
With planet rotation ωp and corresponding rotation of the moon axle 19 about planet axle 11, the stop bracket 25 comes to a stop at stop 27, whereupon the moon drive wheel 29 is set into rotation. The moon system rotates with rotation ωm uninterruptedly as long as the drive of the sun system is established.
On the moon system a workpiece holder is provided for at least one workpiece to be treated in the chamber.
In
Therein applies additionally: workpiece holders 31 are fastened on the moon axles 19. The sun system is structured as a cage with the sun wheel 9, longitudinal rods 33 and 35 as well as spokes 37 and 39. It is evident that the outer longitudinal rods 35 according to
The planet wheels 17 supported torsion-tight on planet axle 11 and preferably axially slidable on it, are maintained spaced apart by spacer sleeves 45, which also can be slid over the planet axle 11. The guidance of the transfer toothed wheels 21, given a correspondingly narrow dimensioning of their center opening, can take place at the particular spacer sleeves 45. In the case of three and more associated moon systems, the transfer toothed wheels 21 can be guided through their moon drive wheels 29, which makes possible developing the center opening of the transfer toothed wheels 21 large [and thus] saving material and weight, and which further yields lower bearing friction.
If the wheels 21 are to be guided with a moon system, at least five moon systems are preferably provided on the particular planet wheel 17. Furthermore, if appropriate, support wheels 47 or slide supports (not shown) can be provided on the transfer toothed wheels 21 and/or planet wheels 17, in order to carry the transfer wheels.
A further constructional variant comprises connecting the planet wheels 17 torsionally tight with the spacer sleeves 45 and to employ the latter as bearing bushings for said transfer wheels 21.
In the embodiment according to
In
The formation of the stop brackets 25 are adapted to different workpiece shapes and sizes or to the moon system layout.
As evident in
In order to prevent in a possible blocking of a moon motion or a planet motion that the entire workpiece support according to the invention becomes jammed, on the workpiece support according to the invention, predetermined break points 51 can be included in order to limit the damage to as small as feasible a portion of the particular batch. Such predetermined break points preferably in the embodiment according to
A further checking feasibility of the proper functioning of the workpiece supports according to the invention is obtained by measuring the power consumed on driving motor 1. If one of the workpiece supports 100 according to the invention coupled to the drive motor 1 according to
In
Brackets 25 with transfer wheel 21 as well as stop 27 according to
In
Additionally is evident: the transfer surface 64 according to
Following the procedure chosen so far, in
In this case also through the corresponding dimensioning of the moon drive wheels 29 and the transfer surface 72, in particular their mutual toothing, the transmission ratio can be adjusted within a limited scope.
In analogy to
The rings 72a, on holding anchors 74, held so that they are spaced apart, with (not shown) spacer bushings, can be placed onto these anchors. Therewith a fast ring mounting in the individual moon motion planes is possible.
In
In
In
According to
With the aid of the planet system workpiece support a continuous rotational motion of the moon systems is ensured, which leads to a regular treatment uniform on all sides in particular also with short treatment times of workpieces, deposited on the moon systems, in a vacuum treatment installation, in particular in a coating installation.
Number | Date | Country | Kind |
---|---|---|---|
2477/98 | Dec 1999 | CH | national |
This is a continuation of application Ser. No. 09/879,527 filed Jun. 12, 2001, now U.S. Pat. No. 6,620,254, which was a continuation of international application PCT/CH99/00602 filed Dec. 15, 1999, which claimed priority on Swiss application 2477/98 filed Dec. 15, 1999, which priority claim is repeated here.
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3853091 | Christensen et al. | Dec 1974 | A |
3926421 | Reiger et al. | Dec 1975 | A |
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4284033 | del Rio | Aug 1981 | A |
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6620254 | Zaech et al. | Sep 2003 | B1 |
Number | Date | Country | |
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20050072266 A1 | Apr 2005 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 09879527 | Jun 2001 | US |
Child | 10601734 | US | |
Parent | PCT/CH99/00602 | Dec 1999 | US |
Child | 09879527 | US |