Material or article handling – Apparatus for charging a load holding or supporting element... – Transporting means is a horizontally rotated arm
Reexamination Certificate
2002-06-04
2004-03-16
Walsh, Donald P. (Department: 3653)
Material or article handling
Apparatus for charging a load holding or supporting element...
Transporting means is a horizontally rotated arm
C414S744500
Reexamination Certificate
active
06705816
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to material handling equipment, and more particularly to an apparatus for transporting semiconductor wafers.
BACKGROUND OF THE INVENTION
Semiconductor wafer transport is an integral aspect of semiconductor processing equipment. The wafers are usually stored in a cassette of 25 wafers. These wafers will need to be transferred to a new cassette, or need to be transferred individually to the process chamber for processing. Multiple cassettes or process chambers can be arranged in a circle or in a straight line. By far the circular arrangement is most popular, resulting in a cluster platform, consisting of one or two cassettes and up to six process chambers.
The basic movements of a wafer transport mechanism are:
1) a linear motion to bring the wafer in and out of the cassette. Most wafer transport mechanism employs a rotational motion coupled with a linking arm to convert the rotational motion to the required linear motion.
2) a motion to position the transport mechanism in front of the cassette. If the cassettes are arranged in a straight line, this motion is linear. If the cassettes are arranged in a circle, as in a cluster system, this motion is rotational.
3) a optional linear motion to pick the wafer off the wafer support, or to put down the wafer onto the wafer support. This third motion is not necessary if the wafer cassette could move up and down, but the first two motions exist in most wafer transport mechanism.
Conventional wafer transport systems use two separate motor means to carry out the first two separate motions. An example is the prior art U.S. Pat. No. 4,728,252. This patent uses a first motor to cause the rotation of the transfer arm assembly, and a second motor to cause the translation of the transfer arm. The two motors share the same rotational axis. The motor assembly also rotates together with the transport system.
The major disadvantage of the prior art systems is the usage of two separate motor means even with the proper design of two rotational motions sharing the same rotational axis. Another disadvantage of the prior art systems is the rotation of the motor assembly, thus requires flexible moving connections from a stationary power supply to the moving motors.
Wafer transport is often carried out in vacuum environment, defined as lower than atmospheric pressure, to limit possible contamination. The presence of vacuum environment requires minimum exposure of joints, bearings, hinges, and the like, which require lubrication, to the vacuum environment. The lubricating fluid in these mechanical connections can be easily vaporizes in the vacuum environment, thus requiring frequent maintenance. The evaporation of the lubricant could lead to the contamination of the wafers. Also these exposed joints could generate particles during movement, and the particles could deposit on the wafers being transported, thus degrading the wafer products.
It would be advantageous to develop an apparatus to provide a wafer transfer assembly having only one motor means to carry out the two motions.
It would be advantageous to develop an apparatus to provide a wafer transfer assembly having the motor means stationary to facilitate wire connection, and to prevent wire connection from a stationary power supply to a moving motor means.
It would be advantageous to develop an apparatus to provide a wafer transfer assembly suitable to operate in vacuum environment.
SUMMARY OF THE INVENTION
Accordingly, a wafer transport apparatus for transfer wafers using only one motor means is provided. The transport apparatus transfers wafers between any two locations arranged within a range of radius. The transport apparatus is also suited for low pressure environment because of its minimum exposure of joints and bearing surfaces.
The wafer transport apparatus for transporting a wafer relative to a housing comprises:
a) a sleeve mounted to rotate relative to the housing;
b) a shaft mounted coaxially within the sleeve, the shaft being mounted to rotate relative to the sleeve and also to rotate relative to the housing;
c) a linking arm fixedly attached to one end of the sleeve;
d) a transport arm rotatably attached to the other end of the linking arm, wherein the transport arm could be adapted to support the workpiece;
e) means for coupling the transport arm to the shaft so that rotation of the sleeve relative to the shaft causes the transport arm to rotate relative to the linking arm;
f) means for rotating the sleeve; and
g) locking means for locking the shaft to the sleeve, whereby the shaft and the sleeve rotating together relative to the housing, and for locking the shaft to the housing, whereby the sleeve rotating relative to the shaft and the housing.
The wafer transport apparatus includes a hollow cylindrical sleeve and a shaft mounted coaxially on a housing. The sleeve and the shaft can be rotated independently relative to each other and relative to the housing. One way to accomplish this rotatable assembly is to provide a bearing for the sleeve relative to the housing, and another bearing for the shaft relative to the sleeve. If the sleeve and the shaft is long, double bearing might be necessary to ensure proper alignment. A linking arm is fixedly attached to one end of the sleeve, and a transport arm is rotatably attached to the other end of the linking arm. The other end of the transport arm can be adapted to support a workpiece, such as a wafer or multiple wafers. A linkage assembly couples the shaft to the transport arm so that a rotation of the sleeve relative to the shaft causes the transport arm to rotate relative to the linking arm. A locking assembly can lock the shaft and the sleeve together, and can lock the shaft and the housing together. When the shaft and the sleeve are locked together, rotational movement of the sleeve causes the linking arm and the transport arm to rotate about the axis of the shaft (which is also the axis of the sleeve), thus changing the angular position of the transport arm. When the shaft and the housing are locked together, rotational movement of the sleeve causes the linking arm to rotate about the axis of the shaft and the transport arm to rotate about the axis of the linking arm, thus changing the radial position of the transport arm. The locking means could be active, such as a brake, or passive, such as a pin design so that when the sleeve is rotated in a certain direction, the pin design causes the shaft to rotate together. The present transport apparatus requires only one motor means to rotate the sleeve to accomplish two movements, angular and radial positions, of the wafer supporting end of the transport arm.
The invention further provides an extended assembly to extend the radial position, or the arm reach, of the wafer. The extended assembly comprises:
h) an end effector rotatably attached to the other end of the transport arm, wherein the end effector could be adapted to support the workpiece;
i) means for coupling the end effector to the transport arm so that rotation of the transport arm relative to the linking arm causes the end effector to rotate relative to the transport arm.
This aspect of the invention attaches an end effector to the wafer support end of the transport arm, together with a second linkage assembly to couple the end effector to the transport arm so that rotation of the transport arm relative to the linking arm causes the end effector to rotate relative to the transport arm. The end or ends of the end effector can be adapted to support a wafer or multiple wafers. The end effector could be attached at one end to the transport arm, then the other end of the end effector could be adapted to support a wafer, or multiple wafers stacking on top of each other. The end effector could be attached at the middle to transport arm, then two ends of the end effector can be adapted to support two wafers, or two multiple stacks of wafers. With the end effector, the transport apparatus has extend its reach by a distance from the end of the transport arm to the end of the en
Nguyen Tai Dung
Nguyen Tue
Bower Kenneth W.
Nguyen Tue
Waypoint Technologies
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