The present invention relates to a wafer exchange apparatus that replaces a processed wafer with an unprocessed wafer and to a wafer supporting hand used for such a wafer exchange apparatus.
Conventionally, in a wafer processing apparatus performing a certain process to the wafer(s) it contains, it is possible to raise its operating ratio and hence to increase its output by shortening the time needed for wafer exchange in which a processed wafer is taken out and an unprocessed wafer is taken in.
Proposed in Patent Literature 1 is a wafer exchange apparatus that performs the wafer exchange in a series of operations. The wafer exchange apparatus has two hands disposed with a vertical gap left in between, is provided with a lift mechanism that causes the two upper and lower hands to move upward and downward together, and is configured in such a manner that the lift mechanism alone changes absolute heights of the two upper and lower hands.
For example, suppose that on an upper shelf is placed a processed wafer whereas a lower shelf is vacant. Then, the wafer processing apparatus is accessed by the two upper and lower hands with the lower hand supporting an unprocessed wafer, and thus the unprocessed wafer is taken in. And when the lower hand is moved downward while the upper hand is moved upward by operating the lift mechanism so that the gap between the upper and the lower hands is caused to expand, the unprocessed wafer is set onto the lower shelf getting away from the lower hand, and simultaneously the processed wafer having been placed on the upper shelf is supported by the upper hand. In this state, when the upper and the lower hands are moved away from the wafer processing apparatus, the processed wafer is taken out.
Conversely, suppose that on the lower shelf is placed a processed wafer whereas the upper shelf is vacant. Then, the wafer processing apparatus is accessed by the two upper and the lower hands with the upper hand supporting an unprocessed wafer, and thus the unprocessed wafer is taken in. And, when the lower hand is moved upward while the upper hand is moved downward by operating the lift mechanism so that the gap between the upper and the lower hands is caused to contract, the unprocessed wafer is set onto the upper shelf getting away from the upper hand, and simultaneously the processed wafer having been placed on the lower shelf is supported by the lower hand. In this state, when the upper and the lower hands are moved away from the wafer processing apparatus, the processed wafer is taken out.
Citation List
Patent Literature
Patent Literature 1
Japanese Patent Unexamined Publication No. 8-139152 bulletin
2. Technical Problem
In the configuration of the wafer exchange apparatus of Patent Literature 1, since the mechanism that causes the two upper and lower hands to move upward and downward together is complicated, there has been a problem that the apparatus upsizes due to mechanical components put close together. Besides, there has been an inconvenience that the wafer processing apparatus cannot be accessed with a single hand when it is desired to do so due to the two upper and lower hands configuration.
The present invention was contrived to solve the above-mentioned technical problems, and is directed to providing a wafer exchange apparatus and a wafer supporting hand that are compact with excellent accessibility.
2. Solution to Problem
A wafer exchange apparatus of the present invention comprises a first and a second hands, a first lifting means, a casing, a horizontal moving means and a second lifting means. The first and the second hands are formed in shapes segmented in the left and right direction with generally line symmetry, and support a wafer. The first lifting means moves the second hand upward and downward. The casing has the first lifting means built-in, and supports the first hand at a constant position in height while supporting the second hand movably upward and downward. The horizontal moving means moves the casing horizontally. The second lifting means moves the casing upward and downward.
This configuration of the wafer exchange apparatus permits making a relative height of the first and the second hands variable by the first lifting means while making their absolute heights adjustable by the second lifting means. Therefore, mechanical components can be arranged dispersedly. Moreover, when positions in height of the first and the second hands are made even, the first and the second hands become usable as one hand in appearance.
Further, the pair of the wafer supporting hands of the present invention are formed in shapes segmented in the left and right direction with generally line symmetry. This configuration not only permits supporting a wafer with both of the wafer supporting hands united as one hand in appearance by making the heights of the pair of the wafer supporting hands even, but also permits supporting a wafer separately as two hands by making the heights of the pair of the wafer supporting hands different. In other words, one hand in appearance can be used as two hands, and it is possible to constitute in a space saving manner two hands that are used with the heights thereof being separated one another.
The wafer supporting hands may be configured in such a manner that main fingers that take a shape of a fork when joined together with line symmetry are formed at front ends of the pair of the wafer supporting hands, and that supplementary fingers are provided protruding one another alternately to the opposite hands across an axis of the line symmetry at roots of the respective main fingers. With this configuration, the main fingers of the respective hands joined together with line symmetry become a fork-shaped finger when the pair of the wafer supporting hands are to be used as one hand in appearance, whereas the main finger and the supplementary finger of each hand altogether become a fork-shaped finger when the pair of the wafer supporting hands are to be used as two hands. That is to say, it is made possible to support a wafer stably with a fork-shaped finger regardless of whether it is one hand in appearance or two hands to be used.
Further, air-intake openings may be provided at tip portions of the main fingers and the supplementary fingers on wafer support surfaces of the pair of the wafer supporting hands. With this configuration, a wafer can be sucked onto the wafer support surfaces and thus be supported surely by sucking in the air from the air-intake openings with the wafer placed on the wafer support surfaces of the pair of the wafer supporting hands.
The present invention makes it possible to provide a wafer exchange apparatus and a wafer supporting hand that are compact with excellent accessibility.
Referring to
As shown in
As shown in
The first and the second hands 10, 20 are formed in a platelike shape, and wafer support surfaces (refer to the slanted line sections in
Further, as shown in
The main fingers 10A, 20A of the respective hands joined together with line symmetry become a fork-shaped finger when the first and the second wafer supporting hands 10, 20 are to be used as one hand in appearance as shown in
Further, as shown in
As shown in
Platelike holding members 2, 3 hold the first and the second hands 10, 20 by the root portions 100, 20C thereof respectively. The first and the second hands 10, 20 are mounted on the casing 40 using the holding members 2, 3.
The first lifting means 30 moves the second hand 20 upward and downward. As shown in
The motor 31 is a driving source that causes a motor shaft 31A to rotate in both directions within a predetermined angular range. As a concrete instance of the motor 31, a stepping motor can be given, for example. The swinging member 32 swings around the motor shaft 31A with the rotation of the motor shaft 31A. A shape of the swinging member 32 is not limited; however, a plate bar-like member as illustrated is used, for example. Onto one end of the swinging member 32, the motor shaft 31A is fixed. At another end of the swinging member 32, the swinging member 32 is penetrated by a slit-like slot 32A extending in a lengthwise direction of the swinging member 32.
The first and the second slide members 34, 35 perform reciprocating linear motions, operating together with swinging motions of the swinging member 32. Shapes of the first and the second slide members 34, 35 are not limited; however, a plate hook-like member as illustrated is used for the first slide member 34, and a platelike member as illustrated is used for the second slide member 35, for example.
As shown in
As shown in
As shown in
As shown in
The swinging member 32, the guide 33, and the first and the second slide members 34, 35 constitute a cam mechanism. By the cam mechanism, as shown by dotted line arrows in
The casing 40 has the first lifting means 30 built-in, and supports the first hand 10 at a constant position in height while supporting the second hand 20 movably upward and downward. The casing 40 takes a boxy shape. A constitution of the casing 40 is not a matter of importance; however, as shown in
The holding member 2 holding the first hand 10 is fixed to the base plate of the casing 40. This makes the first hand 10 supported by the casing 40 at a constant position in height (unable to move upward and downward). The holding member 3 holding the second hand 20 is supported by the second slide member 35. This enables the second hand 20 to be supported movably upward and downward by the casing 40.
The horizontal moving means 50 moves the casing 40 horizontally. In the embodiment, the horizontal moving means 50 includes a motor which is not illustrated, articulated robot arms (a first and a second arms 51, 52), and a link mechanism which is not illustrated. At a front edge portion of the second arm 52, the casing 40 is rotatably supported. The motor rotationally drives the first arm 51 of the articulated robot arms. The link mechanism is one that links a rotation of the first arm 51 with rotations of the second arm 52 and the casing 40, and is configured in such a manner that the rotational angles of the second arm 52 and the casing 40 are adjusted properly depending on the rotational angle of the first arm 51. In the embodiment, the link mechanism is configured in such a manner that the casing 40 is moved forward and backward without its direction in appearance being changed by the horizontal moving means 50.
Here, the horizontal moving means is not limited to the one as discussed above in which the casing 40 is moved forward and backward indirectly by the articulated robot arms; instead, it may even be one that directly moves the casing 40 forward and backward with a sliding mechanism, for example.
The second lifting means 60 moves the casing 40 upward and downward. In the embodiment, the second lifting means 60 includes an elevator mechanism which is not illustrated, and a robot main body (a base body 61 and a lifting body 62). The elevator mechanism is not limited; however, it can be constituted with a motor and a crank shaft, for example. The base body 61 is fixed onto a floor surface; and the lifting body 62 is installed in such a manner as to be movable upward and downward freely in relation to the base body 61. Shapes of the base body 61 and the lifting body 62 are not limited; however, cylindrical members as illustrated can be used, for example. The casing 40 is installed to the second lifting means 60 through the above-mentioned horizontal moving means 50.
By the second lifting means 60, as shown by solid line arrows in
Operation of the wafer exchange apparatus 1 configured as described above is explained, referring to
For example, as shown in
After a processing of a wafer that is set on the lower shelf 201B, 202B is completed, as shown in
In this manner, take-in of an unprocessed wafer 102 and its setting onto a shelf and take-out of a processed wafer 101 can be performed in a series of operations. Therefore, exchange of the unprocessed wafer 102 and the processed wafer 101 can be performed efficiently.
In the above, the case has been explained in which shelves are provided in two steps; however, in a case where shelves are configured in multistage that is greater than two, and if the number of steps of shelves is an even number, exchange of the unprocessed wafers 102 and the processed wafers 101 can be performed on all the steps by repeating the above-mentioned operations (number of steps)/2 times.
However, if the number of steps of shelves is an odd number, only one step remains halfway in the end when the exchange of the wafers is carried out by two steps at a time as described above. In such a case, in a state where the heights of the first and the second hands 10, 20 are made different, there is a risk that the hands 10, 20 may interfere with a take-out/-in port of the wafer processing apparatus. Accordingly, as shown in
The embodiment permits making a relative height of the first and the second hands 10, 20 variable by the first lifting means 30 while making their absolute heights adjustable by the second lifting means 60. This enables mechanical components to be arranged dispersedly. Also, when positions in height of the first and the second hands 10, 20 are made even, the hands become usable as one hand in appearance. Therefore, it is made possible to provide a wafer exchange apparatus that is compact with excellent accessibility.
The above explanation of the embodiment is nothing more than illustrative in any respect, nor should be thought of as restrictive. Scope of the present invention is indicated by claims rather than the above embodiment. Further, it is intended that all changes that are equivalent to a claim in the sense and realm of the doctrine of equivalence be included within the scope of the present invention.
1 Wafer exchange apparatus
10 First hand (one of a pair of wafer supporting hands)
20 Second hand (the other of the pair of the wafer supporting hands)
30 First lifting means
40 Casing
50 Horizontal moving means
60 Second lifting means
Number | Date | Country | Kind |
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2011-090676 | Apr 2011 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2012/059332 | 4/5/2012 | WO | 00 | 10/10/2013 |