A system is described for the automated transfer of wafer carriers containing semi-conductor wafers, to various work stations and processing units along a process line. The system includes tunnel and track segments which are joined to provide a path of desired length. A semi-conductor carrier rides
A system is described for the automated transfer of wafer carriers containing semi-conductor wafers, to various work stations and processing units along a process line. The system includes tunnel and track segments which are joined to provide a path of desired length. A semi-conductor carrier rides on a cart, which is in one tunnel and is magnetically coupled to a motorized cart which is in a separate tunnel to keep contaminants away from the wafer carrier. The tunnel enclosing the wafer carrier is also purged with nitrogen or filtered air to keep contaminants away from the carrier.
대표청구항▼
1. A wafer transport system for minimizing the danger of contamination to the wafers being carried by the system comprising: an elongated, track-like support having a pair of inner tracks on the upper side of the support means on said support located between said inner tracks for conducting elect
1. A wafer transport system for minimizing the danger of contamination to the wafers being carried by the system comprising: an elongated, track-like support having a pair of inner tracks on the upper side of the support means on said support located between said inner tracks for conducting electrical power a driver cart riding on said inner tracks an electric motor included with the driver cart an electrical power pick-up on the cart for transferring electricity from the power conducting means to the electric motor a generally U-shaped inner cover supported in an inverted orientation on said track-like support to form, with the support, an inner tunnel through which said driver cart can travel, said support having means spaced outwardly from said inner tracks to sealingly cooperate with the lower edges of the side legs of said cover a pair of outer tracks on said support including a track on each side spaced outwardly from but in close proximity to means on the support for receiving the lower legs of said cover a driven cart having a generally U-shaped support structure positioned in an inverted orientation with an upper support surface and depending side legs, and having wheels rotatably mounted on the lower ends of said structure side legs, the driven cart wheels being aligned to ride on said outer tracks, with the side legs of the driven cart structure being spaced outwardly from the side legs of the inner cover to straddle and enclose the inner cover and the driver cart, said driver cart including an upper support surface spaced above and extending over the upper wall of the inner cover, said upper support surface being adapted to support a wafer carrier on said surface, remote from the wheels on said driven cart magnetic means on said driver cart extending outwardly in close proximity to the inner surface of said inner cover, and magnetic means on said driven cart structure and extending closely adjacent to the outer surface of said inner cover and aligned with the magnetic means on said driven cart so that sufficient magnetic force can be exerted by the magnetic means on the driver cart to cause the driven cart to follow the motion of the driver cart and an outer generally U-shaped cover arranged in an inverted orientation fitting over the driven cart and the space to be occupied by a wafer carrier on top of the driven cart so that the outer cover in combination with the inner cover and said support forms an outer tunnel through which said driven cart can travel, said support being formed with means on its upper surface spaced outwardly from said outer tracks for sealingly cooperating with the lower ends of the side legs of the outer cover. 2. The system of claim 1, wherein the magnetic means on the driven cart are magnets covered by a thin layer of plastic to prevent particles from leaving said magnets. 3. The wafer transport system of claim 1 further comprising: a robot-type load transfer mechansim to change the direction of travel of the wafers being carried by transferring a wafer carrier from a driven cart moving in one direction on one track-like support to a driven cart moving in another direction on a second track-like support. 4. The system of claim 1 including means forming a plenum in said outer cover for distributing gas into the outer tunnel to prevent the surrounding atmosphere from entering the outer tunnel. 5. The system of claim 4 wherein said plenum is in the upper portion of said outer cover so that said gas can be directed downwardly toward suitable vents in the lower portion of said outer tunnel. 6. The sytem of claim 1 wherein said driven cart includes a two wheel segment and a connection pivotally mounting said segment on a second wheeled segment to enable the cart to accomodate curved movement, said connection including means to contain contaminates generated by said connection. 7. The system of claim 1 wherein said support and said covers are formed in sections of convenient length to form a system of a desired length. 8. The system of claim 1 wherein said inner and outer tracks are formed integral with said support. 9. The system of claim 1 wherein said support includes recesses for receiving the lower edges of said covers, and seal means in said recesses for forming gas tight seals. 10. The system of claim 1 wherein the magnetic means on the driver cart includes four magnets mounted on the sides of said driver cart near said inner cover and wherein the magnetic means on the driven cart is mounted on the sides of the driven cart and placed near the inside cover directly opposite to the magnets placed on the driver cart. 11. A wafer transport system for minimizing the danger of contamination to the wafers being carried by the system comprising: a support structure having a first surface which contains a conducting means for conducting electrical power, at least one inner track which is substantially parallel to said means for conducting electrical power, and at least one outer track which is substantially parallel to said inner track a wheeled driver cart having at least two wheels in communication with said inner track, said driver cart being driven by an electric motor mounted on said driver cart, said driver cart also having a power transfer means for transferring electrical power from the electrical conducting means means of the support structure to the electric motor on the driver cart an inner cover made of magnetically permeable material which is attached to said support structure so as to form a substantially gas tight tunnel enclosing said driver cart and inner track a wheeled, driven cart which straddles said inner cover and has at least two wheels in communication with said outer track, said driven cart containing magnetic means positioned to coincide with the location of a corresponding magnetic means located on said driver cart so that sufficient magnetic force can be exerted by said magnetic means on the driver cart to cause the driven cart to track the motion of the driver cart, said driven cart also having wheels formed of a low-friction, corrosion-resistant material to further reduce particulate generation, said wheels being attached to the axles of said driven cart by low friction, low particle generating bearings, and said driven cart carrying said wafers an outer cover attached to the support structure, said outer cover substantially enclosing the driven cart and outer track to form an outer tunnel in which the driven cart can travel, said outer tunnel being substantially free of particles which can damage said wafers being transported in said driven cart and shields attached to the driven cart partially enclosing each of said wheels on said driven cart in order to deflect any particles generated away from wafers in a wafer carrier supported on the upper surface of said driven cart. 12. A conveyor system comprising: a generally flat, track-like extruded member made of Teflon-impregnated hard anodized aluminum, said extruded member having elongated recesses formed therein, and having elongated rails forming tracks; a driver cart supported for movement along said tracks; a driven cart supported for movement along said tracks wherein the portions of the driven cart which engage said tracks are treated to be Teflon-impregnated, hard anodized aluminum; and cover measn cooperating with said recesses in said support structure to form a tunnel for enclosing said driven cart and isolating said driven cart from said driver cart. 13. The system of claim 12 wherein said extruded member further comprises: elongated recesses for receiving an electrical conductor to provide power to the driven cart; and means for coupling sections of said extruded members together.
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