Methods and Systems for Improving Transfer Efficiency of an Automated Material Handling System
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IPC분류정보
국가/구분 |
United States(US) Patent
공개
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국제특허분류(IPC7판) |
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출원번호 |
18360877
(2023-07-28)
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공개번호 |
20230369088
(2023-11-16)
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발명자
/ 주소 |
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
0 |
초록
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Methods and systems for improving the efficiency of an automated material handling system (AMHS) include providing an apparatus operatively coupled to a load port of a processing apparatus, where the apparatus is configured to remove a first work-in-process from the load port and to move the first w
Methods and systems for improving the efficiency of an automated material handling system (AMHS) include providing an apparatus operatively coupled to a load port of a processing apparatus, where the apparatus is configured to remove a first work-in-process from the load port and to move the first work-in-process along a first direction to displace the first work-in-progress from the load port while a second work-in-progress is transferred to the load port from an AMHS vehicle along a second direction that is perpendicular to the first direction, and transferring the first work-in-progress to an AMHS vehicle along the second direction. The methods and systems may be used for loading and unloading wafer storage containers, such as front opening unified pods (FOUPs), in a semiconductor fabrication facility.
대표청구항
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1. A positioning apparatus, comprising: a support surface for a wafer storage container; anda pair of retractable hooks that are moveable in a vertical direction with respect to the support surface, wherein:the pair of retractable hooks are configured to engage with features of a wafer storage conta
1. A positioning apparatus, comprising: a support surface for a wafer storage container; anda pair of retractable hooks that are moveable in a vertical direction with respect to the support surface, wherein:the pair of retractable hooks are configured to engage with features of a wafer storage container located on the support surface such that the wafer storage container is lifted from the support surface by a movement of the pair of retractable hooks in a vertically upwards direction from below the features of the wafer storage container, andthe pair of retractable hooks retract as the pair of retractable hooks move in a vertically downward direction from above the features of a wafer storage container located on the support surface. 2. The positioning apparatus of claim 1, wherein the wafer storage container is a front opening unified pod (FOUP). 3. The positioning apparatus of claim 1, wherein each retractable hook of the pair of retractable hooks is coupled to a respective support rod of a pair of support rods by a pivot joint that enables the hook to pivot between an extended position and a retracted position. 4. The positioning apparatus of claim 3, wherein each of the retractable hooks is biased into the extended position by a spring mechanism. 5. The positioning apparatus of claim 4, wherein as the pair of retractable hooks are translated vertically downward a force exerted on the retractable hooks by the features of the wafer storage container located on the support surface is sufficient to cause the retractable hooks to pivot to the retracted position. 6. The positioning apparatus of claim 5, wherein the bias force of the spring mechanism causes the retractable hooks to return to the extended position once the hooks are lowered beneath the features of the wafer storage container such that upper surfaces of each of the retractable hooks are located directly beneath a respective feature of the wafer storage container. 7. The positioning apparatus of claim 6, wherein the features of the wafer storage container comprise handles located on opposite sides of the wafer storage container. 8. The positioning apparatus of claim 3, wherein the pair of support rods and the retractable hooks attached thereto are movable in a vertical direction with respect to the support surface. 9. The positioning apparatus of claim 8, wherein the pair of support rods and the retractable hooks attached thereto are pivotable with respect to the support surface. 10. The positioning apparatus of claim 1, further comprising a motorized system configured to pivot each of the hooks between the extended position and the retracted position. 11. The positioning apparatus of claim 10, wherein the pair of retractable hooks are configured to engage with features of a wafer storage container by clamping onto side surfaces of the wafer storage container. 12. A method of processing semiconductor wafers, comprising: positioning a support tray of a positioning apparatus with respect to a load port to receive a second wafer storage container on the support tray while a first wafer storage container is located on an upper surface of the load port, wherein the support tray comprises a flat portion configured to support a wafer storage container and an open region interior of the flat portion that enables the support tray to lower the wafer storage container supported on the flat portion of the support tray onto the upper surface of the load port;receiving, on the support tray, the second wafer storage container from a material handling system such that the second wafer storage container is supported on the flat portion of the support tray;lowering the support tray towards the upper surface of the load port to place the second wafer storage container onto the upper surface of the load port after the first wafer storage container is removed from the load port; andmoving the support tray in a horizontal direction such that the flat portion of the support tray moves in a horizontal direction between the upper surface of the load port and a lower surface of the second wafer storage container located on the upper surface of the load port. 13. The method of claim 12, wherein the second wafer storage container is received on the support tray from the material handling system while the support tray is positioned above an upper surface of the first wafer storage container, the method further comprising: moving the support tray and the second wafer storage container supported thereon in a horizontal direction to enable the material handling system to remove the first wafer storage container from the load port; andmoving the support tray and the second wafer storage container supported thereon in a horizontal direction to position the second wafer storage container over the upper surface of the load port after the first wafer storage container is removed from the load port. 14. The method of claim 12, further comprising: positioning the support tray with respect to the load port to receive a third wafer storage container on the support tray while the second wafer storage container is located on the upper surface of the load port;receiving, on the support tray, the third wafer storage container from the material handling system such that the third wafer storage container is supported on the flat portion of the support tray; andlowering the support tray towards the upper surface of the load port to place the third wafer storage container onto the upper surface of the load port after the second wafer storage container is removed from the load port. 15. The method of claim 14, further comprising: removing the third wafer storage container from the upper surface of the load port by moving the support tray vertically upwards with respect to the load port;positioning the support tray to enable a transfer of a fourth wafer storage container from the material handling system to the load port and a transfer of the third wafer storage container from the support tray to the material handling system; andmoving the support tray in a horizontal direction such that the flat portion of the support tray moves in a horizontal direction between the upper surface of the load port and a lower surface of the fourth wafer storage container located on the upper surface of the load port. 16. The method of claim 12, wherein the flat portion of the support tray surrounds the open region of the support tray on three sides of the open region such that lowering the support tray towards the upper surface of the load port enables a bottom surface of the second wafer storage to engage with the upper surface of the load port to load the second wafer storage container onto the load port. 17. A method of processing semiconductor wafers, comprising: removing a first wafer storage container located on an upper surface of a load port by moving a support tray vertically upwards with respect to the load port, wherein the support tray comprises a flat portion configured to support a wafer storage container and an open region interior of the flat portion, and the flat portion of the support tray is located between the upper surface of the load port and a lower surface of the first wafer storage container;positioning the support tray to enable a transfer of a second wafer storage container from a material handling system to the load port and a transfer of the first wafer storage container from the support tray to the material handling system; andmoving the support tray in a horizontal direction such that the flat portion of the support tray moves in a horizontal direction between the upper surface of the load port and a lower surface of the second wafer storage container located on the upper surface of the load port. 18. The method of claim 17, wherein positioning the support tray to enable the transfer of the second wafer storage container from a material handling system to the load port comprises moving the support tray and the first wafer storage container supported thereon in a horizontal direction to enable the material handling system to load the second wafer storage container onto the load port, and positioning the support tray to enable the transfer of the first wafer storage container from the support tray to the material handling system comprises moving the support tray and the first wafer storage container supported thereon in a horizontal direction such that the first wafer storage container is located over an upper surface of the second wafer storage container located on the load port. 19. The method of claim 18, further comprising: after the first wafer storage container is transferred to the material handling system, moving the support tray in a horizontal direction and in a vertical direction to position the support tray adjacent to the lower surface of the second wafer storage container. 20. The method of claim 17, wherein the flat portion of the support tray surrounds the open region of the support tray on three sides of the open region.
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