IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0312304
(2007-10-25)
|
등록번호 |
US-8469703
(2013-06-25)
|
우선권정보 |
JP-2006-314578 (2006-11-21) |
국제출원번호 |
PCT/JP2007/001168
(2007-10-25)
|
§371/§102 date |
20090505
(20090505)
|
국제공개번호 |
WO2008/062550
(2008-05-29)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Shin-Etsu Handotai Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
5 |
초록
▼
A vertical boat for heat treatment includes a plurality of supporting columns, a pair of plate members coupled to both ends of each supporting column. In each of the supporting columns a plurality of supporting parts for horizontally supporting substrates to be treated are formed and an auxiliary su
A vertical boat for heat treatment includes a plurality of supporting columns, a pair of plate members coupled to both ends of each supporting column. In each of the supporting columns a plurality of supporting parts for horizontally supporting substrates to be treated are formed and an auxiliary supporting member to place each of the substrates to be treated is removably attached to each of the plurality of supporting parts. The auxiliary supporting member is adjusted for each supporting part with respect to the inclination of a surface for placing the substrates to be treated depending on the shape of each supporting part by processing a surface for attaching to the supporting part, or by interposing a spacer between the supporting part and the auxiliary supporting member is provided.
대표청구항
▼
1. A vertical boat for heat treatment comprising: a plurality of supporting columns, each supporting column extending vertically between an upper end and a lower end thereof, a pair of plate members, including an upper plate member coupled to the upper ends of the supporting columns and a lower plat
1. A vertical boat for heat treatment comprising: a plurality of supporting columns, each supporting column extending vertically between an upper end and a lower end thereof, a pair of plate members, including an upper plate member coupled to the upper ends of the supporting columns and a lower plate member coupled to the lower ends of the supporting columns, the supporting columns comprising a plurality of slits spaced apart and a plurality of supporting parts interposed between the slits for horizontally supporting substrates to be treated, each supporting part being formed on the supporting column and having a curvilinear shape, and a plurality of auxiliary supporting members, each auxiliary supporting member being removably attached to one and only one corresponding supporting part, each auxiliary supporting member having a lower surface and a downward extension that contacts an upper surface of the corresponding supporting part when the auxiliary supporting member is attached to the corresponding supporting part and an upper surface for contacting one of the substrates, wherein the lower surface of a first auxiliary supporting member of the plurality of auxiliary supporting members is shaped to accommodate the shape of the corresponding supporting part such that the upper surface of the first auxiliary support member is at a predetermined inclination when the first auxiliary supporting member is attached to the corresponding supporting part of the first auxiliary supporting member. 2. The vertical boat for heat treatment according to claim 1, wherein the lower surface of the first auxiliary supporting member has a recess. 3. The vertical boat for heat treatment according to claim 1, wherein the lower surface of the first auxiliary supporting member has a tapering shape. 4. The vertical boat for heat treatment according to claim 1, wherein the lower surface of the first auxiliary supporting member has a projection shape. 5. A heat treatment method of a semiconductor wafer using the vertical boat for heat treatment according to claim 1, comprising steps of: measuring the shape of each supporting part of each supporting column;for a first supporting part, selecting an auxiliary supporting member from the plurality of auxiliary supporting members, the lower surface of the selected auxiliary supporting member being shaped to accommodate the measured shape of the first supporting part, and attaching the selected auxiliary supporting member onto the first supporting part;then,adjusting an inclination of the upper surface of the selected auxiliary supporting member based on the measured shape of the first supporting part; thenplacing the semiconductor wafer onto the upper surface of the selected auxiliary supporting member; andperforming a heat treatment. 6. A heat treatment method of a semiconductor wafer using the vertical boat for heat treatment according to claim 2, comprising steps of: measuring the shape of each supporting part of each supporting column;for a first supporting part, selecting an auxiliary supporting member from the plurality of auxiliary supporting members, the lower surface of the selected auxiliary supporting member being shaped to accommodate the measured shape of the first supporting part,and attaching the selected auxiliary supporting member onto the first supporting part; thenadjusting an inclination of the upper surface of the selected auxiliary supporting member based on the measured shape of the first supporting part; thenplacing the semiconductor wafer onto the upper surface of the selected auxiliary supporting member; andperforming a heat treatment. 7. A heat treatment method of a semiconductor wafer using the vertical boat for heat treatment according to claim 3, comprising steps of: measuring the shape of each supporting part of each supporting column;for a first supporting part, selecting an auxiliary supporting member from the plurality of auxiliary supporting members, the lower surface of the selected auxiliary supporting member being shaped to accommodate the measured shape of the first supporting part, and attaching the selected auxiliary supporting member onto the first supporting part; thenadjusting an inclination of the upper surface of the selected auxiliary supporting member based on the measured shape of the first supporting part; thenplacing the semiconductor wafer onto the upper surface of the selected auxiliary member; andperforming a heat treatment. 8. A heat treatment method of a semiconductor wafer using the vertical boat for heat treatment according to claim 4, comprising steps of: measuring the shape of each supporting part of each supporting column;for a first supporting part, selecting an auxiliary supporting member from the plurality of auxiliary supporting members, the lower surface of the selected auxiliary supporting member being shaped to accommodate the measured shape of the first supporting part, and attaching the selected auxiliary supporting member onto the first supporting part; thenadjusting an inclination of the upper surface of the selected auxiliary supporting member based on the measured shape of the first supporting part; thenplacing the semiconductor wafer onto the upper surface of the selected auxiliary supporting member; andperforming a heat treatment. 9. The heat treatment method of a semiconductor wafer according to claim 5, wherein the inclination of the upper surface of the selected auxiliary supporting member is adjusted so that an angle between the upper surface of the selected auxiliary supporting member and the semiconductor wafer placed on the upper surface of the selected auxiliary supporting member is within ±0.2°. 10. The heat treatment method of a semiconductor wafer according to claim 6, wherein the inclination of the upper surface of the selected auxiliary supporting member is adjusted so that an angle between the upper surface of the selected auxiliary supporting member and the semiconductor wafer placed on the upper surface of the selected auxiliary supporting member is within ±0.2°. 11. The heat treatment method of a semiconductor wafer according to claim 7, wherein the inclination of the upper surface of the selected auxiliary supporting member is adjusted so that an angle between the upper surface of the selected auxiliary supporting member and the semiconductor wafer placed on the upper surface of the selected auxiliary supporting member is within ±0.2°. 12. The heat treatment method of a semiconductor wafer according to claim 8, wherein the inclination of the upper surface of the selected auxiliary supporting member is adjusted so that an angle between the upper surface of the selected auxiliary supporting member and the semiconductor wafer placed on the upper surface of the selected auxiliary supporting member is within ±0.2°. 13. The heat treatment method of a semiconductor wafer according to claim 5, further comprising: processing the lower surface of the selected auxiliary supporting member based on the measured shape of the first supporting part such that the shape of the lower surface of the selected auxiliary supporting member accommodates the measured shape of the first supporting part. 14. The vertical boat for heat treatment according to claim 1, further comprising a spacer between a second auxiliary supporting member of the plurality of supporting members and the corresponding supporting part of the second auxiliary supporting member, the spacer having a shape that accommodates the shape of the corresponding supporting part of the second auxiliary supporting member such that the upper surface of the second auxiliary support member is at a predetermined inclination when the second auxiliary support member is attached to the corresponding supporting part of the second auxiliary supporting member. 15. The heat treatment method of a semiconductor wafer according to claim 5, further comprising: for a second supporting part, selecting a spacer having a shape to accommodate the measured shape of the second supporting part, and attaching the spacer between the second supporting part and the corresponding auxiliary supporting member of the second supporting part; and thenadjusting an inclination of the upper surface of the corresponding auxiliary supporting member of the second supporting part based on the measured shape of the second supporting part. 16. A vertical boat for heat treatment comprising: a plurality of supporting columns, each supporting column extending vertically between an upper end and a lower end thereof; a pair of plate members, including an upper plate member coupled to the upper ends of the supporting columns and a lower plate member coupled to the lower ends of the supporting columns, the supporting columns comprising a plurality of slits spaced apart and a plurality of supporting parts interposed between the slits for horizontally supporting substrates to be treated, each supporting part being formed on the supporting column and having a curvilinear shape, a plurality of auxiliary supporting members, each auxiliary supporting member being removably attached to one and only one corresponding supporting part, each auxiliary supporting member having a lower surface and a downward extension that contacts an upper surface of the corresponding supporting part when the auxiliary supporting member is attached to the corresponding supporting part and an upper surface for contacting one of the substrates, and a spacer that is removably inserted between a first auxiliary supporting member of the plurality of auxiliary supporting members and the corresponding supporting part of the first auxiliary supporting member, the spacer being shaped to accommodate the shape of the corresponding supporting part such that the upper surface of the first auxiliary support member is at a predetermined inclination when the first auxiliary support member is attached to the corresponding supporting part of the first auxiliary supporting member. 17. The vertical boat for heat treatment according to claim 16, wherein the lower surface of a second auxiliary supporting member of the plurality of auxiliary supporting members is shaped to accommodate the shape of the corresponding supporting part of the second auxiliary supporting member such that the upper surface of the second auxiliary support member is at a predetermined inclination when the second auxiliary support member is attached to the corresponding supporting part of the second auxiliary supporting member. 18. A heat treatment method of a semiconductor wafer using the vertical boat for heat treatment according to claim 16, comprising steps of: measuring the shape of each supporting part of each supporting column;for a first supporting part, selecting a spacer having a shape that accommodates the measured shape of the first supporting part, and attaching the selected spacer between the first supporting part and the corresponding auxiliary supporting member of the first supporting part; thenadjusting an inclination of the upper surface of the corresponding auxiliary supporting member of the first supporting part based on the measured shape of the first supporting part; thenplacing the semiconductor wafer onto the upper surface of the corresponding auxiliary supporting member of the first supporting part; andperforming a heat treatment. 19. The heat treatment method of a semiconductor wafer according to claim 18, further comprising: for a second supporting part, selecting an auxiliary supporting member from the plurality of auxiliary supporting members, the lower surface of the selected auxiliary supporting member being shaped to accommodate the measured shape of the second supporting part, and attaching the selected auxiliary supporting member onto the second supporting part. 20. The heat treatment method of a semiconductor wafer according to claim 18, wherein the inclination of the upper surface of the corresponding auxiliary supporting member of the first supporting part is adjusted so that an angle between the upper surface of the corresponding auxiliary supporting member of the first supporting part and the semiconductor wafer placed on the upper surface of the of the corresponding auxiliary supporting member of the first supporting part is within ±0.2°.
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