An apparatus for anodizing substrates immersed in an electrolyte solution. A substrate holder mounted in a storage tank includes a first support unit having first support elements for supporting, in a liquid-tight condition, only lower circumferential portions of the substrates, and a second support
An apparatus for anodizing substrates immersed in an electrolyte solution. A substrate holder mounted in a storage tank includes a first support unit having first support elements for supporting, in a liquid-tight condition, only lower circumferential portions of the substrates, and a second support unit attachable to and detachable from the first support unit and having second support elements for supporting, in a liquid-tight condition, remaining circumferential portions of the substrates. A drive mechanism separates the first support unit and the second support unit when loading and unloading the substrates, and for connecting the first support unit and the second support unit after the substrates are placed in the substrate holder.
대표청구항▼
1. An anodizing apparatus for causing an anodizing reaction on substrates immersed in an electrolyte solution, comprising: a storage tank for storing the electrolyte solution;a substrate holder mounted in the storage tank, and including a first support unit having a plurality of first support elemen
1. An anodizing apparatus for causing an anodizing reaction on substrates immersed in an electrolyte solution, comprising: a storage tank for storing the electrolyte solution;a substrate holder mounted in the storage tank, and including a first support unit having a plurality of first support elements arranged in a direction of arrangement of the substrates for contacting and supporting, in a liquid-tight condition, only lower portions of circumferential surfaces of the substrates, and a second support unit attachable to and detachable from the first support unit and having a plurality of second support elements arranged in the direction of arrangement of the substrates for contacting and supporting, in a liquid-tight condition, remaining portions of the circumferential surfaces of the substrates other than the lower portions supported by the first support elements;a drive mechanism for separating the first support unit and the second support unit when placing the plurality of substrates in the substrate holder and when unloading the plurality of substrates from the substrate holder, and for connecting the first support unit and the second support unit after the plurality of substrates are placed in the substrate holder;wherein the second support unit includes a left second support unit having left second support elements as the second support elements for supporting left sides of the remaining portions of the circumferential surfaces of the substrates, and a right second support unit having right second support elements as the second support elements for supporting right sides of the remaining portions of the circumferential surfaces of the substrates; andwherein the left second support unit and the right second support unit have fulcrums, respectively, have the first support unit in between, and are rockable away from each other in a plane defined by said first and second support units when separating from the first support unit. 2. The apparatus according to claim 1 wherein the substrate holder assumes a cylindrical appearance when the first support unit and the second support unit are connected, and includes ion-exchange membranes disposed at one end and the other end thereof in the direction of arrangement of the substrates for permitting passage of ions and blocking passage of part of the electrolyte solution in the substrate holder and part of the electrolyte solution in the storage tank. 3. The apparatus according to claim 1 wherein the first support elements support lower portions of the circumferential surfaces which correspond to chords shorter than diameters of the substrates. 4. The apparatus according to claim 1 wherein the fulcrums are located in positions at a bottom of the storage tank. 5. The apparatus according to claim 1 further comprising a pair of covers for opening and closing an upper opening of the storage tank, wherein the drive mechanism is used also as a cover drive mechanism for driving the pair of covers in opening and closing operations. 6. The apparatus according to claim 2 further comprising a pair of covers for opening and closing an upper opening of the storage tank, wherein the drive mechanism is used also as a cover drive mechanism for driving the pair of covers in opening and closing operations. 7. The apparatus according to claim 1 wherein the second support elements have exhaust passages extending from inner surfaces to outer surfaces thereof, with upper openings thereof located above a solution level in the storage tank. 8. The apparatus according to claim 1 wherein the first support elements have an elastic member applied to inner surfaces thereof, and grooves formed in positions where lower surfaces of the substrates are placed. 9. The apparatus according to claim 8 wherein the first support elements have guide pins arranged at opposite sides of each groove for guiding the substrates being placed and preventing turnover of the substrates. 10. The apparatus according to claim 9 wherein each of the guide pins has a base projecting from the elastic member, and a guide portion formed on an upper part of the base and projecting from the base toward one of the substrates. 11. The apparatus according to claim 1 wherein a junction between the left second support unit and the right second support unit has a notch pressing mechanism for pressing notches of the substrates through elastic members provided on inner surfaces of the left second support unit and the right second support unit. 12. The apparatus according to claim 11 wherein the notch pressing mechanism includes a slide member provided on one of the left second support unit and the right second support unit to be slidable toward centers of the substrates, and a pressing member provided on the other of the left second support unit and the right second support unit for pressing the slide member when the left second support unit and the right second support unit join each other. 13. The apparatus according to claim 7 wherein an elastic member provided on inner surfaces of the first support elements is harder than an elastic member provided on inner surfaces of the second support elements. 14. The apparatus according to claim 1 further comprising foamed materials provided for a junction between the left second support unit and the first support unit, and for a junction between the right second support unit and the first support unit. 15. An anodizing apparatus for causing an anodizing reaction on substrates immersed in an electrolyte solution, comprising: a storage tank for storing the electrolyte solution;a substrate holder mounted in the storage tank, and including a first support unit having a plurality of first support elements arranged in a direction of arrangement of the substrates for contacting and supporting, in a liquid-tight condition, only lower portions of circumferential surfaces of the substrates, and a second support unit attachable to and detachable from the first support unit and having a plurality of second support elements arranged in the direction of arrangement of the substrates for contacting and supporting, in a liquid-tight condition, remaining portions of the circumferential surfaces of the substrates other than the lower portions supported by the first support elements;a drive mechanism for separating the first support unit and the second support unit when placing the plurality of substrates in the substrate holder and when unloading the plurality of substrates from the substrate holder, and for connecting the first support unit and the second support unit after the plurality of substrates are placed in the substrate holder;wherein the second support unit includes a left second support unit having left second support elements as the second support elements for supporting left sides of the remaining portions of the circumferential surfaces of the substrates, and a right second support unit having right second support elements as the second support elements for supporting right sides of the remaining portions of the circumferential surfaces of the substrates. 16. The apparatus according to claim 15 wherein the left second support unit and the right second support unit have fulcrums, respectively, and have the first support unit in between, and are rockable away from each other when separating from the first support unit. 17. The apparatus according to claim 16 wherein the fulcrums are located in positions at a bottom of the storage tank. 18. The apparatus according to claim 1 wherein said first and second support units are constructed for contacting and supporting said circumferential surfaces of said substrates, in said liquid-tight condition, wherein said circumferential surfaces are circular. 19. The apparatus according to claim 1 wherein said first and second support units are constructed for contacting and supporting said circumferential surfaces of said substrates, in said liquid-tight condition, wherein said circumferential surfaces are square.
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이 특허에 인용된 특허 (3)
Fujiyama Yasutomo (Atsugi JPX) Ishii Mitsuhiro (Fujisawa JPX) Kanbe Senju (Kawasaki JPX) Yonehara Takao (Atsugi JPX) Takisawa Toru (Atsugi JPX) Okita Akira (Ayase JPX) Sakaguchi Kiyofumi (Atsugi JPX), Anodization apparatus with supporting device for substrate to be treated.
Moslehi, Mehrdad M.; Kramer, Karl-Josef; Wang, David Xuan-Qi; Kapur, Pawan; Nag, Somnath; Kamian, George D.; Ashjaee, Jay; Yonehara, Takao, Apparatus for forming porous silicon layers on at least two surfaces of a plurality of silicon templates.
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