IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0056421
(2002-01-24)
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발명자
/ 주소 |
- Kinosz, Michael J.
- Meyer, Thomas N.
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출원인 / 주소 |
|
대리인 / 주소 |
Schuster, Christian E.Topolosky, Gary P.
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인용정보 |
피인용 횟수 :
8 인용 특허 :
26 |
초록
▼
The melter furnace includes a heating chamber (16), a pump chamber (18), a degassing chamber (20), and a filter chamber (22). The pump chamber (18) is located adjacent the heating chamber (16) and houses a molten metal pump (30). The degassing chamber (20) is located adjacent and in fluid communicat
The melter furnace includes a heating chamber (16), a pump chamber (18), a degassing chamber (20), and a filter chamber (22). The pump chamber (18) is located adjacent the heating chamber (16) and houses a molten metal pump (30). The degassing chamber (20) is located adjacent and in fluid communication with the pump chamber (18), and houses a degassing mechanism (36). The filter chamber (22) is located adjacent and in fluid communication with the degassing chamber (20). The filter chamber (22) includes a molten metal filter (38). The melter furnace (12) is used to supply molten metal to an externally located holder furnace (14), which then recirculates molten metal back to the melter furnace (12).
대표청구항
▼
The melter furnace includes a heating chamber (16), a pump chamber (18), a degassing chamber (20), and a filter chamber (22). The pump chamber (18) is located adjacent the heating chamber (16) and houses a molten metal pump (30). The degassing chamber (20) is located adjacent and in fluid communicat
The melter furnace includes a heating chamber (16), a pump chamber (18), a degassing chamber (20), and a filter chamber (22). The pump chamber (18) is located adjacent the heating chamber (16) and houses a molten metal pump (30). The degassing chamber (20) is located adjacent and in fluid communication with the pump chamber (18), and houses a degassing mechanism (36). The filter chamber (22) is located adjacent and in fluid communication with the degassing chamber (20). The filter chamber (22) includes a molten metal filter (38). The melter furnace (12) is used to supply molten metal to an externally located holder furnace (14), which then recirculates molten metal back to the melter furnace (12). e primary file, then the content is identified as embedded within the primary file; in the event that the primary file contains content that is a user-authored picture in a VML file and having no tag, then the content is identified as embedded within the primary file; in the event that the primary file contains a user-authored hyperlink identified in the new file list, then the content is identified as embedded within the primary file; in the event that the primary file contains content that is a user-authored frame having a certain CSS property for a tag set to a true state, then the content is identified as embedded within the primary file; and in the event that the primary file contains content that is a user-authored sound or movie identified by the new file list, then the content is identified as embedded within the primary file; otherwise, the content associated with the primary file is linked to the primary file. 3. The computer-readable medium of claim 1, wherein the step of creating the support file comprises: identifying the type of content for the embedded file represented by the support file; assigning the unique identifier to the support file based on the identified type of content for the embedded file; selecting a storage configuration for the support file; and storing the support file on the storage mechanism in the selected storage configuration. 4. The computer-readable medium of claim 3, wherein the step of assigning a unique identifier to the support file comprises: for the identified type of content for the embedded file represented by the support file, determining whether a single instance of the support file exists for the primary file; in the event that a single instance of the support file exists for the primary file, then assigning a fixed string as the unique identifier for the support file; otherwise, assigning a combination of a fixed string and a unique instance number as the unique identifier for the support file. 5. The computer-readable medium of claim 3, wherein the step of selecting a storage configuration for the support file comprises: determining whether the storage configuration for the support file is a flat file layout; if the storage configuration for the support file is a flat file layout, then creating a directory having a directory identifier defined by an identifier for the primary file prepended to the assigned identifier for the support file and storing the support file on the storage mechanism within the directory identified by the directory identifier, otherwise, creating a folder having a folder identifier defined by a combination of the identifier for the primary file and a local file term and storing the support file on the storage mechanism in the folder identified by the folder identifier. 6. The computer-readable medium of claim 1, wherein the new file list is stored on the storage mechanism as a file separate from the primary file and is linked to the primary file by a hyperlink. 7. The computer-readable medium of claim 6, wherein the new file list is referenced in the primary file by an HTML tag. 8. The computer-readable medium of claim 1, wherein the identifier assigned to the support file and maintained within the new file list comprises a unique file name for the support file and a link between the primary file and the support file. 9. The computer-readable medium of claim 1 further comprising computer-executable instructions for performing the steps comprising: in response to opening the primary file, opening each support file identified by the new file list, thereby presenting a user with the impression that content embedded within the primary file has been opened by opening the primary file. 10. A computer-implemented method for managing content embedded within a primary file in response to saving the primary file in HyperText Markup Language (HTML) format, comprising the steps of: in response to in itiating an HTML save operation of the primary file, saving the content of each file embedded within the primary file to a storage mechanism by creating a support file that is separate from the primary file; creating a file list for the primary file that comprises an entry for each support file associated with the primary file, each file list entry identifying the support file and representing a link between the primary file and the support file, and saving the file list for use with subsequent operations involving the primary file. 11. The computer-implemented method of claim 10, further comprising the step of inserting into the primary file an HTML tag comprising a reference to the file list, the HTML tag providing a link between the primary file and the file list. 12. The computer-implemented method of claim 11, further comprising the steps of: after completing the HTML save operation for the primary file, opening the primary file and reading the HTML tag for the file list; and opening each support file identified by the file list, thereby presenting the user with the impression that content embedded within the primary file has been opened as a result of opening the primary file. 13. The computer-implemented method of claim 10, wherein the step of saving the content of each file embedded within the primary file to a storage mechanism by creating a support file comprises: identifying the type of the content for the embedded file represented by the support file; assigning a unique identifier to the support file based on the identified type of content for the embedded file; selecting a storage configuration for the support file; and storing the support file on the storage mechanism in the selected storage configuration. 14. The computer-implemented method of claim 13 wherein the step of assigning a unique identifier to the support file comprises: for the identified type of content for the embedded file represented by the support file, determining whether a single instance of the support file exists for the primary file; in the event that a single instance of the support file exists for the primary file, then assigning a fixed string as the unique identifier for the support file; otherwise, assigning a combination of a fixed string and a unique instance number as the unique identifier for the support file. 15. The computer-implemented method of claim 14, wherein the step of selecting a storage configuration for the support file comprises: determining whether the storage configuration for the support file is a flat file layout; if the storage configuration for the support file is a flat file layout, then creating a directory having a directory identifier defined by an identifier for the primary file prepended to the assigned identifier for the support file and storing the support file on the storage mechanism within the directory identified by the directory identifier, otherwise, creating a folder having a folder identifier defined by a combination of the identifier for the primary file and a local file term and storing the support file on the storage mechanism in the folder identified by the folder identifier. 16. A computer-implemented method for mananaging content embedded within a primary file in response to saving the primary file in HyperText Markup Language (HTML) format, comprising the steps of: conducting an inquiry during a current save operation to determine whether a prior file list is available for the primary file, the prior file list identifying each support file stored as a separate file on a storage mechanism and representing content embedded within the primary file at the time of a prior save operation; if the prior file list is available, comparing each support file identified in the prior file list to a current file list identifying each support file stored as a separate file on a storage mechanism and representing content embedded within the primary fi
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