All The Claims

1. A mill having a longitudinal axis and a direction of rotation thereabout comprising:
a front cutting end;
at least one first cutting edge extending rearwardly from the front cutting end and being adapted to generate a generally cylindrical outer envelope;
at least one second cutting edge extending rearwardly from the front cutting end and being adapted to generate a first generally frusto-conical outer envelope tapering radially outward when proceeding along the longitudinal axis away from the front cutting end; and
at least one third cutting edge extending rearwardly from the front cutting end and being adapted to generate a second generally frusto-conical outer envelope tapering radially inward when proceeding along the longitudinal axis away from the front cutting end.
2. The mill according to claim 1 further comprising a rear cutting end and wherein the generally cylindrical outer envelope has a cylindrical radius, the first generally frusto-conical outer envelope has a first taper termination radius adjacent the rear cutting end, the second generally frusto-conical outer envelope has a second taper front radius adjacent the front cutting end, and the first taper termination radius and the second taper front radius are at least approximately equal to the cylindrical radius.
3. The mill according to claim 1 further comprising a rear cutting end and wherein the generally cylindrical outer envelope has a cylindrical radius, the first generally frusto-conical outer envelope has a first taper front radius adjacent the front cutting end, the second generally frusto-conical outer envelope has a second termination radius adjacent the rear cutting end and the first taper front radius and the second termination radius are less than the cylindrical radius.
4. A mill having a longitudinal axis and a direction of rotation thereabout comprising:
a forwardly facing cutting portion face;
a front cutting portion extending longitudinally from the forwardly facing cutting portion face to a rear termination; and
a plurality of helical teeth comprising:
at least a first helical tooth integrally formed along at least a portion of the front cutting portion and having a first peripheral cutting edge adapted to generate a generally cylindrical outer envelope as the mill rotates;
at least a second helical tooth integrally formed along at least a portion of the front cutting portion and having a second peripheral cutting edge adapted to generate a first generally frusto-conical outer envelope tapering radially outward when proceeding along the longitudinal axis away from the cutting portion face; and
at least a third helical tooth integrally formed along at least a portion of the front cutting portion and having a third peripheral cutting edge adapted to generate a second generally frusto-conical outer envelope tapering radially inward when proceeding along the longitudinal axis away from the cutting portion face.
5. The mill according to claim 4 wherein:
the cylindrical outer envelope has a generally cylindrical radius;
the first generally frusto-conical outer envelope has a termination radius adjacent the rear termination;
the second generally frusto-conical outer envelope has a front radius adjacent the cutting portion face; and
wherein the termination radius and the front radius are at least approximately equal to the cylindrical radius.
6. The mill according to claim 4 wherein the plurality of helical teeth comprise an even number of helical teeth.
7. The mill according to claim 4 wherein at least two first peripheral cutting edges disposed opposite of each other generate the generally cylindrical outer envelope.
8. The mill according to claim 7 wherein at least one of the second peripheral cutting edge and the third peripheral cutting edge is disposed between the at least two first peripheral cutting edges.
9. A mill having a longitudinal axis and a direction of rotation thereabout comprising:
a cutting portion having a front cutting end;
a plurality of inserts secured around a perimeter of the cutting portion;
each of the plurality of cutting inserts comprising a peripheral edge extending rearwardly from a front corner adjacent the front cutting end to a rear corner;
each peripheral edge being adapted to generate a corresponding outer envelope as the mill rotates; and
wherein a first corresponding outer envelope comprises a generally cylindrical outer envelope, and a second corresponding outer envelope comprises a frustro-conical outer envelope tapering radially outward when proceeding along the longitudinal axis away from the front cutting end.
10. The mill according to claim 9 wherein the first corresponding outer envelope has a cylindrical radius and the second corresponding outer envelope has a taper termination radius adjacent the rear corner that is at least approximately equal to the cylindrical radius.
11. The mill according to claim 9 further comprising a third corresponding outer envelope comprising a frustro-conical outer envelope tapering radially inward when proceeding along the longitudinal axis away from the front cutting end.
12. The mill according to claim 11 wherein the first corresponding outer envelope has a cylindrical radius and the third corresponding outer envelope has a front radius adjacent the front corner that is at least approximately equal to the cylindrical radius.
13. The mill according to claim 9 wherein the plurality of inserts comprises at least six inserts.
14. The mill according to claim 9 wherein at least two peripheral cutting edges disposed opposite of each other generate the generally cylindrical outer envelope.
15. The mill according to claim 14 wherein at least one peripheral cutting edge adapted to generate at least one of a group comprising the second corresponding outer envelope and the third corresponding outer envelope is disposed between the at least two first peripheral disposed opposite of each other generating the generally cylindrical outer envelope.
16. The mill according to claim 9 wherein at least some of the plurality of cutting inserts may be removed from the front cutting end.
17. The mill according to claim 9 wherein all of the cutting inserts are substantially identical.
18. A mill having a longitudinal axis and a direction of rotation thereabout comprising:
a cutting portion having a front cutting end;
a plurality of pockets around a perimeter of the front cutting end;
each of the plurality of pockets adapted to releasably secure a cutting insert;
at least a first pocket of the plurality of pockets adapted such that a peripheral edge of a cutting insert secured in the first pocket generates a corresponding cylindrical first outer envelope as the mill rotates;
at least a second pocket of the plurality of pockets adapted such that a peripheral edge of a cutting insert secured in the second pocket generates a corresponding frustro-conical second outer envelope tapering radially outward when proceeding along the longitudinal axis away from the front cutting end as the mill rotates;
at least a third pocket of the plurality of pockets adapted such that a peripheral edge of a cutting insert secured in the third pocket generates a corresponding frustro-conical third outer envelope tapering radially inward when proceeding along the longitudinal axis away from the front cutting end as the mill rotates.
19. The mill according to claim 18 wherein the first outer envelope has a cylindrical radius and the second outer envelope has a taper termination radius adjacent a rear corner of a peripheral edge of an insert releasably secured into the second pocket that is at least approximately equal to the cylindrical radius.
20. The mill according to claim 18 wherein the first outer envelope has a cylindrical radius and the third outer envelope has a front radius adjacent a front corner of a peripheral edge of an insert releasably secured into the third pocket that is at least approximately equal to the cylindrical radius.
21. The mill according to claim 18 wherein at least two first pockets are disposed opposite of each other on the front cutting end.
22. The mill according to claim 18 wherein at least one of a group comprising at least one of the second pockets and at least one of the third pockets is disposed between the at least two first pockets.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A system for generating a help message in a computer, the system comprising:
an interface unit connected to an external device and configured to have a configuration module to determine identification information regarding each of a plurality of functions of a particular one of a plurality of objects included in a particular one of a plurality of software versions, and characteristic data regarding the particular software version; and
a universal help file unit to communicate with the interface unit and to store a universal help file including all of the function descriptions corresponding to the plurality of software versions provided in the computer, to receive the identification information and the characteristic data, and to generate a help message to be displayed in a display unit regarding the particular object using the function descriptions according to the identification information and the characteristic data,
wherein the function descriptions comprise a section filled with the characteristic data.
2. The system of claim 1, further comprising:
a control module to receive the identification information and the characteristic data from the configuration module and transmitting them to the universal help file unit.
3. The system of claim 2, wherein:
the universal help file comprises a plurality of file fragments corresponding to the plurality of objects, each of the file fragments comprising a help message generator and the function descriptions corresponding to the software versions, the help message generator generating the help message regarding the particular object using the function descriptions according to the identification information and the characteristic data; and
the control module selects one of the file fragments corresponding to the particular object based on the identification information and the characteristic data, and transmits the identification information and the characteristic data to the selected file fragment.
4. The system of claim 3, wherein the help message generator deletes descriptions of functions that the particular object does not have, according to the identification information, and inserts the characteristic data into a section of the function descriptions to generate the help message.
5. The system of claim 1, further comprising:
an input device to request to provide the help message regarding the particular object included in the particular software version.
6. The system of claim 1, further comprising:
a display device to display the help message generated by the universal help file.
7. The system of claim 1, wherein the characteristic data comprises at least one of a name and an Internet address of a manufacturer of the particular software version.
8. The system of claim 1, wherein the plurality of software versions are formed in software, and the software comprises a printer driver.
9. The system of claim 1, wherein the universal help file generates the help file according to a setting value indicating one of the functions provided by one of a plurality of image forming apparatuses.
10. A method of generating a help message for an object of a software version in a system including a computer, the method comprising:
receiving a request to provide a help message regarding a particular one of a plurality of objects included in a particular one of a plurality of software versions;
determining identification information regarding each of a plurality of functions of the particular object, and characteristic data regarding the particular software version; and
generating the help message regarding the particular object using one or more function descriptions according to the identification information and the characteristic data in a universal help file,
wherein the universal help file includes a plurality of function descriptions corresponding to the plurality of software versions provided in the computer.
11. The method of claim 10, wherein the generating of the help message comprises:
deleting descriptions of functions that the object does not have from the function descriptions according to the identification information; and
inserting the characteristic data into a corresponding section in the function descriptions.
12. The method of claim 10, further comprising displaying the generated help message.
13. The method of claim 10, wherein the generating of the help message comprises:
forming the help message according to a setting value indicating a function provided by one of a plurality of image forming apparatuses.

1. A method for specializing in a delegated specialization system for any type of content, wherein said delegated specialization system provides a page created by a defined administration level which is defined by a page identification (ID), a defined layout comprising at least one container, wherein said container is assigned by an identification to a defined layer, and by an identification to an existing parent container, immutable parts of said defined layout, and access rights of the next level of administration, the method comprising the steps of:
specializing said defined layer by modifying its changeable parts resulting in a delta to said defined layer representing a new layer and assigning identification to said new layer, said identification including the identification of said defined layer,
storing said delta in a layer table,
defining parts of said delta to be unchangeable by the next administration level, and
granting access rights to said delta to the next administration level for specialization purposes.
2. The method performed by claim 1 including the further step:
repeating said steps by a next level of administration.
3. The method performed by claim 2, wherein said new layer comprises container(s) with or without frame(s) being assigned by an identification to parent container(s) of a previous layer.
4. The method according to claim 3, wherein said layers are being stored in a so-called tree-structure.
5. The method performed by said delegated specialization system according to claim 1, wherein said content may be presented in a form of a Web Page, a Portal Page, or a text document of a text processing system.
6. The method performed by said delegated specialization system according to claim 5, wherein said Portal Page is provided by a portal system, wherein said portal system comprises an authentication component for user authentication, an authorization component 40 for providing user access to authorized content, portlets for rendering content, an aggregation component 30 for aggregation of content provided by said portlets.
7. The method according to claim 1, wherein said delta is characterized by delete, add, or move one or more containers or frames with respect to said defined layer.
8. The method according to claim 6, wherein to a portlet ID is assigned to each frame.
9. The method performed by said delegated specialization system according to claim 1, wherein said defined administration level may be the first administration level and said defined layout page may be a basic layout (first layer).
10. The method performed by a delegated specialization system according to claim 5, wherein said Portal Page and said Home Page is additionally defined by page title and page description.
11. The method performed by a delegated specialization system according to claim 1, wherein said specializing step comprises the steps delete, add, and move of containers or frames.
12. The method performed by a delegated specialization system according to claim 1, wherein each newly added layer is added to an existing layer table which contains layer IDs, their parent layer Ids, and their assigned page ID.
13. The method performed by a delegated specialization system according to claim 7, wherein each newly added container is added in an existing container table which contains container Ids, their parent container Ids, and their assigned layer IDs.
14. The method performed by a delegated specialization system according to claim 7, wherein delete a container is added in an existing container table by indicating a terminator which is applied to the container to be deleted.
15. The method performed by a delegated specialization system according to claim 7, wherein move of a container is added in an existing container table by indicating the container to be replaced and the new parent.
16. A method for electronically displaying a page being created by a method according to claim 13, comprising the steps of:
receiving input from a user requesting a page,
determining layers belonging to said page by using said layer table,
determining and loading on a layer by layer basis all containers and frames belonging to said layers by using said container table,
assembling said containers and frames by starting with the first layer and connecting all containers and frames according to their parent relationship (tree-structure), and
visualizing said containersframes by rendering said containers and frames according to their parent-relationship of said tree-structure.
17. The method according to claim 16, wherein said page is a Portal Page and said assembling step further includes the step to assign portlet IDs to each frame and said visualizing step further includes the step to render content to be provided by said portlets.
18. A portal comprising:
an authentication component for user authentication,
an authorization component for providing user access to authorized content,
portlets for rendering content,
an aggregation component for aggregation of content provided by said portlets,
characterized by a further delegated specializing system which is configured to execute the method according to claim 1.
19. A text processing system using a delegated specializing system which is configured to execute the method according to claim 1.
20. A text processing system according to claim 19, wherein said container may represent chapter and said frame may represent paragraphs.
21. A computer program product stored on a computer readable media, containing parts of program code to execute the method in accordance with claim 1.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A method for producing a worn article in which a pair of side panels each including two sheet-like materials and elastic threads sandwiched between the two sheet-like materials are attached to a main body portion, the method comprising the steps of:
feeding the elastic threads between a pair of sheet-like materials along a flow direction of the pair of sheet-like materials so as to obtain a laminate to be the side panels, wherein the elastic threads are continuous in the flow direction of the sheet-like materials and shrinks in the flow direction; thereafter
cutting the laminate along a predetermined wave-shaped first cut-off line extending in the flow direction and having peaks and troughs alternate with each other to produce first and second divided laminates, which are separated from each other in a width direction of the sheet-like materials; thereafter
cutting the first divided laminate along a second cut-off line extending in the width direction in each of the troughs of the wave-shaped first cut-off line and also along a third cut-off line extending in the width direction in each of the peaks of the wave-shaped first cut-off line to obtain a pair of first cut panels adjacent to each other in the third cut-off line;
cutting the second divided laminate along a fourth cut-off line extending in the width direction in each of the troughs of the wave-shaped first cut-off line and also along a fifth cut-off line extending in the width direction in each of the peaks of the wave-shaped first cut-off line to obtain a pair of second cut panels adjacent to each other in the fifth cut-off line;
changing an attitude of the pair of first cut panels to an attitude that is obtained by a rotation of about 90 degrees with respect to the flow direction after the step of obtaining the first cut panels;
changing an attitude of the pair of second cut panels to an attitude that is obtained by a rotation of about 90 degrees with respect to the flow direction after the step of obtaining the second cut panels;
spacing the attitude-changed pair of first cut panels apart from each other in the width direction, which is generally perpendicular to the flow direction, after the step of changing the attitude of the pair of first cut panels;
spacing the attitude-changed pair of second cut panels apart from each other in the width direction, which is generally perpendicular to the flow direction, after the step of changing the attitude of the pair of second cut panels;
attaching the pair of first cut panels whose attitude has been changed and spaced apart from each other to a sheet-like member to be the main body portion, one on a left side and the other on a right side of the sheet-like member after the steps of changing the attitude of the pair of first cut panels and spacing the attitude-changed pair of first cut panels apart from each other;
attaching the pair of second cut panels whose attitude has been changed and spaced apart from each other to the sheet-like member to be the main body portion, one on the left side and the other on the right side of the sheet-like member after the steps of changing the attitude of the pair of second cut panels and spacing the attitude-changed pair of second cut panels apart from each other.
2. A method for producing a worn article in which a pair of side panels are attached to a left side and a right side of a main body portion, the method comprising the steps of:
cutting a continuous sheet-like laminate, the laminate comprising elastic threads along a flow direction of the laminate between a pair of sheet-like materials, which is being carried, along a first cut-off line extending in the flow direction to form first and second divided laminates, the first cut-off line having a wave shape of a predetermined wavelength and having peaks and troughs alternate with each other; thereafter
cutting the first divided laminate at a predetermined interval in the flow direction along a second cut-off line extending in a width direction of the laminate perpendicular to the flow direction in each of the peaks of the wave-shaped fist cut-off line and also along a third cut-off line extending in the width direction in each of the troughs of the wave-shaped first cut-off line to produce, for every iteration of the wavelength, a first cut panel and a second cut panel being generally in line symmetry with each other;
cutting the second divided laminate at a predetermined interval in the flow direction along a fourth cut-off line extending in the width direction in each of the peaks of the wave-shaped fist cut-off line and also along a fifth cut-off line extending in the width direction in each of the troughs of the wave-shaped first cut-off line to produce, for every iteration of the wavelength, a third cut panel and a fourth cut panel being generally in line symmetry with each other;
spacing the first cut panel and the second cut panel apart from each other in the flow direction after the step of producing the first and second cut panels;
spacing the third cut panel and the fourth cut panel apart from each other in the flow direction after the step of producing the third and fourth cut panels;
changing an attitude of each of the first and second cut panels to an attitude that is obtained by a rotation of about 90 degrees with respect to the flow direction after the step of spacing the first and second cut panels apart from each other;
changing an attitude of each of the third and fourth cut panels to an attitude that is obtained by a rotation of about 90 degrees with respect to the flow direction after the step of spacing the third and fourth cut panels apart from each other;
increasing a distance between the first cut panel and the second cut panel in a width direction of the laminate, which is generally perpendicular to the flow direction after the step of changing the attitude of the first and second cut panels;
increasing a distance between the third cut panel and the fourth cut panel in the width direction of the laminate after the step of changing the attitude of the third and fourth cut panels;
attaching the first cut panel on a left side and the second or third cut panel on a right side of a sheet-like member to be the main body portion, and attaching the fourth cut panel on the left side and the third or second cut panel on the right side of the sheet-like member to be the main body portion after the steps of increasing the distance between the first and second cut panels and increasing the distance between the third and fourth cut panels.
3. A method for producing a worn article according to claim 2, further comprising a step of aligning the first cut panel and the fourth cut panel with each other in the flow direction while aligning the second cut panel and the third cut panel with each other in the flow direction.
4. A method for producing a worn article according to claim 2, wherein in the step of cutting the continuous sheet-like laminate to form the first and second divided laminates, the divided laminates are formed with a phase of the first divided laminate being shifted from that of the second divided laminate in the flow direction by one half of the wavelength.
5. A method for producing a worn article according to claim 1, wherein each of the first and second cut panels forms a side panel without being trimmed.
6. A method for producing a worn article according to claim 1, further comprising a step of attaching a fastening element to the laminate, the fastening element being used for fastening the side panels to the main body portion when the worn article is worn,
wherein in the step of cutting the laminate to obtain the cut panels, the fastening element, together with the laminate, is cut into two pieces so that each cut panel includes at least a cut-off fastening element.
7. A method for producing a worn article according to claim 1, wherein the elastic threads exert a contractile force on the laminate in a contractile portion, and wherein non-contractile portions extending in a direction perpendicular to the flow direction and having no contractile force exerted thereon are formed in the laminate at a predetermined interval in the flow direction, and, in the step of cutting the laminate to obtain the cut panels, the laminate is cut along each non-contractile portion so that each of the cut panels includes at least a part of the non-contractile portion, and in the step of attaching the pair of cut panels to the sheet-like member to be the main body portion, a part of the non-contractile portions of the cut panels is attached to the sheet-like member.
8. A method for producing a worn article according to claim 1, wherein in the step of feeding the elastic threads to obtain the laminate to be the side panels, the elastic threads are fed between the pair of sheet-like materials while the elastic threads are being extended in the flow direction to produce the laminate, and
after producing the laminate, the elastic threads of the laminate or the cut panels are relaxed so as to form gathers in the laminate or the cut panels.