All The Claims

1. A system comprising:
a communication device, having a portable computer-driven part, accessing a file system that includes a plurality of files, each file being representative of a compressed version of a sound, and collectively having the capability of accessing any of said plurality of sounds,
said portable computer driven part detecting an indication that there is an event in said communication device, detecting a type of said event,
said portable computer detecting said type of said event by detecting an incoming call as a first event at a first time, and selecting and playing a first one of said compressed versions of said sounds responsive to detecting said incoming call as said first event to indicate said first event, and detecting an appointment reminder time as a second event at a second time, and selecting and playing a second one of said compressed versions of said sounds responsive to detecting said appointment reminder as said second event to indicate said second event.
2. A system as in claim 1, wherein said computer automatically extracts a melody line from said compressed version media by determining tones representing musical notes that are part of the compressed version media, and said sound is only said melody line, and not the actual compressed version media.
3. A system as in claim 1, wherein said compressed version is an MP3.
4. A system as in claim 1, wherein said computer-driven part dynamically selects a specified part of each sound according to parts of said each sound that has been played previously.
5. A system as in claim 1, wherein said computer-driven part determines which part of a sound was most recently played, and selects a most recently played part of the sound to indicate said event while excluding other parts of the sound from being played to indicate said event.
6. A system as in claim 1, wherein said computer-driven part allows selection of only a portion of the compressed sound represented by one of said files, and plays only the portion to indicate said event.
7. A method as in claim 6, further comprising detecting an indication of an incoming fax as a third event at a third time, and selecting and playing a third one of said compressed versions of said sounds responsive to detecting said incoming fax as said third event to indicate said third event.
8. A system as in claim 1, wherein said portable computer driven part further detecting said type of event by detecting an indication of an incoming fax as a third event at a third time, and selecting and playing a third one of said compressed versions of said sounds responsive to detecting said incoming fax as said third event to indicate said third event.
9. A method comprising:
detecting a specified event, using a computer-driven communication part, which specified event needs to be communicated to a user;
using said computer-driven communication part to read music from a compressed format;
using said computer-driven communication part to play at least of part of said music, to signal the specified event, where different music is played for different ones of said specified events, where a first specified event is an incoming call to a portable phone, and a first item of music from said compressed format is played to signal the incoming call as said first specified event; and
using said computer-driven communication part to maintain a calendar of appointments, wherein a second specified event signals one of said appointments, and a second item of music, different than said first item of music, from said compressed format is used to signal said appointment as said second specified event.
10. A method as in claim 9, wherein said using said computer-driven communication part to select comprises using said computer-driven communication part to extract a melody line from said media, by determining tones representing notes that are part of the music stored in the compressed format, and to play only said melody line to signal the specified event, where said using plays only said melody line, and not the actual music stored in the compressed format.
11. A method as in claim 8, further comprising using said computer-driven communication part to maintain a calendar of appointments, wherein said specified event signals one of said appointments, and a different music is used to signal the appointment than the music that is used to signal the incoming call.
12. A system comprising:
a communication device, having a portable computer-driven part, accessing a file system that includes a plurality of files, each file being representative of a compressed version of a song, and collectively having the capability of accessing any of said plurality of songs, said portable computer driven part detecting an indication that there is an incoming communication from said communication device, detecting information about said incoming communication, selecting one of said compressed versions of said songs to signal said communication based on said information, by playing a ring tone that is based on said one of said compressed versions, said computer-driven part allowing manual selection of only a portion of one of said compressed songs from said files, and wherein said playing a ring tone comprises playing only said portion of said song that was manually selected, to indicate said incoming communication represented by said information,
wherein said computer driven part controls said ring tone, and a first item of music from said compressed format is played to signal the ring tone; and
said computer-driven part maintains a calendar of appointments, wherein a second specified event signals one of said appointments, and a second item of music, different than said first item of music, from said compressed version of a song, is used to signal said appointment as said second specified event.
13. A system as in claim 12, wherein said computer automatically extracts a melody line from said compressed version song by determining tones representing notes that are part of the music stored in the compressed format, and said sound is only said melody line, and not playing of the actual compressed version media.
14. A system as in claim 12, wherein said compressed version is an MP3.
15. A method comprising:
detecting an event that needs to be signaled to a user, using a computer-driven communication part, which specified event needs to be communicated to a user;
using said computer-driven communication part to read music from a compressed format;
allowing a user to specify only a portion of said music to be used as an event communication signal; and
using said computer-driven communication part to play only said part of said music to signal the event and not to play the entirety of said music to signal the event, where different music is played for different ones of said events, and where a first specified event is an incoming call to a portable phone, and a first item of music from said compressed format is played to signal the incoming call as said first specified event; and
using said computer-driven communication part to maintain a calendar of appointments, wherein a second specified event signals one of said appointments, and a second item of music, different than said first item of music, from said compressed format is used to signal said appointment as said second specified event.
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 advertising a full size furniture item and enhancing consumer confidence when considering the furniture item purchase, comprising:
placing a graphic display of the furniture item next to the furniture item, and on a separate structure, at a retail location, wherein the graphic display shows the furniture item in a setting similar to that in which a purchaser will place the furniture item.
2. The method of claim 1, wherein the graphic display is printed on a medium selected from the group consisting of plain paper, glossy paper, poster board, and canvas.
3. The method of claim 1, wherein the graphic display is printed utilizing the Gicl\xe9e method.
4. The method of claim 1, wherein the graphic display is mounted on a frame.
5. The method of claim 4, wherein the frame is selected from the group consisting of a wooden frame, a plastic frame, and a metal frame.
6. The method of claim 4, wherein the graphic display is mounted on the frame as an artist wrap.
7. A method for advertising a full size furniture item, comprising:
preparing a graphic display image of a furniture item in an environment;
printing the graphic display,
framing the graphic display,
placing the graphic display next to the furniture item, on a separate structure.
8. The method of claim 7, wherein the graphic display is a photograph or a drawing of the household item in an environment.
9. The method of claim 7, wherein the graphic display is created on a computer.
10. The method of claim 7, wherein the printing step is accomplished utilizing the Gicl\xe9e method.
11. The method of claim 7, wherein the graphic display is mounted on a wooden frame, a plastic frame, or a metal frame.
12. The method of claim 10, wherein a border is placed on the graphic display.

What is claimed is:

1. A head protection air bag device having an air bag which is stored, while being folded, along the upper fringe of an opening on the cabin-inside or indoor side of a vehicle, when receiving inflation gas, said air bag developing and inflating to cover the opening,
wherein said air bag includes a gas-inflow section which inflates so as to separate a cabin-inside side wall and a cabin-outside side wall one from the other, and a non gas-inflow section which rejects inflation gas,
said gas-inflow section includes a plurality of inflatable protective shielding parts being disposed such that said inflatable protective shielding parts are longitudinally spaced from one another and cover said opening, and inflation communicating parts,
each said inflatable protective shielding part includes a plurality of inflating parts which are arranged in the longitudinal direction and vertically expand able so as to generate a tension in the longitudinal direction,
said non gas-inflow section includes a periphery part surrounding said non gas-inflow section,
a plate-like portion disposed between said inflatable protective shielding parts, and partitioning parts being vertically disposed and defining said inflation parts in said inflatable protective shielding parts, said inflation communicating parts are disposed in the lower fringe side of said air bag under said plate-like portion and along the lower fringe of said air bag,
said inflatable protective shielding parts, which are adjacently located with said plate-like portion being interposed therebetween, are communicated with each other by said inflation communicating part, and
the lower ends of said inflation parts are closed at the lower-edge side parts of the periphery parts.
2. Ahead protection air bag device according to claim 1, wherein one of the ends of said air bag is coupled to a body of the vehicle by coupling parts extending away from said gas-inflow section and said coupling parts are coupled to the lower-edge side part of the periphery parts at the completion of the developing and inflating operation.
3. Ahead protection air bag device according to claim 1, wherein said inflatable protective shielding parts, which are adjacently located with said plate-like portion being interposed therebetween, include inflow ports allowing said inflation gas to flow thereinto which are located above said plate-like portion.
4. A head protection air bag device having an air bag which is stored, while being folded, along the upper fringe of an opening on the cabin-inside or indoor side and on the side of seat recliners, and when receiving inflation gas, said air bag develops and inflates to cover the opening,
wherein said air bag includes a gas-inflow section through which said inflation gas is introduced into said air bag, and a periphery part surrounding said gas-inflow section,
said gas-inflow section is partitioned, by partitioningcoupling parts coupling the cabin-inside side wall with the cabin-outside side wall, into a plurality of inflation parts, which are arranged side by side in the longitudinal direction, and inflate when receiving said inflation gas so as to separate said cabin-inside side wall and the cabin-outside side wall one from the other, and
said inflation parts located on the side of said seat recliners serve as lower-end displacement inflation parts located such that the lower ends thereof are higher than the lower ends of said other inflation parts, thereby preventing it from interfering with the upper ends of said seat recliners.
5. A head protection air bag device according to claim 4, wherein parts of the periphery part, which are located under said lower-end displacement inflation parts of said air bag, are substantially level with parts of the periphery parts under the inflation parts, which are adjacent to said lower-end displacement inflation parts, in the lower edge height, when said air bag is developed to be flat in a non inflating state.
6. A head protection air bag device according to claim 4, wherein said gas-inflow section includes a front-seat inflow section and a rear-seat inflow section, which are respectively provided covering openings on the side of the front seat and rear seat,
said front-seat inflow section and said rear-seat inflow section include, respectively, lower-end displacement inflation parts corresponding to said front seat and said rear seat, and
a width dimension of said lower-end displacement inflation part of said front-seat inflow section as longitudinally viewed is larger than that of said lower-end displacement inflation part of said rear-inflow section as longitudinally viewed.
7. A head protection air bag device according to claim 4, wherein said air bag introduces said inflation gas thereinto both at the time of side collision and at the time of the roll-over.

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. Method for making a dry wiping cloth comprising using for making the cloth a spunbond non-woven product of filaments of polypropylene structured with structures of from 1 to 3 mm in diameter at a structuring level which indicates the ratio of the structured surface-area relative to the total surface-area of from 20 to 60%, the spacing between the structures, defined by the distance between the centres of the structures, being between 3 and 5 mm, the non-woven product having a traction tear strength in a first direction of between 100 and 150 N50 mm and, in a second direction, perpendicular relative to the first, between 80 and 120 N50 mm, as a dry wiping cloth.
2. Method for dry cleaning a surface, characterised in that the surface is wiped with a spunbond non-woven product of polypropylene filaments structured with structures of from 1 to 3 mm in diameter at a structuring level which indicates the ratio of the structured surface-area with respect to the total surface-area of from 20 to 60%, the spacing between the structures, defined by the distance between the centres of the structures, being between 3 and 5 mm, the non-woven product having a traction tear strength in a first direction of between 100 and 150 N50 mm and, in a second direction, perpendicular relative to the first, of between 80 and 120 N50 mm, as a dry wiping cloth.
3. Method according to claim 1 or 2, characterised in that the non-woven product has a traction tear strength in a first direction of between 110 and 130 N50 mm and, in a second direction perpendicular relative to the first, of between 90 and 110 N50 mm.
4. Method according to claim 1 or 2, characterised in that the filaments have a denier of between 1.8 and 2.2.
5. Method according to claim 1 or 2, characterised in that the structures are apertures.
6. Method according to claim 1 or 2, characterised in that the non-woven product has an elongation of between 80 and 140%10 N.
7. Method according to claim 1 or 2, characterised in that the non-woven product has a surface potential decline of between 100 and 150 V in 600 seconds.
8. Method according to claim 1 or 2, wherein a surface of metal, plastics material, ceramic material, glass or fabric is wiped.
9. Method for producing a non-woven product, wherein
a spunbond sheet with a face is prepared from filaments of polypropylene,
the sheet is consolidated by means of hydrobonding by applying jets of water to its face at a jet pressure of from 80 to 120 bar, to form a consolidated sheet,
characterised in that the consolidated sheet is structured by applying jets of water to the other face of the sheet at a pressure of from 180 to 220 bar, from an injector having three rows of jets having a diameter of from 100 to 140 \u03bcm, the spaces between the outlet orifices of the jets of the same row being between 0.5 mm and 1.5 mm, the distance between the straight line extending through the centres of the outlet orifices of a row and the straight line extending through those of an adjacent row being between 0.25 and 1.2 mm and the distance between the perpendicular line relative to the straight line of a row extending through one of the orifices thereof and the perpendicular line relative to the straight line of an adjacent row extending through the closest orifice of the one orifice is between 0.25 and 0.75 mm.
10. Production installation for a non-woven product, comprising:
a spunbond tower which conveys a sheet to a device for consolidation by means of jets of water which are projected onto one of the faces of the sheet in order to obtain a consolidated sheet which is conveyed to a structuring device, in particular to a perforating device, by means of jets of water, characterised in that the structuring device is arranged so as to project jets onto the other face of the consolidated sheet and comprises three rows of jets having a diameter of from 100 to 140 \u03bcm, the spaces between the outlet orifices of the jets in the same row being between 0.5 and 1.5 mm, the distance between the straight line extending through the centres of the outlet orifices of a row and the straight line extending through those of an adjacent row being between 0.25 and 1.2 mm and the distance between the perpendicular line relative to the straight line of a row which extends through one of the orifices thereof and the perpendicular line relative to the straight line of an adjacent row extending through the closest orifice of the one orifice being between 0.25 and 0.75 mm.
11. Non-woven product of filaments of polypropylene structured by means of structures, of from 1 to 3 mm in diameter at a structuring level which indicates the ratio of the structured surface-area relative to the total surface-area of from 20 to 60%, the spacing between the structures defined by the distances between the centres of the structures being between 3 and 5 mm, the non-woven product having a traction tear strength in a first direction of between 100 and 150 N50 mm and in a second direction perpendicular relative to the first of between 80 and 120 N50 mm and a grammage of between 30 and 60 g per m2, the potential decline being between 100 and 150 V.
12. Non-woven product according to claim 11, characterised in that the apertures do not have any filaments extending through them.
13. Non-woven product according to claim 11, characterised in that the spaces between the apertures have at the surface no loops formed by filaments.
14. Production installation for a non-woven product according to claim 10, wherein the structuring device is a perforating device.
15. Non-woven product of filaments of polypropylene according to claim 11, wherein said structures are apertures.