Claims
- 1. An ink jet head comprising:a plurality of ink nozzles for ejecting ink; a plurality of ink chambers respectively communicating with a corresponding one of said ink nozzles; ink supply channels respectively supplying ink to a corresponding one of said ink chambers; elastically deformable diaphragms respectively formed in a wall of a corresponding one of said ink chambers; and a plurality of sets of electrodes for ejecting ink droplets from said ink nozzles by charging between said electrodes and said diaphragms and discharging therefrom; wherein each of said sets of electrodes comprises a main electrode opposing a corresponding one of said diaphragms with a first gap therebetween, said main electrode separated from the other main electrodes for the other diaphragms so as to charge between said main electrode and the corresponding diaphragm independently of the other main electrodes for the other diaphragms, and a sub-electrode opposing a corresponding one of said diaphragms with a second gap therebetween, said sub-electrode electrically connected with other sub-electrodes for the other diaphragms.
- 2. An ink jet head according to claim 1, wherein each main electrode and the corresponding diaphragm form a set of first capacitors, each first capacitor being selectively charged and discharged in accordance with a printing pattern, and wherein each sub-electrode and the corresponding diaphragm form a set of second capacitors.
- 3. An ink jet head according to claim 2, wherein each of said main and sub-electrodes includes an opposed portion formed of ITO and oppositely disposed to said diaphragms, and a lead portion electrically connected with said opposed portion, and wherein at least said lead portion is formed of metal.
- 4. An ink jet head according to claim 3, wherein said metal is composed of gold formed on chromium or titanium.
- 5. An ink jet head according to claim 3, wherein said metal is formed of chromium, titanium, aluminum, or platinum.
- 6. An ink jet head according to claim 2, wherein each of a first time constant of a circuit constituted by said first capacitor and a second time constant of a circuit constituted by said second capacitor is much smaller than a natural vibration period of the corresponding one of said ink channels.
- 7. A method for driving an ink jet head as defined in claim 2 so that ink droplets are ejected from said ink nozzles, comprising the step of charging/discharging said second capacitors so that ink in said ink nozzles is vibrated.
- 8. A method for driving an ink jet head as defined in claim 2, comprising the steps of:charging/discharging said first capacitors so as to eject ink droplets from said ink nozzles; and charging/discharging said second capacitors so that said ink droplets ejected from said ink nozzles are separated from ink remaining in said ink chambers.
- 9. A method for driving an ink jet head as defined in claim 2, comprising the step of charging/discharging said first capacitors so as to eject ink droplets in succession from said ink nozzles, wherein said first capacitors are charged when a following ink droplet is ejected immediately after ejecting a previous ink droplet so that said previous ink droplet is separated from ink remaining in said ink chambers.
- 10. A method for driving an ink jet head as defined in claim 2, comprising the steps of charging/discharging said first capacitors in combination with said second capacitors for controlling an amount of ink droplets ejected from said ink nozzles.
- 11. An ink jet head according to claim 2, wherein each of said main and sub-electrodes includes an opposed portion formed of ITO and oppositely disposed to said diaphragms, and a lead portion electrically connected with said opposed portion, and wherein at least said lead portion comprises a metal thin film and an ITO thin film formed on said metal thin film.
- 12. An ink jet head according to claim 11, wherein said metal thin film is formed of chromium, titanium, silver, or an alloy thereof.
- 13. An ink jet head according to claim 1, wherein said first gap is different than said second gap.
- 14. An ink jet head according to claim 13, wherein said first gap is larger than said second gap.
- 15. An ink jet head according to claim 1, wherein each of said sub-electrodes includes a first sub-electrode commonly provided for said plurality of diaphragms so as to face said diaphragms on an ink nozzle side, and one or a plurality of second sub-electrodes commonly provided for a plurality of said diaphragms so as to be disposed between said main electrode and said first sub-electrode.
- 16. An ink jet head according to claim 1, further comprising a plurality of units each having a predetermined number of main electrodes and sub-electrodes, provided for a predetermined number of said diaphragms.
- 17. An ink jet head according to claim 16, wherein every adjacent two units are disposed to be symmetrical with respect to a boundary line between said two adjacent units.
- 18. An ink jet printer having an ink jet head, said head comprising:a plurality of ink nozzles for ejecting ink; a plurality of ink chambers respectively communicating with a corresponding one of said ink nozzles; ink supply channels respectively supplying ink to a corresponding one of said ink chambers; elastically deformable diaphragms respectively formed in a wall of a corresponding one of said ink chambers; and a plurality of sets of electrodes for ejecting ink droplets from said ink nozzles by charging between said electrodes and said diaphragms and discharging therefrom; wherein each of said sets of electrodes comprises a main electrode opposing a corresponding one of said diaphragms with a first gap therebetween, said main electrode separated from the other main electrodes for the other diaphragms so as to charge between said main electrode and the corresponding diaphragm independently of the other main electrodes for the other diaphragms, and a sub-electrode opposing a corresponding one of said diaphragms with a second gap therebetween, said sub-electrode electrically connected with other sub-electrodes for the other diaphragms.
- 19. An ink jet printer according to claim 18, wherein each main electrode and the corresponding diaphragm form a set of first capacitors, each first capacitor being selectively charged and discharged in accordance with a printing pattern, and wherein each sub-electrode and the corresponding diaphragm form a set of second capacitors.
- 20. An ink jet printer according to claim 19, further comprising:a main electrode driving circuit for electrically charging/discharging said first capacitors so that ink droplets are ejected from said ink nozzles; and a sub-electrode driving circuit for electrically charging/discharging said second capacitors in a predetermined period or at a predetermined time so that ink in said ink nozzles is vibrated.
- 21. An ink jet printer according to claim 19, comprising:a main electrode driving circuit for electrically charging/discharging said first capacitors that ink droplets are ejected from said ink nozzles; and a sub-electrode driving circuit for electrically charging/discharging said second capacitors at a predetermined time after discharging said first capacitors, so that ink ejected from said ink nozzles is separated from ink remaining in said ink chambers.
Priority Claims (4)
Number |
Date |
Country |
Kind |
10-348699 |
Dec 1998 |
JP |
|
10-367499 |
Dec 1998 |
JP |
|
11-152261 |
May 1999 |
JP |
|
2000-000646 |
Jan 2000 |
JP |
|
CROSS REFERENCE TO RELATED APPLICATION
This application is a continuation-in-part of U.S. application Ser. No. 09/601,833, filed on Aug. 7, 2000, which is a 371 of PCT/JP99/06816, filed Dec. 6, 1999, the contents of which are incorporated by reference herein.
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Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
09/601833 |
|
US |
Child |
09/754533 |
|
US |