Voltage control device, voltage control method, and liquid injection device

Abstract

A voltage control device for a liquid injection head including: a waveform generator for setting drive waveform to be applied on the liquid injection head that injects a liquid from a nozzle by changing a drive voltage, wherein the waveform generator including a first drive waveform generator that outputs the first drive waveform for the liquid injection, and a second drive waveform generator that outputs the second drive waveform for the voltage correction; a selector that selects the drive waveform from the waveform generator to either one of the first drive waveform and the second drive waveform; a voltage determining device that determines voltage of the drive waveform set by the waveform generator; a voltage amplifier that boosts a voltage to be applied on the liquid injection head so as to be the voltage determined by the voltage determining device; a waveform amplifier that amplifies the drive waveform set by the waveform generator so that the voltage of the drive waveform is the voltage boosted by the voltage amplifier; a voltage reader that reads the voltage of the second drive waveform amplified by the waveform amplifier, and a voltage adjuster that compares the voltage of the second drive waveform read by the voltage reader with voltage determined by the voltage determining device, calculates a correction value from a result of the comparison, and adds correction to the voltage determined by the voltage determining device based on the correction value.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram showing an example of a liquid injection device relating to the first embodiment of the present invention.

FIG. 2 is a perspective view showing, with a partial sectional view, a schematic structure of a recording head of a shear mode type.

FIGS. 3 (a), (b), and (c) diagrams showing operations of the recording head.

FIGS. 4 (a), (b), and (c) are drawings showing examples of waveforms.

FIG. 5 is a flow chart showing an example of a voltage control method of the present invention.

FIG. 6 is a block diagram showing an example of a voltage control device relating to the second embodiment of the present invention.

FIG. 7 is a drawing showing an example of the selector which selects the maximum voltage.

FIG. 8 is a flow chart showing an example of a voltage control method of the present invention.

FIG. 9 is a block diagram showing an example of a voltage control device relating to the prior art.

FIG. 10 is a block diagram showing an example of a voltage control device relating to the third embodiment of the present invention.

FIG. 11 is a flow chart showing an example of a voltage control method of the present invention.

FIG. 12 is a block diagram showing an example of a voltage control device relating to the fourth embodiment of the present invention.

FIG. 13 is a drawing showing an example of the selector which selects the maximum voltage.

FIG. 14 is a block diagram showing an example of a voltage control device relating to the fifth embodiment of the present invention.

FIG. 15 is a flow chart showing an example of a voltage control method of the present invention.

FIG. 16 is a block diagram showing an example of a voltage control device relating to the sixth embodiment of the present invention.

FIG. 17 is a flow chart showing an example of a voltage control method of the present invention.

FIG. 18 is a block diagram showing an example of a voltage control device relating to the seventh embodiment of the present invention.

FIG. 19 is a block diagram showing an example of a voltage control device relating to the eighth embodiment of the present invention.

FIG. 20 is a drawing showing an example of the waveform generator.

FIG. 21 is a drawing showing an example of the selector which selects the maximum voltage.

FIG. 22 is a flow chart showing an example of a voltage control method of the present invention.

Claims

1. A voltage control device for a liquid injection head comprising: a waveform generator for setting drive waveform to be applied on the liquid injection head that injects a liquid from a nozzle by changing a drive voltage, wherein the waveform generator including a first drive waveform generator that outputs the first drive waveform for the liquid injection, and a second drive waveform generator that outputs the second drive waveform for the voltage correction;a selector that selects the drive waveform from the waveform generator to either one of the first drive waveform and the second drive waveform;a voltage determining device that determines voltage of the drive waveform set by the waveform generator;a voltage amplifier that boosts a voltage to be applied on the liquid injection head so as to be the voltage determined by the voltage determining device;a waveform amplifier that amplifies the drive waveform set by the waveform generator so that the voltage of the drive waveform is the voltage boosted by the voltage amplifier;a voltage reader that reads the voltage of the second drive waveform amplified by the waveform amplifier, and a voltage adjuster that compares the voltage of the second drive waveform read by the voltage reader with voltage determined by the voltage determining device, calculates a correction value from a result of the comparison, and adds correction to the voltage determined by the voltage determining device based on the correction value.

2. A voltage control device for liquid injection heads comprising: a waveform generator for setting drive waveform to be applied, by changing a drive voltage, on the liquid injection heads for injecting liquid or on the nozzles included in the head for injecting liquid, wherein the waveform generator including a first drive waveform generator that outputs a first drive waveform for the liquid injection, and a second drive waveform generator that outputs a second drive waveform for the voltage correction;a first selector that selects the drive waveform from the waveform generator to either one of the first drive waveform and the second drive waveform;a voltage determining device that determines voltage of the drive waveform set by the waveform generator;a plurality of voltage amplifiers for boosting a voltage to be applied on the liquid injection heads or on the nozzles so as to be the voltage determined by the voltage determining device;a plurality of drive waveform amplifiers for amplifying each of the drive waveforms set by the waveform generator so that the voltage of the drive waveform is the voltage boosted by the voltage amplifier;a second selector for selecting a voltage of the second drive waveform to be corrected from a plurality of voltages of each of the drive waveforms amplified by the drive waveform amplifier;a voltage reader that reads the voltage selected by the second selector; anda voltage adjuster that compares the voltage of the second drive waveform read by the voltage reader with voltage determined by the voltage determining device, calculates a correction value from a result of the comparisons and adds correction to the voltage determined by the voltage determining device based on the correction value.

3. The voltage control device of claim 2, wherein the second selector selects the maximum voltage from the plurality of voltages of each of the drive waveforms amplified by the drive waveform amplifier, and the voltage determining device determines voltage so that the voltage of the drive waveform to be corrected is the maximum voltage in the plurality of voltages of each of the drive waveforms amplified by the drive waveform amplifier.

4. The voltage control device of claim 3, wherein the second selector includes: a plurality of signal wires which read voltages amplified by the waveform amplifier, are connected through wired OR connection, and are outputted to the voltage reader by a single signal wire.

5. The voltage control device of claim 3, wherein the second selector is composed of a diode array.

6. The voltage control device of claim 2, wherein the second drive waveform is a direct current waveform.

7. The voltage control device of claim 2, further comprising: a reference voltage generator for generating a reference voltage, wherein the voltage adjuster compares the voltage selected by the second selector with the reference voltage generated by the reference voltage generator.

8. The voltage control device of claim 2, further comprising: a voltage divider for dividing voltage of waveform outputted from the second selector and inputting the divided voltage to the voltage adjustor.

9. The voltage control device of claim 2, wherein the waveform generator further comprises a third drive waveform generator for generating a third drive waveform having an amplitude value smaller than that of the second drive waveform, and the first selector selects the third drive waveform as a drive voltage applied on the liquid injection head to be corrected or nozzle to be corrected.

10. A voltage control method for a liquid injection head comprising the steps of: a waveform generating step for setting drive waveform including a first drive waveform for the liquid injection and a second drive waveform for a voltage correction to be applied on the liquid injection head that injects a liquid from a nozzle by changing a drive voltage;a selecting step for switching the drive waveform to either one of the first drive waveform and the second drive waveform;a voltage determining step for determining voltage of the drive waveform set by the a waveform generating step;a voltage amplifying step for boosting a voltage to be applied on the liquid injection head so as to be the voltage determined by the voltage determining step;a waveform amplifying step for amplifying the drive waveform set by the waveform generating step so that the voltage of the drive waveform is the voltage boosted by the voltage amplifying step;a voltage reading step for reading the voltage of the drive waveform amplified by the waveform amplifying step; anda voltage adjusting step for comparing the voltage of the first waveform read by the voltage reading step with voltage determined by the voltage determining step, calculating a correction value from a result of the comparison, and adding correction to the voltage determined by the voltage determining step based on the correction value.

11. A voltage control method for liquid injection heads comprising the steps of: a waveform generating step for setting drive waveforms including a first drive waveform for the liquid injection and a second drive waveform for a voltage correction to be applied, by changing a drive voltage, on the liquid injection heads for injecting liquid or on the nozzles included in the head for injecting liquid;a first selecting step for selecting the drive waveform from the waveform generator to either one of the first drive waveform and the second drive waveform;a voltage determining step for determining voltage of the drive waveform set by the waveform generating step;a voltage amplifying step for boosting a voltage to be applied on the liquid injection heads or on the nozzles so as to be the voltage determined by the voltage determining step;a drive waveform amplifying step for amplifying each of the drive waveforms set by the waveform generating step so that the voltage of the drive waveform is the voltage boosted by the voltage amplifying step;a second selecting step for selecting a voltage of the second drive waveform to be corrected from a plurality of voltages of each of the drive waveforms amplified by the drive waveform amplifying step;a voltage reading step for reading the voltage selected by the second selecting step; anda voltage adjusting step for comparing the voltage of the first waveform read by the voltage reading step with voltage determined by the voltage determining step, calculating a correction value from a result of the comparison, and adding correction to the voltage determined by the voltage determining step based on the correction value.

12. The voltage control method of claim 11, wherein the second selecting step selects the maximum voltage from the plurality of voltages of each of the drive waveforms amplified by the drive waveform amplifying step, and the voltage determining step determines voltage so that the voltage of the drive waveform to be corrected is the maximum voltage in the plurality of voltages of each of the drive waveforms amplified by the drive waveform amplifying step.

13. The voltage control method of claim 11, further comprising the step of: a reference voltage generating step for generating a reference voltage, wherein the voltage adjusting step compares the voltage of the second waveform selected by the second selecting step with the reference voltage generated by the reference voltage generating step.

14. The voltage control method of claim 11, further comprising the steps of: a voltage dividing step for dividing voltage of the waveform selected by the second selecting step, anda inputting step for inputting the divided voltage for the voltage adjusting step.

15. The voltage control device of claim 11, wherein the waveform generated by the waveform generating step including a third drive waveform having an amplitude value smaller than that of the second drive waveform, and the first selecting step selects the third drive waveform as a drive voltage applied on the liquid injection head to be corrected or nozzle to be corrected.

16. A liquid injection device comprising: A plurality of liquid injection heads including nozzles for injecting liquid;a waveform generator for setting drive waveform to be applied, by changing a drive voltage, on the liquid injection heads or on the nozzles for injecting liquid, wherein the waveform generator includes a first drive waveform generator that outputs a first drive waveform for the liquid injection and a second drive waveform generator that outputs a second drive waveform for the voltage correction;a first selector that selects the drive waveform from the waveform generator to either one of the first drive waveform and the second drive waveform;a voltage determining device that determines voltage of the drive waveform set by the waveform generator;a plurality of voltage amplifiers for boosting a voltage to be applied on the liquid injection heads or on the nozzles so as to be the voltage determined by the voltage determining device;a plurality of drive waveform amplifiers for amplifying each of the drive waveforms set by the waveform generator so that the voltage of the drive waveform is the voltage boosted by the voltage amplifier;a second selector for selecting a voltage of the second drive waveform to be corrected from a plurality of voltages of each of the drive waveforms amplified by the drive waveform amplifier;a voltage reader that reads the voltage selected by the second selector, anda voltage adjuster that compares the voltage of the second waveform read by the voltage reader with voltage determined by the voltage determining device, calculates a correction value from a result of the comparison, and adds correction to the voltage determined by the voltage determining device based on the correction value.