Ink-jet apparatus and method of estimating and controlling temperature of ink-jet head thereof
First Claim
Patent Images
1. An ink-jet apparatus having an ink-jet head provided with a plurality of heating elements for each respective ejection orifice, each said plurality of heating elements being combinable into groups of one or more heating elements and generating thermal energy used for ejecting ink, said ink-jet apparatus comprising:
- counting means for counting a driving frequency within a predetermined period of time for each said group of heating elements selectively driven when ejecting ink;
correcting means for correcting the count value for each said group using a predetermined correction value that corresponds to a relative amount of energy applied to drive each said group;
combining means for summing the corrected count values resulting in a summed value; and
temperature estimating means for estimating a change of temperature of said ink-jet head based on the summed value.
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Abstract
In an ink-jet apparatus for forming images through use of an ink-jet head provided with a plurality of ink ejection heaters with respect to only one ejection orifice, an accurate estimation of temperature of the ink-jet head is made possible by controlling ink-ejection amount in a step-by-step manner. For this purpose, there is provided a device for counting frequency of use of the plurality of heaters within a predetermined period of time independently for each combination of the heaters for ejecting different amount of ink (in steps S1002, S1003), and a combining device for adding a correction value to each of the thus counted value on the basis of the heater driving condition, and converting the total value into the energy applied within a predetermined period (in steps S1008, S1004 and S1005). The estimation of temperature is performed by use of the thus obtained energy.
39 Citations
18 Claims
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1. An ink-jet apparatus having an ink-jet head provided with a plurality of heating elements for each respective ejection orifice, each said plurality of heating elements being combinable into groups of one or more heating elements and generating thermal energy used for ejecting ink, said ink-jet apparatus comprising:
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counting means for counting a driving frequency within a predetermined period of time for each said group of heating elements selectively driven when ejecting ink;
correcting means for correcting the count value for each said group using a predetermined correction value that corresponds to a relative amount of energy applied to drive each said group;
combining means for summing the corrected count values resulting in a summed value; and
temperature estimating means for estimating a change of temperature of said ink-jet head based on the summed value. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
means for converting said summed value obtained by said correcting means into a set of i values Δ
Qi (i≧
1) that correspond to a thermal amount applied to said ink-jet head within said predetermined period of time;
means for multiplying a predetermined value Di by a value Δ
Ti(n−
1) that corresponds to an accumulated thermal amount of said ink-jet head before said predetermined period of time;
means for adding each said value Δ
Qi to a respective resultant value of said multiplying means;
means for recording a resultant value of said adding means as a set of values Δ
Ti(n) that corresponds to an accumulated thermal amount of said ink-jet head; and
means for calculating a change of temperature from said set of values Δ
Ti(n).
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4. An ink-jet apparatus as claimed in claim 1, said temperature estimating means further comprising:
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means for obtaining a series of values of change of temperature of said ink-jet head at intervals corresponding to said predetermined period of time based on the summed value; and
means for obtaining a total change of temperature of said ink-jet head by accumulating said series of values of change of temperature.
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5. An ink-jet apparatus as claimed in claim 1, further comprising:
means for setting a driving condition of said plurality of heating elements based on said change of temperature within said predetermined period of time for each said respective group of heating elements.
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6. An ink-jet apparatus as claimed in claim 5, said setting means further comprising:
means for changing the driving condition of said plurality of heating elements within said predetermined period of time for each said group of heating elements.
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7. An ink-jet apparatus as claimed in claim 6, further comprising means for detecting an ambient temperature of said ink-jet head,
wherein said changing means modifies the driving condition of said plurality of heating elements within said predetermined period of time for each said group of heating elements based on the ambient temperature. -
8. An ink-jet apparatus as claimed in claim 5, said correcting means further comprising:
means for correcting said count value for each said group of heating elements based on the driving condition of said plurality of heating elements within said predetermined period of time.
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9. An ink-jet apparatus as claimed in claim 1, wherein said heating elements are electrothermal transducers for causing film boiling of the ink through electrical conduction.
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10. A method for estimating the temperature of an inkjet head provided with a plurality of heating elements for each respective ejection orifice, each said plurality of heating elements being combinable into groups of one or more heating elements and generating thermal energy used for ejecting ink, said method comprising:
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counting a driving frequency within a predetermined period of time for each said group of heating elements which are selectively driven when ejecting ink;
correcting the count value for each said group using a predetermined correction value that corresponds to a relative amount of energy applied to drive each said group;
summing the corrected values resulting in a summed value; and
estimating a change of temperature of said ink-jet head based on said summed value. - View Dependent Claims (11, 12, 13)
converting said summed value into a set of i values Δ
Qi (i≧
1) that correspond to a thermal amount applied to said ink-jet head within said predetermined period of time;
multiplying a predetermined value Di by a value Δ
Ti(n−
1) that corresponds to an accumulated thermal amount of said ink-jet head before said predetermined period of time;
adding each said value Δ
Qi to a respective resultant value of the multiplying step;
recording a resultant value of said adding step as a set of values Δ
Ti(n) that corresponds to an accumulated thermal amount of said ink-jet head; and
calculating a change of temperature from said set of values Δ
Ti(n).
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13. A method for estimating temperature of an inkjet head as claimed in claim 10, said step estimating a change of temperature further comprising:
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obtaining a series of values of change of temperature of said ink-jet head at intervals corresponding to said predetermined period of time based on the summed value; and
obtaining a total change of temperature of said ink-jet head by accumulating said series of values of change of temperature.
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14. A method for estimating the temperature of an inkjet head provided with a plurality of heating elements for each respective ejection orifice, each said plurality of heating elements being combinable into groups of one or more heating elements and generating thermal energy used for ejecting ink, said method comprising:
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counting a driving frequency within a predetermined period of time for each group of heating elements which are selectively driven when ejecting ink, correcting the count value for each said group using a predetermined correction value that corresponds to a relative amount of energy applied to drive each said group;
summing the corrected values resulting in a summed value;
estimating a change of temperature of said ink-jet head based on said summed value, and setting a driving condition of said plurality of heating elements based on said change of temperature within said predetermined period of time for each said respective group of heating elements. - View Dependent Claims (15, 16, 17, 18)
correcting said count value for each said group of heating elements based on the driving condition of said plurality of heating elements within said predetermined period of time.
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18. A method for estimating the temperature of an ink-jet head as claimed in claim 14, wherein said heating elements are electrothermal transducers for causing film boiling of the ink through electrical conduction.
Specification
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Current AssigneeCanon Kabushiki Kaisha (Canon Inc.)
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Original AssigneeCanon Kabushiki Kaisha (Canon Inc.)
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InventorsOtsuka, Naoji, Takahashi, Kiichiro, Nishikori, Hitoshi, Iwasaki, Osamu
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Primary Examiner(s)Tran, Huan
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Assistant Examiner(s)MOUTTET, BLAISE L
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Application NumberUS09/059,266Time in Patent Office1,281 DaysField of Search347/14, 347/17, 347/194, 347/195, 347/196, 347/19, 347/15US Class Current347/17CPC Class CodesB41J 2/04533 controlling a head having s...B41J 2/04536 using history dataB41J 2/0454 involving calculation of te...B41J 2/04553 detecting ambient temperatureB41J 2/04565 detecting heater resistanceB41J 2/0458 controlling heads based on ...B41J 2/04598 Pre-pulse
