JP2000255055A5 - - Google Patents

Description

[0013]
[Means for Solving the Problems]
The object of the present invention is
A plurality of channels provided with a plurality of ink channels separated by side walls and a nozzle connected to the ink channels are provided, a part or the whole of the side walls is made of piezoelectric material, and the channels are driven by printing pulses Then, the channels of the ink jet head for causing the ink to fly are divided into units of n in one unit in the arrangement order, and each of the channels belonging to each of the units is driven within one cycle, one cycle at n cycles. In the driving method of an ink jet head in which a driving cycle is configured, when the channel of the same cycle belonging to the unit adjacent to the selected channel is non-emitting, one or more of the above-mentioned ejections are placed next to the selected channel. Method of driving an ink jet head characterized by applying a dummy pulse to at least one of the channels of
Achieved by Also,
A plurality of channels provided with a plurality of ink channels separated by side walls and a nozzle connected to the ink channels are provided, a part or the whole of the side walls is made of piezoelectric material, and the channels are driven by printing pulses Then, the channels of the ink jet head for causing the ink to fly are divided into units of n in one unit in the arrangement order, and each of the channels belonging to each of the units is driven within one cycle, one cycle at n cycles. In the driving method of an ink jet head in which a driving cycle is configured, when the channel of the same cycle belonging to the unit adjacent to the selected channel is non-emitting, one or more of the above-mentioned ejections are placed next to the selected channel. Method of driving an ink jet head, characterized in that only one side wall of at least one of the channels of
Or
A plurality of channels provided with a plurality of ink channels separated by side walls and a nozzle connected to the ink channels are provided, a part or the whole of the side walls is made of piezoelectric material, and the channels are driven by printing pulses Then, the channels of the ink jet head for causing the ink to fly are divided into units of n in one unit in the arrangement order, and each of the channels belonging to each of the units is driven within one cycle, one cycle at n cycles. In the driving method of an ink jet head in which a driving cycle is configured, when the channel of the same cycle belonging to the unit adjacent to the selected channel is non-emitting, one or more of the above-mentioned ejections are placed next to the selected channel. A method of driving an ink jet head characterized by applying a dummy pulse to two adjacent channels of
Thus, the object of the present invention is achieved.

[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Actually, as an example of the printing pulse used to fly the ink droplet from the nozzle, each cycle T is 25 μs, the pulse voltage is +20 V, and the pulse width is about 5 μs. As described above, in the conventional driving method, the velocity of the ink droplet flying from each nozzle differs depending on the pattern of the image signal due to the crosstalk. Therefore, in the present embodiment, in addition to the printing pulse, the ink droplet does not fly but the side wall is deformed, and an appropriate dummy pulse for utilizing crosstalk is adjacent to the channel to which the printing pulse is applied. Means for compensating for the change in the flight velocity of the ink droplet by applying the voltage to the The dummy pulse uses, for example, a pulse having a voltage of about 10 V, which is about half of the printing pulse. That is, three types of pulses of a printing pulse (+20 V), a dummy pulse (+10 V), and a pulse of 0 V are used for a non-flying channel. The voltage level may be offset from 0 V, since the deformation of the side wall is caused by the difference between the voltage applied to the adjacent channel.

[0021]
【Effect of the invention】
When driving a shear mode ink jet head, in the case of simultaneously driving a plurality of channels in the conventional three cycles, the mutual channels are affected by the pressure change, causing cross talk and the ink droplet flying speed is high. However, when only a single channel is driven, the flight velocity of the ink droplet in that channel is slowed, resulting in disorder of the ink droplet volume and the like, and there is a problem in the formation of a clear image. Although it is sufficient to increase the number of drive cycles and eliminate the mutual influence of channels in order to eliminate this crosstalk, there is a problem that the recording speed is lowered. However, according to the present invention, the dummy pulse is applied to the adjacent channel in one or more of the channels to which the printing pulse is applied, the above problem is solved by utilizing the influence of crosstalk, and the image forming speed is reduced. Thus, an inkjet head recording apparatus capable of forming a clear image at high speed is realized.

Claims (9)

A plurality of channels provided with a plurality of ink channels separated by side walls and a nozzle connected to the ink channels are provided, a part or the whole of the side walls is made of piezoelectric material, and the channels are driven by printing pulses Then, the channels of the ink jet head for causing the ink to fly are divided into units of n in one unit in the arrangement order, and each of the channels belonging to each of the units is driven within one cycle, one cycle at n cycles. In the driving method of an ink jet head in which a driving cycle is configured, when the channel of the same cycle belonging to the unit adjacent to the selected channel is non-emitting, one or more of the above-mentioned ejections are placed next to the selected channel. A method of driving an ink jet head, comprising applying a dummy pulse to at least one of the channels. The method according to claim 1, wherein the channel to which the dummy pulse is applied is a channel excluding a channel driven in the same cycle as the selected channel. 3. The method of driving an ink jet head according to claim 1, wherein the dummy pulse is applied at the same timing as the printing pulse for driving the selected channel for ejection. 3. The method of driving an ink jet head according to claim 1, wherein the dummy pulse is applied at the same timing as the printing pulse for driving the selected channel for ejection. The method of driving an ink jet head according to any one of claims 1 to 4, wherein the number n of channels constituting the unit is n = 3. A plurality of channels provided with a plurality of ink channels separated by side walls and a nozzle connected to the ink channels are provided, a part or the whole of the side walls is made of piezoelectric material, and the channels are driven by printing pulses Then, the channels of the ink jet head for causing the ink to fly are divided into units of n in one unit in the arrangement order, and each of the channels belonging to each of the units is driven within one cycle, one cycle at n cycles. In the driving method of an ink jet head in which a driving cycle is configured, when the channel of the same cycle belonging to the unit adjacent to the selected channel is non-emitting, one or more of the above-mentioned ejections are placed next to the selected channel. And driving at least one side wall of at least one of the channels. A plurality of channels provided with a plurality of ink channels separated by side walls and a nozzle connected to the ink channels are provided, a part or the whole of the side walls is made of piezoelectric material, and the channels are driven by printing pulses Then, the channels of the ink jet head for causing the ink to fly are divided into units of n in one unit in the arrangement order, and each of the channels belonging to each of the units is driven within one cycle, one cycle at n cycles. In the driving method of an ink jet head in which a driving cycle is configured, when the channel of the same cycle belonging to the unit adjacent to the selected channel is non-emitting, one or more of the above-mentioned ejections are placed next to the selected channel. A method of driving an ink jet head, comprising applying a dummy pulse to two adjacent channels of 8. The method according to claim 7, wherein the dummy pulse applied to the two adjacent channels has a voltage lower than the voltage of the printing pulse. 8. The method according to claim 7, wherein the dummy pulse applied to the two adjacent channels is the same voltage as the voltage of the printing pulse.

Images