This application is based upon and claims the benefit of priority from the prior Japanese Application No. 2003-193320, filed on Jul. 8, 2003, the entire contents of which are incorporated herein by reference.
1. Field of the Invention
The present invention relates to an ink jet recording apparatus and an ink jet head.
2. Discussion of the Background
Conventionally, an ink jet recording apparatus such as an ink jet printer discharges ink from nozzles as ink droplets by pressurizing ink in an pressure chamber, attaches the ink droplets to a recording medium thereby forms an image.
In this apparatus, ink discharge failure may occur due to clogging in the nozzles or occurrence of bubbles in the pressure chamber. The ink discharge failure causes poor printing on a recording medium.
To solve this problem, a method of providing a filter in an ink supply channel communicating with the pressure chamber has been proposed (See Japanese Published Unexamined Patent Application No. Hei 2-1324). In this method, a filter where a pore size is 0.5 μm or smaller is employed. By using this filter, foreign materials which cause clogging in the nozzles or small particles as cores of bubbles occur in the pressure chamber can be removed, thus the occurrence of discharge failure of water-based ink can be prevented.
However, in a case where pigment ink having an particle diameter of average 100 to 400 nm is used in the ink jet recording apparatus, the filter having the pore size of 0.5 μm or smaller becomes a strong obstruction in the ink flowing through the ink supply channel and delays the speed of filtration of the ink, and as a result, delays the ink supply to the ink jet head, i.e., the pressure chamber. In such case, ink discharge failure may occur.
Accordingly, the present invention provides an ink jet recording apparatus and an ink jet head which reliably suppress the occurrence of ink discharge failure.
The object of the present invention is achieved by the novel ink jet recording apparatus and ink jet head.
According to the novel ink jet recording apparatus. and ink jet head of the present invention, a filter for ink filtration, with a pore size of 2.5 to 5.8 μm, is provided in an ink supply channel to supply ink to the ink jet head. The ink flowing through the ink supply channel is quickly filtered with this filter.
A more complete appreciation of the present invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:
A preferred embodiment of the present invention will now be described in detail in accordance with the accompanying drawings.
As shown in
The ink tank 3 is a tank containing ink supplied to the ink jet head 2. That is, the ink tank 3 functions as a ink reservoir containing ink. The ink in the ink tank 3 is supplied by driving of the liquid pump 4, via the filter unit 5 and the ink reservoir 6, to the ink jet head 2. As the ink, oil-based liquid ink is used, and as coloring material, pigment is used.
As shown in
Accordingly, the ink flowing from the inflow opening 5a is temporarily stored in the filter unit 5, gradually infiltrates toward the inside of the filter F, passes through the filter F and goes out from the outflow opening 5b. In this arrangement, in the ink filtered with the filter F, foreign materials which cause clogging in nozzles 8 and small particles as cores of bubbles occurring in the ink jet head 2 are removed.
In the ink reservoir 6, the ink filtered by the filter unit 5 is temporarily stored, and further, negative pressure is applied to the ink in the nozzles 8 by utilizing a water head difference “h” between the surface of ink inside the ink reservoir and the nozzles 8 provided in the ink jet head 2. The operation of the negative pressure prevents leakage of the ink from the nozzles 8. The ink reservoir 6 functions as an ink container containing ink. Note that in a case where the filter unit 5 is provided in the middle of the ink pipe 7d, the negative pressure is similarly applied to the ink in the nozzles 8. Further, in this embodiment, the ink reservoir 6 is provided in the ink jet recording apparatus 1, however, the present invention is not limited to this arrangement. For example, the ink reservoir 6 may be omitted.
As shown in
The oscillation plate 12 and the piezoelectric members 13 form an actuator. The piezoelectric members 13 are electrically connected to output terminal of a driving signal generation circuit 14. Note that as the piezoelectric member 13, a piezoelectric device (piezo device) is employed, however, the present invention is not limited to the piezoelectric device. The oscillation plate 12, the piezoelectric members 13 and the driving signal generation circuit 14 construct driving means for discharging the ink in the pressure chambers 10 from the nozzles 8 as ink droplets.
The common ink chamber 11 is provided with an ink supply port 15 as an opening connected to the ink pipe 7d for ink supply. Further, the plural nozzles 8 are formed in approximately straight line in the nozzle plate 9. The ink jet head 2 is arranged such that the ink is discharged from the nozzles 8 in the nozzle plate 9 as ink droplets.
In the ink jet head 2 having the above construction, a driving signal is applied from the driving signal generation circuit 14 to the piezoelectric members 13, to deform the piezoelectric members 13, thereby the oscillation plate 12 is oscillated. The oscillation changes the capacities of the pressure chambers 10. In the process of increase in the capacity of the pressure chambers 10, the ink in the common ink chamber 11 is sucked by the pressure chambers 10, and in the process of decrease in the capacity of the pressure chambers 10, the ink in the pressure chambers 10 is discharged from the nozzles 8 toward the outside as ink droplets.
Note that in the present embodiment, the piezoelectric member 13 is used as the actuator, however, the present invention is not limited to the piezoelectric member. For example, a heat generator may be used as the actuator. In this case, the ink jet head discharges ink from the nozzles 8 as ink droplets by boiling ink by the heat generator.
The CPU 21 is connected to the ink jet head 2 via an ink jet head control circuit 27, to the conveyance unit 25 via a conveyance unit control circuit 28, to the carriage 26 via a carriage control circuit 29, and to the liquid pump 4 via a pump control circuit 30. Note that the ink jet head control circuit 27 includes the driving signal generation circuit 14. Further, the CPU 21 is connected to an external device (not shown) such as a personal computer via a communication I/F (interface) 31.
The ink jet recording apparatus 1 having the above construction records (prints) an image on the recording medium, by moving the carriage 26 holding the ink jet head 2 from a home position (stand-by position) in the main scanning direction while conveying the recording medium in the subscanning direction by the conveyance unit 25 and drive-controlling the ink jet head 2, based on image data received from the external device via the communication I/F 31.
As the filter F of the present embodiment, the filter F having the pore size of 2.2 to 5.8 μm is used. That is, as ink is quickly filtered and supplied to the ink jet head 2 without delay by using the filter F with the pore size of 2.2 to 5.8 μm, the occurrence of ink discharge failure can be reliably suppressed. That is, the ink jet head 2 can perform continuous discharging in a stable manner. Further, by using the filter F especially having a pore size of 2.5 to 3.0 μm, the occurrence of ink discharge failure can be more reliably suppressed.
In the present embodiment, the filter F having the pore size of 2.2 to 5.8 μm is used in the ink jet recording apparatus 1. Next, the results of experiments as the ground of the selection of the above filter will be described.
First, 5 types of filter F having pore sizes of 1.5 μm, 2.5 μm, 3.0 μm, 5.0 μm and 8.0 μm were prepared, and the filters F were respectively attached to the above-described ink jet recording apparatus 1 and subjected to a printing experiment. As ink used in the printing experiments, oil-based pigment ink was used. The composition of the oil-based pigment ink is as follows.
Note that the particle diameter of the pigment as coloring material is average 100 to 400 nm. Further, as the pigment, carbon black, for example, was used.
The printing experiment was made by continuously performing printing by the ink jet recording apparatus 1 for a predetermined period of, e.g., 10 hours, and counting the number of “omission” nozzles 8 by 1 hour. Note that upon execution of continuous printing, control was performed to move the carriage 26 (i.e., the ink jet head 2) from the home position to a predetermined position, and continuously discharge ink from all the nozzles 8 of the ink jet head 2 while conveying the recording medium by the conveyance unit 25. Further, “omission” means a status where ink is not discharged from the nozzle 8 since the nozzle 8 is clogged with ink, and as a result, the ink is not attached to the recording medium. In the present embodiment, the number of nozzles 8 of the ink jet head 2 is, e.g., 318. Considering continuous and large-quantity printing, under the above-described printing condition, it is desirable that the omission ratio is 1.0 or lower. The printing experiments were performed for the purpose of selecting the range of the filter pore size to attain the omission ratio of 1.0 or lower.
As shown in
On the other hand, in a case where the filters with the pore sizes of 1.5 μm and 8.0 μm are used, the omission ratio is greater than 1.0. It is understood that the occurrence of omission, i.e., the occurrence of ink discharge failure can not be suppressed. Further, in a case where the filter having the pore size of 1.5 μm is used, since the pore size is the smallest, the removal of particles in ink must be improved. However, the omission ratio is 2.0, and it is understood that the occurrence of omission, i.e., the occurrence of ink discharge failure can not be reliably suppressed.
Accordingly, the filter F with the pore size of 2.2 to 5.8 μm is used in the ink jet recording apparatus 1, thereby ink can be quickly filtered and supplied to the ink jet head 2 without delay. Further, as the ink is filtered with the filter F, foreign materials which cause clogging in the nozzles 8 and small particles which become cores of bubbles can be excellently removed. Even in use of oil-based pigment ink, the occurrence of ink discharge failure can be reliably suppressed. Further, by using the filter F with the pore size of 2.5 to 3.0 μm, the occurrence of ink discharge failure can be more reliably suppressed.
Note that in the present embodiment, as the ink is oil-based pigment ink, i.e., the ink tank 3 as the ink container contains oil-based pigment ink, the suppression of the occurrence of ink discharge failure can be further improved. Further, blur or color-fade out of ink attached to a recording medium such as a print sheet can be suppressed in comparison with dye ink or the like. Further, the pigment of the oil-based pigment ink is carbon black and the particle diameter of the pigment of the oil-based pigment ink is average 100 to 400 mn, the suppression of the occurrence of ink discharge failure can be further improved.
Further, the ink in the pressure chambers 10 was filtered with the filter F having the pore size of 2.2 to 5.8 μm. That is, foreign materials and small particles are removed from the ink, and the ink can be quickly supplied to the pressure chambers 10. Thus the occurrence of ink discharge failure can be reliably suppressed. Further, the occurrence of ink discharge failure can be more reliably suppressed by using the filter F with the pore size of 2.5 to 3.0 μm.
Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of appended claims, the invention may be practiced otherwise than as specifically described herein.
Number | Date | Country | Kind |
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2003-193320 | Jul 2003 | JP | national |