Liquid jet printing head and liquid jet printing apparatus...

Details Liquid jet printing head and liquid jet printing apparatus... Liquid jet printing head and liquid jet printing apparatus...

1996-11-25

2001-11-20

Pendegrass, Joan (Department: 2852)

Incremental printing of symbolic information

Ink jet

Ejector mechanism

C347S047000

Reexamination Certificate

active

06318842

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to an improvement in a liquid jet printing head for conducting recording by discharging and flying through a liquid discharging outlet recording liquid (usually, ink) to form a liquid droplet, resulting in depositing on the surface of a recording material (in the following, this liquid jet printing head also may be called a “liquid jet recording head”). More particularly, the present invention relates to an improved liquid jet printing head in which a peripheral area of the discharging outlets has a specific surface treatment applied thereto.
The present invention also relates to a liquid jet printing apparatus provided with the improved liquid jet printing head. Further, the present invention includes a process for producing the improved liquid jet printing head.
RELATED BACKGROUND ART
Of the presently known various printing systems, the ink jet printing system has been evaluated as a very effective non-impact printing system in that printing can be conducted at a high speed while substantially not causing noise.
A typical ink jet printing head used in the ink jet printing system is of the configuration shown in FIG.
2
.
In
FIG. 2
, reference numeral
1
indicates a substrate for an ink jet printing head. The substrate is constituted by a glass, aluminum or silicon material. Reference numeral
4
indicates liquid pathways formed by joining the substrate
1
to a top plate
2
provided with a plurality of grooves which define liquid pathways. In each of the liquid pathways
4
, there is installed an energy generating element
3
for generating energy for discharging ink. Reference numeral
7
indicates a nozzle plate provided with a plurality of discharging outlets
7
a
each being communicated with the corresponding liquid pathway
4
. The nozzle plate
7
is joined to the assembly comprising the substrate
1
and the top plate
2
to establish an ink jet printing head.
In the ink jet printing head thus configured, when printing is conducted by discharging ink droplets through the discharging outlets of the ink jet printing head, part of those ink droplets are sometimes dropped to deposit on the discharging outlet face at which the discharging outlets are arranged. There is a tendency that such an ink deposit on the discharging outlet face comes to contact with ink droplets successively discharged from the discharging outlets, causing the flying direction of the ink droplets discharged to be deviated, and or the ink deposit causes a load to the ink droplets discharged and so reduces their discharge speed. These phenomena are apparently found in the case where the ink discharging is conducted at high frequency. And, in the case of the high speed printing system in which ink discharging is conducted at a frequency of 10,000 or more times per second, the occurrence of these phenomena causes serious problems such that not only the ink discharging direction but also the ink discharging speed are varied and in addition to this, in the worst case, the foregoing ink deposits on the discharging outlet face sometimes plug up the discharging outlets to prevent ink droplets from being discharged from the discharging outlets.
In order to prevent these problems from occurring, there is a proposal of applying a water repellent treatment at peripheral portions of the arrangement of the discharging outlets of the ink jet printing head. In the case of subjecting the peripheral portions of the arrangement of the discharging outlets to water repellent treatment in accordance with this proposal, it is possible to prevent ink deposition from occurring at the peripheral portions of the arrangement of the discharging outlets so that the foregoing problems can be solved, to some extent. It is known that the water repellent treatment herein is desired to be conducted for the discharging outlet face only. The reason for this is due to the fact that in the case where the water repellent treatment is applied on portions other than the discharging outlet face, particularly, the liquid pathways, a reduction is caused in the capillary action effected for the ink supply in the liquid pathways to diminish the ink supply efficiency.
The above water repellent treatment to the discharging outlet face is usually conducted so that a distinct contrast is established between the discharging outlet face and the liquid pathway inner walls, in order to enable stable discharging for the discharging outlets.
Now, the discharging outlet face thus applied with the water repellent treatment desirably exhibits its water-repellent property in the earlier printing operations of the ink jet printing head, but as the ink jet printing head is repeatedly used, the water repellent material applied on the discharging outlet face is gradually oxidized by air or ink or is sometimes partially peeled off by the action of ink effused whereby the discharging outlet face is deteriorated in terms of the water-repellent property. In view of this, in the water repellent treatment of the discharging outlet face, it is necessary to have due care for the chemical stability and adhesion properties of the water repellent material applied.
Incidentally, even in the case where the discharging outlet face applied with the foregoing water repellent treatment is satisfactory in terms of the ink-repellent property, ink droplets are sometimes deposited thereon. These ink droplets deposited on the discharging outlet face are only slightly removed unless they are removed by way of an external force, specifically, by applying an external vibration so as to remove them or by wiping them off using a mechanical means. In the case where such ink droplets remain on the discharging outlet face without being removed, they collect and grow in size, forming large-sized ink droplets, wherein problems arise in that the discharging outlets are hindered by those large-sized ink droplets in terms of the ink discharging performance, the direction of ink discharged from the discharging outlets is deflected due to those large-sized ink droplets, or some of the discharging outlets are liable to be defective in terms of the ink discharging performance due to those large-sized ink droplets. In order to prevent these problems from occurring, the ink jet printing apparatus is usually provided with a wiping mechanism comprising a cleaning blade which serves to wipe the discharging outlet face in terms of conducting the recovery treatment for the ink jet printing head.
In general, such a recovery treatment mechanism in the ink jet printing apparatus comprises, in addition to the above wiping mechanism, a suction recovery mechanism including a pump or the like for removing an ink residue having an increased viscosity in the nozzle portions.
However, in order to comply with a demand for miniaturization of the ink jet printing head in recent years, the suction recovery mechanism is occasionally omitted. In the case of an ink jet printing apparatus with no suction recovery mechanism, an ink residue having an increased viscosity is often left in the vicinity of the arrangement of the discharging outlets without being removed. In order to remove such highly viscous ink residue, the wiping operation by means of the foregoing wiping mechanism has to be conducted while press-contacting the cleaning blade against the peripheral portions of the discharging outlets at a higher cleaning blade contact pressure than that employed in the case of the ordinary ink jet printing apparatus. In this case where the cleaning blade contact pressure is raised, there now may arise a problem such that the discharging outlet face applied with the water repellent treatment, i.e., the water repellent discharging outlet face, is gradually worn due to the press contact of the cleaning blade at an increased contact pressure upon conducting the wiping operation to deteriorate in terms of the water-repellent effect, making the ink discharging performance unstable. In this case, in addition to this problem, a further problem arises. That is, when either the wate

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