Ink chamber structure for an inkjet printhead

Incremental printing of symbolic information – Ink jet – Ejector mechanism

Reexamination Certificate

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Details

C347S094000

Reexamination Certificate

active

06702429

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The ink chamber structure for an inkjet printhead provides that the ink chambers are arrayed in columns, thus, with ink chambers being supplied with ink from two sides of the columns, the space available is efficiently utilized and the ink chambers are more closely arranged.
2. Description of the Related Art
In the era of information explosion with computer systems being widely used, not only has the frequent utilization of computers been increasing tremendously, but the performance and processing speed thereof are also strictly required. Therefore, the development of all the peripherals for computers are increasingly influenced by such everlasting trend that all kinds of novel peripherals are developed, with requirement for function and quality being renovated and improved. Within all the computer equipment, printers, the most prevalent and commonly used, are must-haves for computer users.
In view of the history of improvement for computer printers, three types thereof can be identified: dot matrix printers, inkjet printers and laser printers. Dot matrix printers are cheaper, but the drawbacks of slow printing speed and poor printing quality have already cost the dot matrix printers the competitive edge against either inkjet printers or laser printers on the market nowadays, with very few users still using such outdated equipment. Most consumers today use either inkjet printers or laser printers which respectively present desirable features and yet drawbacks as well, wherein first, as far as prices are concerned, inkjet printers are cheaper than laser printers, which is the advantage for inkjet printers; secondly, as far as the printing quality is concerned, inkjet printers provide inferior printing quality than laser printers, which is the advantage for laser printers.
Even though inkjet printers hold the price advantage over laser printers, in terms of the printing quality, however, the inkjet printers would lose the competitive edge against laser printers in applicable fields that require high printing quality. Generally speaking, since liquid is utilized as the printing material, not only shall ink cause diffusion, but certain natural characteristics of liquid shall also become flaws regarding the printing quality, e.g., the non-rigid body of the fluid, bubbles existed in fluid, and the flowing direction is difficult to control with the low viscosity coefficient of fluid.
Usually, the technologies concerning inkjet printing contain mechanisms used for controlling the release of ink from inkjet cartridges to the printing surface; based upon prior arts, a means of inkjet printing utilizes an inkjet printhead that, to be installed on the inkjet cartridge, ejects ink according to responses of the control signals.
Please refer to FIG.
1
A and FIG.
1
B. In the prior art, the inkjet printhead
94
of the inkjet cartridge
9
is usually consisted of three main structural layers: a silicon substrate
90
having a major surface, a barrier layer
91
connected to the major surface and constituted by ink channels that enable ink to flow from the inkjet cartridge to adjacent vaporization chambers, and the nozzle member
92
.
The major surface of substrate of the inkjet printhead is installed with ink firing element
93
that, used for ejecting ink out of the ink chambers through nozzles, is mainly of thermal elements or piezoelectric elements, with two correspondent means of thermal bubble and piezoelectric pressure, such that the ink firing element
93
can heat or pressure ink up to cause ink to eject out.
The heating element of the thermal bubble inkjet printhead is of a thin-film resistor or heater; by heating ink up and thus vaporizing a small portion of ink instantly, the high-pressure bubble is to be produced and used for pushing ink to be ejected through nozzles. The piezoelectric element of the piezoelectric pressure printhead is of piezoelectric ceramic, from which voltage is applied to produce deformation, and with the responses from control signals to compress the volume of ink, the pressure wave is to be produced to force ink to be ejected through nozzles.
The ink-feeding outlets of inkjet printers are commonly having ink chambers as inkjet outlets wherefrom ink is to be ejected, thus the numbers of ink chambers naturally become the main factor concerning the printing quality.
In view of the fact that inkjet cartridges, usually designed to be tinier in volume, provide less and less space for installing ink chambers therein, the technological bottlenecks for inkjet improvement thus emerge, including the way of distributive arrangement for ink chambers and included angles of inlets of ink chambers, the two factors that cause significant effect on both the fluidity of ink when feeding ink and the clarification for the inkjet effects. The way of arrangement for ink chambers is though improved upon by prior arts, yet the improvement provided by prior arts that ink chambers are tightly arrayed for increasing the numbers of ink chambers shall cause unstable disturbance and air bubbles when feeding ink, thus causing unsmooth flow of ink, along with the drawback of low-resolution printing quality. The prior arts are introduced as follows:
The first prior arts, which is the most primordial art concerning the ink outlets and ink chambers of inkjet printers, adopts the central ink-feeding method, please refer to
FIG. 2
, wherein, S represents inkjet cartridge, with the ink-feeding outlet S
1
installed at the bottom center of the printhead S; on the left of the ink-feeding outlet a plurality of ink chambers C
1
are distributed, whereas on the right of the ink-feeding outlet a plurality of ink chambers C
2
are distributed; the inkjet printer begins to heat ink up and eject ink out of inkjet printhead installed in ink chambers C
1
and C
2
once printing signals are received. Such central ink-feeding technology shall cause ink chambers C
1
and C
2
to interfere with each other by creating disturbance when ink is fed from the ink-feeding outlet S
1
into ink chambers C
1
and C
2
, for ink chambers C
1
and C
2
are closely adjacent with distance being very short between ink chambers C
1
and C
2
. As a result, the ink density from ink-jetting shall not be even, thus words and graphics printed are so coarse that the printing quality is to be seriously compromised.
The second prior art is disclosed to improve upon the first prior art. Please refer to
FIG. 3
, wherein ink chambers are installed on the edges of both sides of the ink-feeding outlet S
1
, whereas on the left of the ink-feeding outlet a plurality of ink chambers C
1
are installed, and on the right of the ink-feeding outlet a plurality of ink chambers C
2
are installed. Such edge-feeding of ink does help to improve upon the disturbance caused by mutual interference from ink chambers C
1
and C
2
in the first prior art, yet the problem of disturbance still exists between adjacent ink chambers on the same side of the ink-feeding outlet S
1
, thus the effective solution is still unavailable to cope with the main source of interference in the first prior art.
The third prior art, also disclosed to improve upon the first prior art, adopts the ink chamber structure with tier arrangement. Please refer to
FIG. 4
, wherein ink chambers C
11
, C
12
and C
13
on the left are grouped in three wherein ink chambers are progressively terraced toward the left, whereas ink chambers C
21
, C
22
and C
23
on the right are correspondently structured to ink chambers C
11
, C
12
and C
13
on the left. Such kind of arrangement of ink chambers, different from that in the first prior art, might be able to stagger the positions of ink chambers C with the ink chamber structure being gradationally installed toward the two sides, thus decreasing the disturbance occurred between adjacent ink chambers C. Still, such way of arrangement is not tight enough, nor does it present the best solution for use of available space; therefore the drawbacks existed in the foregoing prior arts are still

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