Etching a substrate: processes – Forming or treating thermal ink jet article
Reexamination Certificate
2001-12-18
2004-01-13
Alanko, Anita (Department: 1765)
Etching a substrate: processes
Forming or treating thermal ink jet article
C216S039000, C216S046000, C216S079000, C216S099000
Reexamination Certificate
active
06676844
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method for manufacturing an ink-jet printhead. More particularly, the present invention relates to a method for manufacturing an ink-jet printhead having a hemispherical ink chamber.
2. Description of the Related Art
Ink-jet printheads are devices for printing a predetermined image by ejecting small droplets of printing ink at desired positions on a recording sheet. Ink ejection mechanisms of an ink-jet printer are generally categorized into two different types: an electro-thermal transducer type (bubble-jet type), in which a heat source is employed to form a bubble in ink causing an ink droplet to be ejected, and an electromechanical transducer type, in which a piezoelectric crystal bends to change the volume of ink causing an ink droplet to be expelled.
FIGS. 1A and 1B
are diagrams illustrating a conventional bubble-jet type ink-jet printhead. Specifically,
FIG. 1A
is a perspective view illustrating the structure of an ink ejector as disclosed in U.S. Pat. No. 4,882,595.
FIG. 1B
illustrates a cross-sectional view of the ejection of an ink droplet in the conventional ink ejector.
The conventional bubble-jet type ink-jet printhead shown in
FIGS. 1A and 1B
includes a substrate
10
, a barrier wall
12
formed on the substrate
10
to form an ink chamber
13
for containing ink
19
, a heater
14
installed in the ink chamber
13
, and a nozzle plate
11
having a nozzle
16
for ejecting an ink droplet
19
′. The ink
19
is supplied to the ink chamber
13
through an ink channel
15
, and the ink
19
fills the nozzle
16
connected to the ink chamber
13
by capillary action. In a printhead of the current configuration, if current is applied to the heater
14
to generate heat, a bubble
18
is generated in the ink
19
filling the ink chamber
13
and continues to expand. Due to the expansion of the bubble
18
, pressure is applied to the ink
19
within the ink chamber
13
, and thus the ink droplet
19
′ is ejected through the nozzle
16
. Next, ink
19
is supplied through the ink channel
15
to refill the ink chamber
13
.
There are multiple factors and parameters to consider in making an ink-jet printhead having a bubble-jet type ink ejector. First, it should be simple to manufacture, have a low manufacturing cost, and be capable of being mass-produced. Second, in order to produce high quality color images, the formation of minute, undesirable satellite ink droplets that usually trail an ejected main ink droplet must be avoided. Third, when ink is ejected from one nozzle or when ink refills an ink chamber after ink ejection, cross-talk with adjacent nozzles, from which no ink is ejected, must be avoided. To this end, a back flow of ink in a direction opposite to the direction ink is ejected from a nozzle must be prevented during ink ejection. Fourth, for high speed printing, a cycle beginning with ink ejection and ending with ink refill in the ink channel must be carried out in as short a period of time as possible. In other words, an ink-jet printhead must have a high driving frequency.
The above requirements, however, tend to conflict with one another. Furthermore, the performance of an ink-jet printhead is closely associated with and affected by the structure and design of an ink chamber, an ink channel, and a heater, as well as by the type of formation and expansion of bubbles, and the relative size of each component.
In an effort to overcome problems related to the above requirements, various ink-jet printheads having different structures have already been suggested in U.S. Pat. No. 4,882,595; U.S. Pat. No. 4,339,762; U.S. Pat. No. 5,760,804; U.S. Pat. No. 4,847,630; U.S. Pat. No. 5,850,241; European Patent No. 317,171; and Fan-gang Tseng, Chang-jin Kim, and Chih-ming Ho, “A Novel Microinjector with Virtual Chamber Neck,” IEEE MEMS, pp. 57-62, 1998. However, ink-jet printheads proposed in the above-mentioned patents and publication may satisfy some of the aforementioned requirements but do not completely provide an improved ink-jet printing approach.
SUMMARY OF THE INVENTION
In an effort to solve the above-described problems, it is a feature of an embodiment of the present invention to provide a method for manufacturing an ink-jet printhead having a hemispherical ink chamber and other components integrally formed on a substrate, including an ink channel, a nozzle, and a heater.
Accordingly, an embodiment of the present invention provides a method for manufacturing an ink-jet printhead having a hemispherical ink chamber, the method comprising: forming a nozzle plate on a surface of a substrate; forming a ring-shaped heater on the nozzle plate; forming a manifold for supplying ink by etching the substrate; forming an electrode on the nozzle plate to be electrically connected to the heater; forming a nozzle, through which ink will be ejected, by etching the nozzle plate inside the heater to have a diameter smaller than the diameter of the heater; forming a groove for forming an ink channel to expose the substrate by etching the nozzle plate so that the groove extends from the outside of the heater toward the manifold; forming an ink chamber to have a diameter greater than the diameter of the heater and be substantially hemispherical by etching the substrate exposed by the nozzle; forming an ink channel to connect the ink chamber and the manifold by isotropically etching the substrate exposed by the groove; and closing the groove by forming a first material layer on the nozzle plate.
Here, the first material layer is preferably a silicon nitride layer. Preferably, the thickness of the first material layer is greater than half of the width of the groove.
According to the present invention, an ink chamber, an ink channel, and an ink supply manifold are integrated into one body in a substrate, and a nozzle plate and a heater are integrated into one body on the substrate. Accordingly, the manufacture of an ink-jet printhead having a structure according to the present invention is simplified, and thus mass production of the printhead is facilitated. In addition, since a groove for forming an ink channel may be closed with a first material layer, it is possible to prevent ink from leaking out from the groove.
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Tseng et al.—A Novel Microinjector with Virtual Chamber Neck, IEEE 1998, pp. 57-62, Micro Electro Mechanical Systems, 1998, MEMS 98. Proceedings., The 11thAnnual Intl. Workshop on, Jan. 25-29, 1998.
Kim Hyeon-cheol
Lee Sang-wook
Oh Yong-soo
Alanko Anita
Lee & Sterba, P.C.
Samsung Electronics Co,. Ltd.
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