Power plants – Motor operated by expansion and/or contraction of a unit of... – Mass is a solid
Reexamination Certificate
2003-09-22
2004-09-21
Nguyen, Hoang (Department: 3748)
Power plants
Motor operated by expansion and/or contraction of a unit of...
Mass is a solid
C060S528000
Reexamination Certificate
active
06792754
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to an integrated circuit device. In particular, this invention relates to an integrated circuit device for fluid ejection. The invention has broad applications to such devices as micro-electromechanical pumps and micro-electromechanical movers.
BACKGROUND OF THE INVENTION
Micro-electromechanical devices are becoming increasingly popular and normally involve the creation of devices on the micron scale utilizing semi-conductor fabrication techniques. For a review on micro-electromechanical devices, reference is made to the article “The Broad Sweep of Integrated Micro Systems” by S. Tom Picraux and Paul J. McWhorter published December 1998 in IEEE Spectrum at pages 24 to 33.
One form of micro-electromechanical device is an ink jet printing device in which ink is ejected from an ink ejection nozzle chamber.
Many different techniques on ink jet printing and associated devices have been invented. For a survey of the field, reference is made to an article by J Moore, “Non-Impact Printing: Introduction and Historical Perspective”, Output Hard Copy Devices, Editors R Dubeck and S Sherr, pages 207 to 220 (1988).
Recently, a new form of ink jet printing has been developed by the present applicant that uses micro-electromechanical technology. In one form, ink is ejected from an ink ejection nozzle chamber utilizing an electromechanical actuator connected to a paddle or plunger which moves towards the ejection nozzle of the chamber for ejection of drops of ink from the ejection nozzle chamber.
The present invention concerns, but is not limited to, an integrated circuit device that incorporates improvements to an electromechanical bend actuator for use with the technology developed by the Applicant.
SUMMARY OF THE INVENTION
According to a first aspect of the invention, there is provided an integrated circuit device which comprises
a substrate;
drive circuitry arranged on the substrate; and
a plurality of micro-electromechanical devices positioned on the substrate, each device comprising:
an elongate actuator having a fixed end that is fast with the substrate so that the actuator is connected to the drive circuitry and a free end that is displaceable along a path relative to the substrate to perform work, the actuator including a pair of elongate arms that are spaced relative to each other along the path and are connected to each other at each end, with one of the arms being connected to the drive circuitry to define a heating circuit and being of a material that is capable of expansion when heated, such that, when the heating circuit receives an electrical signal from the drive circuitry, that arm expands relative to the other to deform the actuator and thus displace said free end along said path.
Each micro-electromechanical device may include a fluid ejection member positioned on the free end of the actuator. A plurality of fluid chambers may be positioned on the substrate, with the substrate defining fluid flow paths that communicate with the fluid chambers. Each fluid ejection member may be positioned in a respective fluid chamber to eject fluid from the fluid chamber on displacement of the actuator.
Each fluid chamber may be defined by a sidewall and a roof wall, the roof wall defining an ejection port, with the fluid ejection member being displaceable towards and away from the ejection port to eject fluid from the ejection port.
Each fluid ejection member may be in the form of a paddle member that spans a region between the respective fluid chamber and the respective fluid flow path so that, when the heating circuit receives a signal from the drive circuitry, the paddle member is driven towards the fluid ejection port and fluid is drawn into the respective fluid chamber.
Each paddle member may have a projecting formation positioned on a periphery of the paddle member that projects towards the ejection port so that the efficacy of the paddle member can be maintained while inhibiting contact between the paddle member and a meniscus forming across the ejection port.
Each actuator may include a heat sink that is positioned on the arm that defines the heating circuit, intermediate ends of that arm, to provide generally uniform heating along the length of the arm.
Each actuator may include at least one strut that is fast with each arm at a position intermediate ends of the arms.
According to a second aspect of the invention, there is provided a mechanical actuator for micro mechanical or micro electromechanical devices, the actuator comprising:
a supporting substrate;
an actuation portion;
a first arm attached at a first end thereof to the substrate and at a second end to the actuation portion, the first arm being arranged, in use, to be conductively heated;
a second arm attached at a first end to the supporting substrate and at a second end to the actuation portion, the second arm being spaced apart from the first arm, whereby the first and second arms define a gap between them;
at least one strut interconnecting the first and second arms between the first and second ends thereof; and
wherein, in use, the first arm is arranged to undergo expansion, thereby causing the actuator to apply a force to the actuation portion.
Preferably the first arm includes a first main body formed between the first and second ends of the first arm. Preferably the second arm includes a second main body formed between the first and second ends of the second arm. A second tab may extend from the second main body. The first one of the at least one strut may interconnect the first and second tabs.
Preferably the first and second tabs extend from respective thinned portions of the first and second main bodies.
Preferably the first arm includes a conductive layer that is conductively heated to cause, in use, the first arm to undergo thermal expansion relative to the second arm thereby to cause the actuator to apply a force to the actuation portion.
Preferably the first and second arms are substantially parallel and the strut is substantially perpendicular to the first and second arms.
Preferably a current is supplied in use, to the conductive layer through the supporting substrate.
Preferably the first and second arms are formed from substantially the same material. Preferably the actuator is manufactured by the steps of:
depositing and etching a first layer to form the first arm;
depositing and etching a second layer to form a sacrificial layer supporting structure over the first arm;
depositing and etching a third layer to form the second arm; and
etching the sacrificial layer to form the gap between the first and second arms.
Preferably the first arm includes two first elongated flexible strips conductively interconnected at the second arm. Preferably the second arm includes two second elongated flexible strips. Preferably the actuation portion comprises a paddle structure.
Preferably the first arm is formed from titanium nitride. Preferably the second arm is formed from titanium nitride.
REFERENCES:
patent: 3968692 (1976-07-01), Blattler et al.
patent: 4586335 (1986-05-01), Hosoda et al.
patent: 4759189 (1988-07-01), Stropkay et al.
patent: 5263644 (1993-11-01), Chen et al.
patent: 6364453 (2002-04-01), Silverbrook
patent: 6438954 (2002-08-01), Goetz et al.
patent: 6439693 (2002-08-01), Silverbrook
patent: 6612110 (2003-09-01), Silverbrook
U.S. patent application Ser. No. 09/504,221, Silverbrook.
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Nguyen Hoang
Silverbrook Research Pty LTD
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