| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 417413200 | Piezoelectric driven | 70 |
| 20080199331 | PIEZOELECTRIC PUMP - Embodiments of the present disclosure may include a piezoelectric pump having: a piezoelectric vibrator including a main shim that may be formed of a conductive thin metal plate and a piezoelectric element layer that may be formed on the main shim; and a pair of ring-shaped support members that may support front and rear sides of a circumferential portion of the piezoelectric vibrator such that a pump chamber and an air chamber formed on the front and rear sides of the piezoelectric vibrator may be fluid-tightly sealed. The ring-shaped support members may support both sides of a circumferential portion of the piezoelectric element layer of the piezoelectric vibrator, and the piezoelectric vibrator may be vibrated to perform a pumping operation. | 08-21-2008 |
| 20080199332 | PIEZOELECTRIC PUMP AND PIEZOELECTRIC VIBRATOR - Embodiments of the present disclosure may include a piezoelectric pump having: a piezoelectric vibrator whose periphery may be fluid-tightly sealed; and a pump chamber and an air chamber that may be formed on front and rear sides of the piezoelectric vibrator. The piezoelectric vibrator may include: a main shim that may be formed of a conductive thin metal plate; a plurality of piezoelectric element layers that may be formed on the main shim; and an intermediate shim that may be formed between the plurality of piezoelectric element layers and may be made of an elastic metal material having mechanical recovery. The piezoelectric vibrator may be vibrated to perform a pumping operation. | 08-21-2008 |
| 20080304983 | DIAPHRAGM AIR PUMP - A diaphragm air pump includes a diaphragm; and upper and lower housings that interpose the diaphragm such that a variable volume chamber is formed over and under the diaphragm. The diaphragm air pump vibrates the diaphragm to obtain a pump operation, a circular concave portion into which the diaphragm that is circular in plan view is fitted is formed in any one of the upper and lower housings, a ring-shaped groove for housing a seal member is formed in the other, the ring-shaped groove having inner and outer diameters which are set across the circular concave portion, and a ring-shaped elastic seal member which is compressively deformed across the periphery of the diaphragm by the upper and lower housings is housed in the ring-shaped groove. | 12-11-2008 |
| 20090010779 | Piezoelectric Micropump - A piezoelectric micropump in which a pump chamber is isolated by a diaphragm. A piezoelectric element is disposed on a back surface of the diaphragm, and the diaphragm is deformed by bending deformation of the piezoelectric element to change the volume of the pump chamber and transport fluid in the pump chamber. A support member for supporting a back surface of the piezoelectric element is provided so that the support member inhibits bending of a peripheral portion of the diaphragm in a reverse direction. The support member thus prevents the piezoelectric element from being floated. Accordingly, the displacement of the piezoelectric element can be reliably transmitted as the change in volume of the pump chamber, thereby enhancing the fluid transportation performance. | 01-08-2009 |
| 20090010780 | Micropump - A micropump having a diaphragm portion, a valve portion of an intake-side check valve, and a valve portion of a discharge-side check valve formed in a single elastic-member sheet. A piezoelectric actuator is attached onto a back surface of the diaphragm portion. The elastic-member sheet is sandwiched between a first case member and a second case member, the elastic-member sheet providing sealing between both case members. A vibration chamber is defined between the elastic-member sheet and the first case member, the vibration chamber housing the piezoelectric actuator. A pump chamber is defined between the elastic-member sheet and the second case member. | 01-08-2009 |
| 20090060762 | HIGH-VOLTAGE DRIVER AND PIEZOELECTRIC PUMP WITH BUILT-IN DRIVER - A digital waveform generating circuit having a DC voltage as an input and generating a sinusoidal digital signal, an active filter extracting low-frequency components from the sinusoidal digital signal generated in the digital waveform generating circuit, and a high-voltage control circuit generating a high-voltage drive signal using the sinusoidal digital signal after passing through the active filter are provided. A smooth waveform without steep voltage changes is generated. | 03-05-2009 |
| 20090074595 | MINIATURIZED LIQUID COOLING DEVICE HAVING DROPLET GENERATOR AND PIZEOELECTRIC MICROPUMP - A miniaturized liquid cooling device ( | 03-19-2009 |
| 20090087323 | Pump - A fluid pump comprising one or more actuators, two end walls, a side wall; a cavity which, in use, contains fluid, the cavity having a substantially cylindrical shape bounded by the end walls and the side walls, at least two apertures through the cavity walls, at least one of which is a valved aperture, wherein the cavity radius, a, and height, h, satisfy the following inequalities: a/h is greater than 1.2; and h | 04-02-2009 |
| 20090104056 | LIQUID CARTRIDGE AND LIQUID PUMP - A liquid cartridge includes: a container section that stores liquid; a plate-like vibration body that is submerged in the liquid and flows the liquid; and a driver section that drives the vibration body in a thickness direction, wherein the vibration body has an end section, and at least a portion of the end section of the vibration body in an in-plane direction continuously becomes thinner toward an end of the vibration body. | 04-23-2009 |
| 20090142209 | Piezoelectric Pump - A piezoelectric pump capable of generating a large displacement at a central portion of a piezoelectric element even when a driving voltage is relatively low and preventing short-circuits caused by migration. The piezoelectric pump includes a pump body with a pump chamber, and a piezoelectric element that closes the pump chamber. The central area and the peripheral area of the piezoelectric element are bent in opposite directions by applying voltages to the piezoelectric element so that the volume of the pump chamber is changed. The piezoelectric element is a laminate including a plurality of piezoelectric layers with electrodes interposed therebetween. The central area and the peripheral area of each piezoelectric layer are polarized opposite to each other in the thickness direction, and the electrodes are formed such that voltages in the same direction in the thickness direction are applied to the central area and the peripheral area of each piezoelectric layer. Since voltages at the same potential are applied to the electrodes formed in the same planes of the piezoelectric layers, short-circuits caused by migration can be prevented. | 06-04-2009 |
| 20090148317 | VARIABLE DISPLACEMENT PIEZO-ELECTRIC PUMPS - A variable displacement piezo-electric pump which includes a pump housing having a side housing wall defining a pump chamber, an inlet line and an outlet line communicating with the pump chamber, a flexible pump diaphragm spanning the side housing wall in the pump chamber, a diaphragm-stroking mechanism such as a piezo-electric stack engaging the pump diaphragm and a diaphragm support provided between the diaphragm-stroking mechanism and the side housing wall of the pump housing. | 06-11-2009 |
| 20090148318 | Piezoelectric Pump - A piezoelectric pump having a first opening in a center portion of a pump body, and a second opening apart from the center. An outer peripheral portion of a metal diaphragm is fixed to the pump body, and a piezoelectric element having a size that covers the first opening and does not cover the second opening is bonded to a back center portion of the diaphragm. By applying a voltage near the resonance frequency to the piezoelectric element, a portion of the diaphragm opposing the first opening and a portion of the diaphragm opposing the second opening are bent in opposite directions so that fluid is drawn in from one of the first opening and the second opening and is discharged from the other opening. Such a piezoelectric pump can increase the discharging pressure, and can reliably discharge the fluid even under a condition where the pressure on the discharging side is high. | 06-11-2009 |
| 20090214362 | PIEZOELECTRIC PUMP - A piezoelectric pump includes a diaphragm that defines a pump chamber between the diaphragm and a pump body, and a piezoelectric element bonded to a surface of the diaphragm. The piezoelectric element is a bimorph piezoelectric element in which a plurality of piezoelectric layers are stacked, including a neutral layer disposed in the approximate middle of the piezoelectric element in the thickness direction and that is not displaced. The piezoelectric element can be efficiently displaced because a neutral plane of the diaphragm and the piezoelectric element bonded therein is located in the neutral layer. | 08-27-2009 |
| 20090232680 | PIEZOELECTRIC-DRIVEN DIAPHRAGM PUMP - A piezoelectric-driven diaphragm pump is comprised of a driving unit ( | 09-17-2009 |
| 20090232681 | ULTRASONIC PIEZOELECTRIC PUMP - Disclosed is an ultrasonic piezoelectric pump in which a piezoelectric pump is integrated with a fluid pipe without a check valve so that the structure can be simplified. The pump includes a fluid pipe having a hollow part formed therein to permit a fluid to flow from a fluid source, a piezoelectric actuator inserted into the hollow part and including a piezoelectric device and a plurality of fluid holes, a controller connected to a lead wire to apply a driving power to the piezoelectric device, and a tapered nozzle inserted into the hollow part in front of the piezoelectric actuator and tapered forward and downwardly. | 09-17-2009 |
| 20090232682 | PIEZOELECTRIC MICRO-BLOWER - A piezoelectric micro-blower capable of efficiently conveying compressive fluid without use of a check valve and ensuring a sufficient flow rate. The micro-blower has a blower body with a first wall and a second wall. Openings are formed in the respective walls and face a center of a diaphragm. An inflow path allowing the openings to communicate with the outside is formed between the walls. By applying a voltage to a piezoelectric element to cause the diaphragm to vibrate, a part of the first wall close to the first opening vibrates. Thus, gas can be drawn from the inflow path and discharged from the opening in the second wall. | 09-17-2009 |
| 20090232683 | PIEZOELECTRIC MICRO-BLOWER - A piezoelectric micro-blower capable of efficiently conveying compressive fluid without use of a check valve and ensuring a sufficient flow rate. The micro-blower has a blower body with a first wall and a second wall. Openings are formed in the respective walls and face a center of a diaphragm. An inflow path allowing the openings to communicate with the outside is formed between the walls. By applying a voltage to a piezoelectric element to cause the diaphragm to vibrate, a part of the first wall close to the first opening vibrates. Thus, gas can be drawn from the inflow path and discharged from the opening in the second wall. | 09-17-2009 |
| 20090232684 | PIEZOELECTRIC MICRO-BLOWER - A blower body is provided with a first wall and a second wall, and openings are provided in the walls at positions facing the approximate center of a diaphragm. An inflow passage that allows the openings to communicate with the outside is arranged between the two walls. When the diaphragm is vibrated in response to a voltage applied to a piezoelectric element, the first wall vibrates near the opening and sucks in air from the inflow passage so that the air can be ejected from the opening. A plurality of branch passages which provide sound absorption are connected to an intermediate section of the inflow passage so as to prevent noise generated near the opening from leaking from an inlet. | 09-17-2009 |
| 20090232685 | FLUID CONVEYANCE DEVICE - A fluid conveyance device includes a substrate, and a disk-shaped piezoelectric element arranged in a bendable manner on the substrate. A plurality of substantially circular concentric segment electrodes are provided on the piezoelectric element, and are provided with voltages with phases that are shifted. A wavy ring deformation is thus produced on the piezoelectric element. A pocket produced between the piezoelectric element and the substrate is moved in a radial direction so as to convey a fluid from an outer substantially circular portion to a central portion and to discharge the fluid from the central portion. | 09-17-2009 |
| 20090297372 | Dual Chamber Valveless Mems Micropump - A valveless MEMS micropump capable of improved efficiency and performance is disclosed. The micropump includes two adjoining chambers separated by a piezoelectric actuated pump membrane. The micropump moves fluid through the chambers through diffuser elements characterized by differential directional resistance to fluid flow by piezoelectric actuation of the pump membrane. | 12-03-2009 |
| 20090311116 | HIGH FLOW PIEZOELECTRIC PUMP - A piezoelectric pump for pumping a fluid at a high flow rate includes a housing and an actuator located within the housing. An electric voltage applied to the actuator causes the actuator to apply a force to a first diaphragm that is proximate to the actuator. A piston assembly is located within the housing and is moveable between at least a first position and a second position. A first fluid chamber is defined by the housing, the first diaphragm, and the piston assembly. A coupling fluid is located within the first fluid chamber for coupling the first diaphragm to the piston assembly. A second fluid chamber is defined by the housing and the piston assembly. An inlet valve is in communication with the second fluid chamber and an outlet valve is in communication with the second fluid chamber. | 12-17-2009 |
| 20100021322 | DIAPHRAGM PUMP - In a diaphragm pump performing electrostatic atomization, occurrence of defects such as electrolysis of liquid is restricted and enables to electrostatic atomization smoothly. The diaphragm pump | 01-28-2010 |
| 20100074775 | DIAPHRAGM PUMP - A pump chamber ( | 03-25-2010 |
| 20100150754 | PIEZOELECTRIC PUMP - A pump body is provided including at least one inlet valve, at least one outlet valve, a substantially rigid top portion, a substantially rigid bottom portion, and collapsible side portions. The pump body also includes a base on or in the bottom portion and defining a rotational axis extending from the bottom portion. The pump body further includes a rotor shaft disposed along the rotational axis within the enclosure, a first end of the rotor shaft mechanically and rotatably coupled to the base, and a second end of the rotor shaft providing a cam surface for engaging the top portion and operable to cause motion of the top portion response to rotation of the rotor shaft. The pump body also includes at least one piezoelectric actuator engaging a surface of the rotor shaft, the piezoelectric actuator configured to cause the rotation of the rotor shaft. | 06-17-2010 |
| 20100158720 | VALVELESS MICROPUMP - A valveless micropump for transforming a pressure variation of fluid in a volume variation chamber ( | 06-24-2010 |
| 20100196177 | VIBRATING DEVICE AND PIEZOELECTRIC PUMP - A piezoelectric pump includes a piezoelectric element, an intermediate plate, and a vibrating plate. The piezoelectric element has a substantially flat plate shape. The intermediate plate is bonded to a principal surface of the piezoelectric element and applies a residual stress in a compressive direction to the piezoelectric element. The vibrating plate is bonded to the intermediate plate such that the vibrating plate faces a principal surface of the piezoelectric element and receives a residual stress in a compressive direction from the intermediate plate. In addition, the vibrating plate defines a portion of a wall surface of a pump chamber having an open hole. A fluid passage is provided in the piezoelectric pump. The fluid passage communicates with the outside of the chamber at one end thereof, and communicates with the pump chamber through the open hole at the other end. | 08-05-2010 |
| 20100239444 | LAYERED PIEZOELECTRIC ELEMENT AND PIEZOELECTRIC PUMP - A piezoelectric element that is capable of achieving a larger amount of displacement and in which migration between electrodes hardly occurs, is included in a piezoelectric pump. The piezoelectric pump includes a first excitation electrode opposed to a second excitation electrode via a first piezoelectric layer in a central area of a layered piezoelectric body, a third excitation electrode opposed to a fourth excitation electrode via a second piezoelectric layer and a third excitation electrode opposed to a fourth excitation electrode via the second piezoelectric layer in peripheral portions of the layered piezoelectric body. A polarization direction and a direction in which an electric field is applied in a first driving area where the first excitation electrode opposes the second excitation electrode are equal to a polarization direction and a direction in which the electric field is applied in second driving areas where the third excitation electrode opposes the fourth excitation electrode and the third excitation electrode opposes the fourth excitation electrode, and bending and displacement in the layered piezoelectric element where the second excitation electrode is isolated from the third excitation electrodes and in a thickness direction and in a central portion of the layered piezoelectric element are used to discharge liquid. | 09-23-2010 |
| 20100254837 | ACTUATOR FOR MANIPULATING A FLUID, COMPRISING AN ELECTRO-ACTIVE POLYMER OR AN ELECTRO-ACTIVE POLYMER COMPOSITION - The invention relates to a microfluidic device comprising an actuator for converting between mechanical and electrical energy comprising an electro-active polymer or electro-active polymer composition, wherein the stiffness of the actuator at or near a first surface or part thereof differs from the stiffness at or near a second surface or part thereof, or wherein the stiffness of the actuator at or near a first extremity differs from the stiffness at or near a second extremity. Preferably the polymer comprises (alkyl)acrylate units based on a monomer represented by formula I and/or formula II | 10-07-2010 |
| 20100260626 | MICROPUMP FOR CONTINUOUS MICROFLUIDICS - The invention relates to a micropump comprising an inclusion fluid accommodated in a chamber of the microchannel, and means to convey a portion of said inclusion into the axial area of said chamber and for displacing said portion along the longitudinal axis of the microchannel, so as to cause the flow of a fluid of interest (F) along the longitudinal axis of the microchannel ( | 10-14-2010 |
| 20100290935 | PUMP ARRANGEMENT COMPRISING A SAFETY VALVE - A pump arrangement includes a pump having a pump inlet and a pump outlet, and a safety valve arranged between the pump outlet and an outlet of the pump arrangement and having a valve seat and a valve lid. The valve seat, the pump outlet and the pump inlet are patterned in a first surface of a first integrated part of the pump arrangement, whereas the valve lid is formed in a second integrated part of the pump arrangement. An inlet of the pump arrangement and a fluid region fluidically connected thereto are formed in a third part of the pump arrangement. The second integrated part is arranged between the first integrated part and the third part of the pump arrangement such that a pressure in the fluid region has a closing effect on the safety valve, the pump inlet and the inlet of the pump arrangement being connected fluidically. | 11-18-2010 |
| 20110070110 | PIEZOELECTRIC MICRO BLOWER - A piezoelectric micro blower includes a blower body that includes a first wall and a second wall. An opening is provided at a portion of the first wall that faces an area of the approximate center of a driver of the piezoelectric micro blower. An opening is provided at a portion of the second wall. A central space that is in communication with the openings is provided between the first and second walls. Inlet passages through which the central space is in communication with the outside are provided between the first and second walls. Bottleneck portions are provided at regions at which the inlet passages are connected to the central space. The driver vibrates when a voltage is applied to a piezoelectric element. The first wall vibrates in a corresponding manner as the driver vibrates. | 03-24-2011 |
| 20110103980 | Household Electric Appliance Having a Piezoelectric Pump - The invention relates to an electric household appliance comprising a pump having a pumping chamber ( | 05-05-2011 |
| 20110158832 | MEMBRANE MICROPUMP - A membrane micropump includes a vibration chamber, at least one flow guide, at least one fluid inlet, at least one fluid outlet, at least one inlet rectifier, at least one outlet rectifier, a vibration membrane and an actuator. The vibration chamber includes at least one chamber inlet and at least one chamber outlet. The flow guide can be connected to the chamber inlet, the vibration chamber, the chamber outlet or in the vibration chamber, or it can have more pairs to enhance the effects. The inlet rectifier connects the chamber inlet to the fluid inlet. The outlet rectifier connects the chamber outlet to the fluid outlet. The vibration membrane is disposed on the vibration chamber. The actuator is connected to the vibration membrane to reciprocate the vibration membrane, enabling fluid to flow into the vibration chamber via the fluid inlet and flow out thereof via the fluid outlet. | 06-30-2011 |
| 20110165001 | HELICALLY ACTUATED POSITIVE-DISPLACEMENT PUMP AND METHOD - First and second structures are connected by helical fibers. The orientation between the first and second structures are changed, and by doing so, the positions of the helical fibers are correspondingly changed. The position of change of the helical fibers can be used for a pumping effect, or to change some other fluidic characteristics. One other fluidic characteristics, for example, may use the movement of the helical fibers as a valve. | 07-07-2011 |
| 20110171050 | PIEZOELECTRIC PUMP - A piezoelectric pump is capable of reliably discharging gas and reliably transporting liquid even when intermittently driven. The piezoelectric pump includes a piezoelectric vibrator, a diaphragm deflected and deformed by the piezoelectric vibrator, a pump chamber including at least one wall surface defined by the diaphragm, an inlet through which liquid, gas, or a mixture of liquid and gas flows into the pump chamber, an outlet through which the fluid is discharged, and a liquid holding member arranged to provide a gap between the liquid holding member and the inner surface of the pump chamber and to maintain the liquid in the gap using capillary effect or surface tension. A flow passage plate includes a flow passage groove provided therein. | 07-14-2011 |
| 20110229356 | FLUID CONVEYANCE DEVICE - A fluid conveyance device includes a substrate, and a disk-shaped piezoelectric element arranged in a bendable manner on the substrate. A plurality of substantially circular concentric segment electrodes are provided on the piezoelectric element, and are provided with voltages with phases that are shifted. A wavy ring deformation is thus produced on the piezoelectric element. A pocket produced between the piezoelectric element and the substrate is moved in a radial direction so as to convey a fluid from an outer substantially circular portion to a central portion and to discharge the fluid from the central portion. | 09-22-2011 |
| 20110256004 | Piezoelectric devices and methods and circuits for driving same - A drive circuit ( | 10-20-2011 |
| 20120171062 | FLUID PUMP - A small-sized, low-profile fluid pump having high pumping capabilities includes an actuator and a planar section including a metal plate. The actuator includes a disk-shaped piezoelectric element attached to a disk-shaped diaphragm. As a result of application of a square-wave or sine-wave drive voltage, the actuator performs a bending vibration from the central portion to the peripheral portion. The peripheral portion of the actuator is not restrained. The actuator performs a bending vibration in the state in which it is in proximity to the planar section while facing the planar section. A center vent is provided at or in an area adjacent to the center of an actuator facing area of the planar section that faces the actuator. | 07-05-2012 |
| 20120195774 | PIEZOELECTRIC MICRO-BLOWER - In a piezoelectric micro-blower, a vibration plate assembly includes a piezoelectric element attached to a diaphragm, with an intermediate plate interposed there between. A blower chamber plate includes a circular opening in a center thereof. A blower chamber defined by the diaphragm, a flow path plate, and the opening of the blower chamber plate is sized to allow internal pressure to be substantially uniformly changed by vibration of the diaphragm. The blower chamber plate and the flow path plate are provided with a first outlet and a second outlet, respectively. Compressive fluid pressurized in the blower chamber is blown out through the first and second outlets. | 08-02-2012 |
| 20120237375 | FLEXIBLE ELEMENT FOR MICROPUMP - A micropump in the form of a stack comprising, in succession, a flexible diaphragm, a pumping chamber and a closing-off plate, said pumping chamber communicating with the outside, for example via the flexible diaphragm; said diaphragm being furthermore secured to an actuator arranged outside the micropump, characterized in that said diaphragm is secured to the actuator by way of at least one element in the form of a strip, which is rigid along its main axis and flexible in the direction perpendicular to its main axis. | 09-20-2012 |
| 20120301333 | PIEZOELECTRIC TYPE COOLING DEVICE - There is provided a piezoelectric type cooling device including: a housing having an internal space formed by combining an upper housing and a lower housing and having openings allowing the internal space to be in communication with the atmosphere to allow air to be introduced thereinto and discharged therefrom; a diaphragm provided to traverse the internal space of the housing to divide the internal space into upper and lower blower chambers; and a piezoelectric actuator provided on at least one surface of the diaphragm to provide vertical driving force to the diaphragm. | 11-29-2012 |
| 20130011282 | PIEZOELECTRIC ELEMENT DRIVE CIRCUIT AND LIQUID EJECTING APPARATUS - A drive waveform signal as a reference of a drive signal to be applied to a piezoelectric element is power-amplified, and the drive signal after passing through a coil is applied to the piezoelectric element. A resonant circuit is formed of the coil and the piezoelectric element, and a resonant peak is suppressed by performing a phase advance compensation of the drive signal and by performing a negative feedback. At this time, the degree of suppression of the peak is adjusted so that a slight reverse voltage is generated. Since this can eliminate residual distortion of the piezoelectric element by the reverse voltage, even when driving is performed at a high repetition frequency, the original amount of deformation can be ensured. Besides, the circuit does not become complicated. | 01-10-2013 |
| 20130058809 | FLUID CONTROL DEVICE - A fluid control device includes a vibrating plate unit, a driver, and a flexible plate. The vibrating plate unit includes a vibrating plate including a first main surface and a second main surface, and a frame plate surrounding the surroundings of the vibrating plate. The driver is provided on the first main surface of the vibrating plate, and vibrates the vibrating plate. The flexible plate has a hole formed thereon. Furthermore, the flexible plate faces the second main surface of the vibrating plate, and adheres to the frame plate by the adhesive agent that contains a plurality of particles arranged such that the plurality of particles are interposed between the flexible plate and the vibrating plate. | 03-07-2013 |
| 20130058810 | FLUID CONTROL DEVICE - A fluid control device includes a vibrating plate unit, a driver, a flexible plate, and a base plate. The vibrating plate unit includes a vibrating plate including first and second main surfaces, and a frame plate surrounding the surrounding of the vibrating plate. The driver is bonded to the first or the second main surface of the vibrating plate and vibrates the vibrating plate. The flexible plate includes a hole provided therein, and is bonded to the frame plate so as to face the vibrating plate. The base plate is bonded to the main surface of the flexible plate on a side opposite to the vibrating plate. A size relationship between the coefficients of linear expansion of the material of the base plate and the frame plate is equal to a size relationship between the coefficients of linear expansion of the material of the vibrating plate and the driver. | 03-07-2013 |
| 20130071269 | PIEZOELECTRIC MICRO-BLOWER - A piezoelectric micro-blower includes a blower chamber located between a blower body and a vibrating plate, a first wall portion of the blower body arranged to face the vibrating plate across the blower chamber so as to vibrate with vibrations of the vibrating plate, a first opening in the first wall portion, a second wall portion on the opposite side of the first wall portion with respect to the blower chamber, a second opening in a portion of the second wall portion which faces the first opening, and an inflow passage located between the first wall portion and the second wall portion. Each of the first and second openings includes a plurality of holes, and each hole of the first opening and each hole of the second opening are arranged to face each other. Thus, noise is significantly reduced while the flow characteristic is maintained. | 03-21-2013 |
| 20130084199 | PIEZOELECTRIC ACTUATOR, LIQUID TRANSPORT APPARATUS, AND METHOD FOR PRODUCING PIEZOELECTRIC ACTUATOR - A piezoelectric actuator is provided, including a piezoelectric layer which is joined to a joining member and which has a coefficient of linear expansion smaller than a coefficient of linear expansion of the joining member; a first electrode which is arranged on one surface of the piezoelectric layer; a second electrode which is arranged on a portion of the one surface of the piezoelectric layer different from the first electrode and which is in conduction with the first electrode; and a low dielectric layer which is formed between the piezoelectric layer and the second electrode and which has a dielectric constant lower than a dielectric constant of the piezoelectric layer. | 04-04-2013 |
| 20130243627 | ULTRASONIC TRAVELING WAVE MICROPUMP FOR LIQUID - The invention relates to an ultrasonic traveling wave micropump for moving a liquid, said micropump comprising: two single linear piezoelectric transducers ( | 09-19-2013 |
| 20130266460 | Methods and Systems for Applying Charge to a Piezoelectric Element - Methods and systems for applying charge to a piezoelectric element include and/or facilitate implementation of processes including cyclical multi-stage processes for: providing a piezoelectric element with an accumulated charge; providing one or more charge holding elements with a scavenged charge from the piezoelectric element; substantially removing or discharging a remaining charge from the piezoelectric element; and applying the scavenged charge to the piezoelectric element with an opposite polarity in relation to the polarity of the remaining charge. | 10-10-2013 |
| 20130266461 | ACTUATOR SUPPORT STRUCTURE AND PUMP DEVICE - A piezoelectric pump includes a leaf spring including a disc portion defining an actuator, an outer frame portion defining a housing, and an elastic support portion. The actuator flexurally vibrates from a center portion of a principal surface thereof to an outer periphery thereof. The elastic support portion includes a beam portion and connection portions and elastically supports the disc portion on the outer frame portion. The beam portion extends in a gap between the disc portion and the outer frame portion in a direction along an outer periphery of the disc portion. A first of the connection portions connects the beam portion to the disc portion. Second and third connection portions are offset from the first connection portion and connect the beam portion to the outer frame portion. | 10-10-2013 |
| 20130287607 | PIEZOELECTRIC PUMP - The piezoelectric pump comprises a housing, containing the following components connected in series: a rear piezoelectric clamp section, a piezoelectric extender section and a front piezoelectric clamp section. A displacer of pumped fluid is connected to the front piezoelectric clamp section. Electric pulses accessing at sections from a control station cause said sections to become fixed alternately inside the housing. Under the effect of electric pulses, the piezoelectric extender section moves the displacer step-by-step in one direction. Positive effect achieved by the invention is that of increasing the service life of the piezoelectric pump, expanding the scope of use thereof by increasing the number of fluids that can be pumped and also providing for a greater pressure by preventing contact between the pumped fluid and the friction surfaces of the housing and the piezoelectric clamp sections. | 10-31-2013 |
| 20140050604 | PUMP - A pump comprising a side wall closed at each end by an end wall forming a cavity for, in use, containing a fluid, one or more actuators each operatively associated with one or more of the end walls to cause an oscillatory motion of the associated end wall(s) whereby, in use, these axial oscillations of the end wall(s) drive substantially radial oscillations of the fluid pressure in the cavity, two or more apertures in the cavity, a valve disposed in at least one of the apertures, wherein the actuator(s) is arranged to be non-axisymmetric in use such that, in use, a pressure oscillation with at least one nodal diameter is generated within the cavity. | 02-20-2014 |
| 20140178220 | PIEZOELECTRIC MICRO-BLOWER - A piezoelectric micro-blower includes an inner case to which a peripheral portion of a vibrating plate including a piezoelectric element is fixed such that a blower chamber is defined between the inner case and the vibrating plate and an outer case arranged to cover an outer periphery of the inner case with a gap therebetween. The inner case is elastically retained in the outer case by a plurality of connecting portions. A first opening is provided in a top plate portion of the inner case that faces a central portion of the vibrating plate, and a second opening is provided in a top plate portion of the outer case that faces the first opening. A central space is provided between the top plate portions, and fluid introduced from the outside is guided to the central space through the gap between the inner and outer cases. | 06-26-2014 |
| 20140219840 | DEVICE FOR MOVING AIR - A device for moving air comprising a piezoelectric element attached to a planar body. The planar body is configured to oscillate at a movable end generating an airflow in response to applying alternating electric current to said piezoelectric element. The device further comprises a partial cavity defined by a base plate, a first wall and a second wall which surrounds the movable end of the planar body. The base plate further comprises an opening located proximate to said movable end of the planar body. In operation the air flow generated by the planar body is forced out of the device through the opening. | 08-07-2014 |
| 20140271277 | SYNTHETIC JET WITH NON-METALLIC BLADE STRUCTURE - A system and method for lowering resonant frequency in a synthetic jet device for less noise, as well as lowering vibration, is disclosed. A synthetic jet device includes a first plate, a second plate spaced apart from the first plate, a spacing component coupled to and positioned between the first and second plates to form a chamber and including an orifice therein, and an actuator element coupled to at least one of the first or second plates to selectively cause deflection thereof, wherein the first and second plates are formed at least in part of a non-metallic material. | 09-18-2014 |
| 20140294629 | MICRO PUMP - There is provided a micro pump including a bottom substrate, a channel forming substrate coupled to the bottom substrate and provided with an inlet into which a fluid is introduced and an outlet through which the fluid is discharged, and a valve integrally formed with the channel forming substrate. | 10-02-2014 |
| 20140377098 | MICRO PUMP DEVICE - There is provided a micro pump device including a micro pump, and a housing receiving the micro pump and provided with a pipe connection port. | 12-25-2014 |
| 20140377099 | MICRO-GAS PRESSURE DRIVING APPARATUS - A micro-gas pressure driving apparatus includes a miniature gas transportation module and a miniature valve module. The miniature gas transportation module includes a gas inlet plate, a fluid channel plate, a resonance membrane and a piezoelectric actuator. A first chamber is defined between the resonance membrane and the piezoelectric actuator. After the piezoelectric actuator is activated to feed a gas through the gas inlet plate, the gas is transferred to the first chamber through the fluid channel plate and the resonance membrane and then transferred downwardly. Consequently, a pressure gradient is generated to continuously push the gas. The miniature valve module includes a gas collecting plate, a valve membrane and a gas outlet plate. After the gas is transferred from the miniature gas transportation module to the gas-collecting chamber, the gas is transferred in one direction, so that a pressure-collecting operation or a pressure-releasing operation is selectively performed. | 12-25-2014 |
| 20150023821 | DISC PUMP WITH ADVANCED ACTUATOR - A fluid pump comprising one or two cavities which, in use, contains a fluid to be pumped, the chamber or chambers having a substantially cylindrical shape bounded by first and second end walls and a side wall; an actuator which, in use, causes oscillatory motion of the first end wall(s) in a direction substantially perpendicular to the plane of the first end wall(s); and whereby, in use, these axial oscillations of the end walls drive radial oscillations of the fluid pressure in the main cavity; and wherein an isolator forms at least a portion of the first end wall between the actuator and the side wall and includes conductive tracks, wherein electrical connection is made to the actuator via the conductive tracks included within the isolator. | 01-22-2015 |
| 20150056087 | FLUID CONTROL DEVICE - A fluid control device includes a vibrating plate unit, a driver, and a flexible plate. The vibrating plate unit includes a vibrating plate with first and second main surfaces, a frame plate surrounding the vibrating plate, and a link portion linking the vibrating plate and the frame plate and elastically supporting the vibrating plate against the frame plate. The driver is on the first main surface of the vibrating plate, and vibrates the vibrating plate. The flexible plate having a hole faces the second main surface of the vibrating plate, being fixed to the frame plate. At least a portion of the vibrating plate and the link portion are thinner than the thickness of the frame plate so that the surface of the portion of the vibrating plate and the link portion, on the side of the flexible plate, can separate from the flexible plate. | 02-26-2015 |
| 20150071797 | BLOWER - A piezoelectric blower includes a housing, top plate, side plate, vibrating plate, piezoelectric element, and cap. The top plate, side plate, and vibrating plate define a blower chamber. The top plate includes a vent hole. The vibrating plate and piezoelectric element constitutes a piezoelectric actuator. The cap includes a wall portion facing the piezoelectric actuator and has a disc-shaped suction port. Here, a central axis of the suction port extending along a thickness direction of the wall portion and a central axis of the piezoelectric element extending along the thickness direction of the wall portion do not coincide with each other. An air channel is provided among the housing, the cap, and a joined structure of the top plate, side plate, and piezoelectric actuator. | 03-12-2015 |
| 20150086397 | MICROPUMP WITH SEPARATE CHAMBER - A micropump and a disposable pump body thereof are disclosed. The micropump includes the pump body and an actuator device. The pump body includes a chamber, an inlet communicating with the chamber, an outlet communicating with the chamber and a covering membrane on top of the chamber. The actuator device includes an actuator and a transmitting post. One of the two ends of the transmitting post connects to the actuator. The other end of the transmitting post abuts against the membrane. Since the pump body is separated from the actuator device, the pump body is disposable and can be replaced after use to avoid cross-infection of disease, particularly useful for medical liquid delivery. | 03-26-2015 |
| 20150292497 | Piezo pump and pressurized circuit provided therewith - A piezo pump for use in a pressurized circuit includes a pump chamber with an inlet provided with a one way inlet valve, for connection to a feeding line of the pressurized circuit and an outlet provided with a one way outlet valve, for connection to a discharge line of the pressurized circuit and a piezo pump diaphragm closing one end of the pump chamber. A pressure chamber, which can function as a second pump chamber if desired, is defined at the side of the piezo pump diaphragm facing away from the pump chamber, wherein said pressure chamber is connected to a pressure source, which may be the feeding line. | 10-15-2015 |
| 20150316047 | FLUID PUMP HAVING MATERIAL DISPLACEABLE RESPONSIVE TO ELECTRICAL ENERGY - A fluid pump apparatus includes a conduit, a material supported on and surrounded by the conduit, and an electrical energy source coupled to the material and configured to apply electrical energy to the material. The material is physically displaced relative to the conduit in response to the electrical energy. The conduit is configured to receive therein a fluid that is physically displaced relative to the conduit in response to the physical displacement of the material. | 11-05-2015 |
| 20150322932 | MICROPUMP - A micropump for pumping a fluid, the pump comprising: a tube formed from a piezoelectric material and having inner and outer surfaces; a plurality of electrodes electrifiable to generate vibrations in the tube; and at least one voltage source that applies voltages to the electrodes to generate a displacement traveling wave that propagates along the tube and causes fluid in the tube to flow through the tube. | 11-12-2015 |
| 20160003232 | DISC PUMP WITH ADVANCED ACTUATOR - A two-cavity pump having a single valve in one cavity and a bidirectional valve in another cavity is disclosed. The pump has a side wall closed by two end walls for containing a fluid. An actuator is disposed between the two end walls and functions as a portion of a common end wall of the two cavities. The actuator causes an oscillatory motion of the common end walls to generate radial pressure oscillations of the fluid within both cavities. An isolator flexibly supports the actuator. The first cavity includes the single valve disposed in one of a first and second aperture in the end wall to enable fluid flow in one direction. The second cavity includes the bidirectional valve disposed in one of a third and fourth aperture in the end wall to enable fluid flow in both directions. | 01-07-2016 |
| 20160010636 | PIEZOELECTRIC BLOWER | 01-14-2016 |
| 20160076530 | MICRO-GAS PRESSURE DRIVING DEVICE - A micro-gas pressure driving device includes a miniature gas transportation module, a covering plate and a tube plate. The miniature gas transportation module includes a convergence plate, a resonance membrane and a piezoelectric actuator. When the piezoelectric actuator is activated to feed a gas into an input tube of the tube plate, the gas is sequentially transferred through a first input chamber, a second input chamber, an inlet, a convergence channel and a central opening of the convergence plate, a central aperture of the resonance membrane, and transferred downwardly through the piezoelectric actuator and an output chamber, and outputted from an output tube of the tube plate. The first input chamber is arranged between the covering plate and the input tube. The second input chamber is defined between the covering plate and the convergence plate. The output chamber is defined between the tube plate and the piezoelectric actuator. | 03-17-2016 |
| 20160084391 | CHECK VALVE MECHANISM AND PUMP DEVICE USING THE SAME - A check valve mechanism comprises a sealing case, a sheet component, a sheet-shaped valve body and a load adding mechanism. The sealing case has a suction opening for fluid and a discharge opening for fluid and an internal flow path connecting the suction opening with the discharge opening. The sheet component is fixed on the sealing case by covering the periphery of the suction opening and made from a resin material having an opening at a position corresponding to the suction opening. The sheet-shaped valve body is made from a resin material having a blocking area for the sheet component. The load adding mechanism adds a load for the blocking area of the sheet-shaped valve body towards the sheet component. | 03-24-2016 |
| 20160138580 | MEMS-BASED ACTIVE COOLING SYSTEM - In various embodiments, a cooling device for dissipating heat generated in an electronic or electrochemical device includes a substrate, multiple benders arranged on the substrate, and supply circuitry for supplying an electric field to actuate the benders for causing movement thereof, thereby producing an air flow. | 05-19-2016 |
| 20160377073 | BLOWER - A piezoelectric blower ( | 12-29-2016 |
