A cutting control method includes: a first step of accepting job identification information indicating a cutting target and cutting machine identification information indicating a type of a cutting machine; and a second step of specifying cut image data, and generating cutting operation data, wherein when the cutting machine identification information indicating a first cutting machine is accepted in the first step, first cutting operation data, and when the cutting machine identification information indicating a second cutting machine is accepted in the first step, second cutting operation data, and the first cutting operation data and the second cutting operation data are different from each other.
G05B 19/418 - Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
A light source apparatus according to an aspect of the present disclosure includes a first light source configured to emit first light; a first wavelength converter configured to convert the first light into second light; a first optical layer configured to transmit the first light and reflect the second light; a light guide configured to guide the second light; a second wavelength converter configured to convert the first light into third light; a second optical layer configured to reflect the second light and the third light; and a first reflection member. The first wavelength converter has a first surface on which the first light is incident via the first optical layer, and a second surface and a third surface that intersect with the first surface and face opposite sides, the first reflection member is disposed in a region of the light guide, at a side of the second surface, and the second light and the third light travel through the light guide and exit via a region of the light guide, at a side of the third surface.
A liquid ejecting head includes a nozzle, a pressure chamber that applies a pressure for ejecting a liquid from the nozzle by driving a first piezoelectric element, a detection chamber in which a second piezoelectric element detects a residual vibration of the pressure applied in the pressure chamber, an absorption chamber in which a third piezoelectric element absorbs a vibration of the pressure applied in the pressure chamber, and a wiring substrate that electrically couples to an outside of the liquid ejecting head. The first piezoelectric element of the liquid ejecting head is electrically coupled to the wiring substrate, the second piezoelectric element is electrically coupled to the wiring substrate, and the third piezoelectric element, the first piezoelectric element, the wiring substrate, and the second piezoelectric element are disposed side by side in this order, when viewed from an up and down direction.
B41J 2/055 - Devices for absorbing or preventing back-pressure
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
A liquid ejecting head includes a first head chip, a second head chip, and a fixing plate, in which the fixing plate includes a first flat plate portion including a first fixing surface to which the first head chip is fixed, and a first surface that is opposite from the first fixing surface, and a second flat plate portion including a second fixing surface to which the second head chip is fixed, and a second surface that is opposite from the second fixing surface, the first surface and the second surface are caused to face different directions from each other by bending the fixing plate, and in a view from a first direction along an intersection line between the first surface and the second surface, an angle formed between the first surface and the second surface is less than 180 degrees.
A printing system includes a second terminal device and a printing device capable of communicating with the second terminal device. The printing device has registered first image information, the second terminal device acquires the first image information from the printing device and transmits third image information and second arrangement information relating to relative positions of the first image information and the third image information to the printing device, and the printing device combines, based on reception from the second terminal device, according to the second arrangement information, the first image information and the received third image information and prints the combined image information.
A liquid ejecting head includes a first head chip, a second head chip, and a fixing plate, in which the fixing plate includes a first flat plate portion including a first fixing surface to which the first head chip is fixed, and a first surface that is opposite from the first fixing surface, and a second flat plate portion including a second fixing surface to which the second head chip is fixed, and a second surface that is opposite from the second fixing surface, the first surface and the second surface are caused to face different directions from each other by bending the fixing plate, and in a view from a first direction along an intersection line between the first surface and the second surface, an angle formed between the first surface and the second surface is greater than 180 degrees.
A moon phase disk is disposed on a back surface side of a dial of a watch and is visually recognizable from a moon phase display window formed in the dial. The moon phase disk includes an upper plate having a disposition hole and formed in a disk shape; a lower plate fixed to a back surface of the upper plate and formed in a disk shape; and a decorative plate disposed inside the disposition hole which is open on a front surface of the upper plate. A first diameter of the disposition hole on a front surface side of the upper plate is smaller than a second diameter of the decorative plate. And a third diameter of the disposition hole on a back surface side of the upper plate is larger than the second diameter of the decorative plate.
A cartridge includes a liquid accommodating portion configured to accommodate liquid, a supply port member having a supply port that communicates with the liquid accommodating portion and supplies the liquid to an outside of the liquid accommodating portion, a first sealing member provided on an inner peripheral surface of the supply port, a covering member configured to cover a portion of an opening surface of the supply port from an outside of the supply port, and a second sealing member configured to seal a leakage path of the liquid outside the supply port, the leakage path being a gap between elements included in the cartridge.
A direct virtual image type virtual image display device includes a display element, a first lens on which image light from the display element is incident, an angle suppression member disposed on an emission side of the first lens, a first prism on which the image light passing through the first lens is incident, a second prism joined to the first prism, an oblique mirror portion provided at a joint between the first prism and the second prism, and at least partially reflecting the image light guided in the first prism, a plano-convex second lens disposed to face an outer surface of the first prism, a transmissive mirror formed at a convex surface of the second lens and partially reflecting the image light, and a quarter wavelength plate disposed between the outer surface of the first prism and a flat surface of the second lens.
A liquid ejecting apparatus includes a liquid ejecting head that is driven by a drive signal to eject a liquid, a first substrate made of metal, and a transistor pair that is provided on the first substrate and includes two bipolar transistors generating the drive signal.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
A liquid ejecting apparatus includes an ejection section that is configured to eject a droplet from a nozzle communicating with a pressure chamber by driving a drive element according to a supplied drive signal The drive signal includes a at least one ejection pulse including an ejection waveform element that changes an electrical potential to be ejected a droplet from the nozzle, and a residual vibration suppression element that changes an electrical potential to reduce the change in the pressure of the liquid in the pressure chamber, the change in the pressure remaining after the ejection of the droplet according to a natural vibration period of the ejection section. A weight of droplets to be continuously ejected from the nozzle when the drive signal is supplied to the drive element over a period corresponding to two or more drive periods is corrected by adjusting the residual vibration suppression element.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
B41J 2/02 - Ink jet characterised by the jet generation process generating a continuous ink jet
B41J 2/03 - Ink jet characterised by the jet generation process generating a continuous ink jet by pressure
An electro-optical device includes: a first substrate; a second substrate; an electro-optical layer disposed between the first substrate and the second substrate; a display region including a plurality of pixels; and a peripheral area provided outside the display region, in which the first substrate includes: a transmission gate including an N-channel type transistor and a P-channel type transistor; an electrical conducting section closer to the electro-optical layer than the transmission gate; and a light shielding film closer to the electro-optical layer than the electrical conducting section, and the light shielding film overlaps with the electrical conducting section and one of the N-channel type transistor and the P-channel type transistor in plan view, and does not overlap with the other one of the N-channel type transistor and the P-channel type transistor in plan view.
A cartridge includes a liquid accommodating portion configured to accommodate liquid, a supply port member having a supply port that communicates with the liquid accommodating portion and supplies the liquid to an outside of the liquid accommodating portion, a sealing member provided on an inner peripheral surface of the supply port, a case member configured to accommodate the supply port member, and a cap configured to cover a portion of an opening surface of the supply port from the outside of the supply port. The cap is welded to at least one member of the supply port member, the sealing member, and the case member, and a welded portion, which is a portion where the cap and the at least one member are welded, seals between the cap and the at least one member.
An information processing device includes: an image acceptance unit that accepts an image to be a print target; a cutting machine designation unit that accepts cutting machine designation information which is information about a cutting machine for cutting a medium; and an arrangement setting unit that limits an area on the medium where the image can be arranged, based on the cutting machine designation information.
A physical quantity detection circuit includes: a physical quantity detection signal output circuit that includes an amplifier circuit that amplifies a signal output from a physical quantity detection element, and outputs a physical quantity detection signal corresponding to a physical quantity; a failure diagnosis signal output circuit that outputs a failure diagnosis signal based on a signal output from at least one of a plurality of amplifiers included in the amplifier circuit; a failure diagnosis circuit that performs failure diagnosis based on the failure diagnosis signal and outputs a failure flag indicating a result of the failure diagnosis; a mask signal output circuit that compares a level of a signal output from each of the plurality of amplifiers with each of a plurality of set detection levels and outputs a mask signal based on a result of the comparison; and a disabling determination circuit that disables the failure flag based on the mask signal.
A physical quantity detection device 1 includes a physical quantity detection element 10 and a circuit device 20. The physical quantity detection element 10 includes a detection arm AS1 including detection electrodes EL1A and EL1B and a detection arm AS2 including detection electrodes EL2A and EL2B. The circuit device 20 includes terminals T1, T2, T3, and T4 connected to the detection electrodes EL1A, EL1B, EL2A, and EL2B, and an amplifier circuit 120. The amplifier circuit 120 includes a differential amplifier circuit 128, a switch SW1A provided between the terminal T1 and an input node NI1 of the differential amplifier circuit 128, a switch SW1B provided between the terminal T2 and an input node NI2 of the differential amplifier circuit 128, a switch SW2A provided between the terminal T3 and the input node NI2, and a switch SW2B provided between the terminal T4 and the input node NI1.
The housing unit includes a frame, a blower part 51 attached to the frame, a control substrate that controls blower part; and a harness 71 extending along the frame and connected to the control substrate and the blower part, wherein the blower part includes a fan 52 and a duct 53 housing the fan, wherein the duct includes a forming portion 61 for forming a accommodation space 62 that houses a part of the harness together with the frame.
A light source device includes a first light source for emitting first light, a first wavelength conversion element for converting the first light into second light, a first optical layer for transmitting the first light and reflecting the second light, a second light source for emitting third light, and a light guide section for guiding the second light and the third light. The first wavelength conversion element has a first surface on which the first light is incident via the first optical layer, and a second surface and a third surface which intersect the first surface and face away from each other. The second light source is disposed in a region on the second surface side of the light guide section. The first optical layer reflects the third light in addition to the second light, and a portion of the second light and the third light travels through the light guide section and is emitted from the region on the third surface side of the light guide section.
An ultrasonic device includes an ultrasonic element that performs at least one of transmission of ultrasonic waves and reception of ultrasonic waves, and a housing that houses the ultrasonic element, wherein the housing includes a reflection surface that reflects the ultrasonic waves, a waveguide through which the ultrasonic waves propagate, and an opening that is provided at one end of the waveguide and through which the ultrasonic waves pass.
G01V 1/00 - SeismologySeismic or acoustic prospecting or detecting
B65H 7/12 - Controlling article feeding, separating, pile-advancing, or associated apparatus, to take account of incorrect feeding, absence of articles, or presence of faulty articles by feelers or detectors responsive to presence of faulty articles or incorrect separation or feed responsive to double feed or separation
A resonator element includes first to third vibrating arms and weights disposed at respective tip end portions of the first to third vibrating arms. When a weight mass ratio A represented by M1/M2 is plotted on a horizontal axis and an arm width ratio B represented by W1/W2 is plotted on a vertical axis, where M1 is a mass of the weight disposed on the first vibrating arm, M2 is a mass of the weight disposed on each of the second and third vibrating arms, W1 is a width of the first vibrating arm, and W2 is a width of each of the second and third vibrating arms, a point (A, B) is located in a region surrounded by a polygon formed by connecting six points of (A, B)=(2.39, 2), (0.01, 2), (0.23, 1.6), (1.65, 1), (7.15, 1), and (4.02, 1.6) with straight lines.
A controller includes a control data generation circuit that generates control data based on luminance data, a first interface circuit that transmits the control data, a first storage circuit that stores first comparison data based on the luminance data or the control data, and an error detection circuit. A light source driver includes a second interface circuit that receives the control data, a second storage circuit that stores the control data, and a drive circuit that drives a light source based on the control data. The error detection circuit compares the first comparison data with second comparison data based on the control data received by the first interface circuit from the second interface circuit.
G09G 3/32 - Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix using controlled light sources using electroluminescent panels semiconductive, e.g. using light-emitting diodes [LED]
22.
Liquid Ejecting Head And Liquid Ejecting Apparatus
A liquid ejecting head includes a liquid ejecting unit, a flow path member in communication with the liquid ejecting unit, a relay substrate electrically connected to the liquid ejecting unit, and a cover that accommodates at least one of the flow path member and the relay substrate therein and is configured expand and contract in a height direction.
An electro-optical device includes data lines grouped into a set of three lines, a data signal line to which a data signal according to gradation of a pixel is supplied in a time-division manner, corresponding to the three data lines, selection signal lines to each of which a selection signal is supplied, inversion selection signal lines to each of which an inversion selection signal of the selection signal is sequentially supplied, the inversion selection signal lines forming pairs with the selection signal lines, a transistor being in an on state or an off state between the data line and the data signal line, according to a selection signal supplied to one selection signal line, and a light shielding film overlapping with the selection signal lines and the inversion selection signal lines in plan view and being maintained at a predetermined potential.
G09G 3/36 - Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix by control of light from an independent source using liquid crystals
A virtual image display device includes: a transmissive OLED panel configured to transmit external light in a first state and emit backlight in a second state, a display member of a transmissive type facing the transmissive OLED panel, and configured to further transmit the external light passed through the transmissive OLED panel in the first state and transmit the backlight emitted from the transmissive OLED panel in the second state to emit image light, and an imaging optical system facing the transmissive OLED panel with the display member in between, and configured to transmit at least part of the external light in the first state and form an image with the image light in the second state. The transmissive OLED panel includes a first transmissive OLED element configured to emit light of a first color, and a second transmissive OLED element configured to emit light of a second color.
G02F 1/1335 - Structural association of cells with optical devices, e.g. polarisers or reflectors
G02F 1/13363 - Birefringent elements, e.g. for optical compensation
G02F 1/1347 - Arrangement of liquid crystal layers or cells in which the final condition of one light beam is achieved by the addition of the effects of two or more layers or cells
The circuit substrate 100 includes the first wiring layer 130 electrically coupled to the circuit 110, the element substrate 200 includes a first substrate 210, a diaphragm 240, a piezoelectric element, the second substrate 220, and a second wiring layer 230 electrically coupled with the piezoelectric element, and it includes the third wiring layer 330 coupled with the first wiring layer 130 and second wiring layer 230, and the protector 310 that covers the third wiring layer 330.
H05K 1/18 - Printed circuits structurally associated with non-printed electric components
G01H 11/08 - Measuring mechanical vibrations or ultrasonic, sonic or infrasonic waves by detecting changes in electric or magnetic properties by electric means using piezoelectric devices
A liquid ejecting apparatus includes a liquid ejecting head that is driven by a drive signal to eject a liquid, a first substrate, a transistor pair that is provided on the first substrate and includes two bipolar transistors generating the drive signal, a second substrate, and an analog conversion circuit that is provided on the second substrate and converts a digital first waveform signal designating a waveform of the drive signal into an analog second waveform signal designating the waveform of the drive signal, in which the transistor pair generates the drive signal based on the second waveform signal, and the second substrate is provided to be separated from the first substrate.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
An image processing apparatus includes a printing unit configured to perform printing, a communication unit configured to perform wireless communication, and a page processing section configured to perform a process of displaying a setting page for setting the image processing apparatus on a terminal device. The page processing section is configured to perform the process after the communication unit establishes a wireless connection with the terminal device, when the printing unit is in a printable state, and not to perform the process when the printing unit is not in the printable state.
A liquid ejecting head includes a pressure chamber that applies a pressure of a liquid for ejecting a liquid from a nozzle when a first piezoelectric element is driven, and a detection chamber in which a second piezoelectric element detects a residual vibration of the pressure of the liquid applied in the pressure chamber. The first piezoelectric element includes a first piezoelectric body, a first upper electrode, a first lower electrode, and a first vibration plate provided below the first lower electrode, the second piezoelectric element includes a second piezoelectric body, a second upper electrode, a second lower electrode, and a second vibration plate provided below the second lower electrode, and a neutral axis of the second piezoelectric element is positioned above a neutral axis of the first piezoelectric element.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
An inertial measurement device includes: a substrate; a container configured to house the substrate; a first fixation member and a second fixation member configured to fix the substrate to the container; a first sensor disposed at the substrate and configured to detect a physical quantity along an orthogonal axis to the substrate; and a second sensor disposed at the substrate, wherein the first sensor, the first fixation member and the second fixation member, and the second sensor are arranged in this order in a first direction parallel to the substrate, the second sensor detects a physical quantity along a second axis orthogonal to the first axis, and is separated from the first sensor by an area between the first fixation member and the second fixation member when viewed in a direction along the orthogonal axis.
G01P 15/09 - Measuring accelerationMeasuring decelerationMeasuring shock, i.e. sudden change of acceleration by making use of inertia forces with conversion into electric or magnetic values by piezoelectric pick-up
A cartridge includes a liquid accommodating portion configured to accommodate liquid, a supply port member having a supply port that communicates with the liquid accommodating portion and supplies the liquid to an outside of the liquid accommodating portion, a sealing member having a first sealing portion provided on an inner peripheral surface of the supply port, and a second sealing portion provided on an outside of the supply port and configured integrally with the first sealing portion, and a covering member configured to cover a portion of an opening surface of the supply port from the outside of the supply port. The second sealing portion seals between the supply port member and the covering member on the outside of the supply port.
The judgment function judges whether an imaging condition for causing the imaging section to execute imaging of an imaging target region including the test pattern is satisfied. The imaging control function acquires a captured image by causing the imaging section to execute imaging of the imaging target region with satisfaction of the imaging condition as a trigger. The imaging condition is a condition that at least one of the basic conditions is satisfied for at least the predetermined time, where the first condition is that the variation of the relative positional relationship between the imaging section and the medium is equal to or less than the reference variation, and the second condition is that the distortion amount indicating the distortion of the test pattern included in the frames repeatedly acquired from the imaging section is equal to or less than the reference distortion amount. The judgment function judges that the imaging condition is satisfied when at least the basic condition is continuously satisfied for the predetermined time or more.
A resonator element includes three vibrating arms. Each of the three vibrating arms includes an arm extending from a base and a wide section positioned at a tip end portion of the arm. The wide section is wider than the arm. When, of the three vibrating arms, the vibrating arm positioned at a center of an arrangement is provided with the arm having a width denoted by W1 which is defined as a length of the arm in the second direction, and the vibration arms positioned on both sides of the arrangement are provided with the arms each having a width denoted by W2 which is defined as a length of the arms in the second direction, a relationship 1≤W1/W2≤2 is satisfied. When a length of the three vibrating arms in the first direction is denoted by L and a length of the wide sections in the first direction is denoted by Lh, a relationship Lh/L≤0.49 is satisfied.
A liquid ejecting apparatus includes a liquid ejecting head that is driven by a first drive signal to eject a liquid, an analog conversion circuit that converts a digital first waveform signal designating a waveform of the first drive signal into an analog second waveform signal designating the waveform of the first drive signal, a first transistor pair that includes two bipolar transistors generating the first drive signal based on the second waveform signal, a first cooling mechanism that cools the first transistor pair, and a second cooling mechanism that cools the analog conversion circuit.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
A medium transport device includes a transport section that transports a medium, a cutting section that cuts the medium, and a movement section that reciprocates the cutting section. The cutting section includes a cutter unit and a mount section to which the cutter unit is attachable and detachable. The mount section includes an attachment section to which the cutter unit is attached, a cover section configured to be displaced between a closed state and an opened state, and an interference section. The interference section is positioned at a non-obstructing position for not obstructing displacement of the cover section from the opened state to the closed state when the cutter unit is attached to the attachment section, and is positioned at an obstructing position for obstructing displacement of the cover section from the opened state to the closed state when the cutter unit is not attached to the attachment section.
Provided is a carbon black composition for coloring containing carbon black and fulvic acid, wherein the carbon black contains a hydrophilic functional group.
The image capturing device includes a transport section configured to transport a document in a transport direction; a capturing section configured to capture an image from a document transported by a transport section; a control section. The control section acquires a first edge position and a second edge position included in a first edge, which are between a first reference position and a second reference position included in a first edge, from the image captured by the capturing section; in the transport direction, when both the first edge position and the second edge position are on the opposite side of the first straight line passing through the first reference position and the second reference position, pauses the transport of the document when the inclination angle of the second straight line passing through the first edge position and the second edge position relative to the width direction exceeds the prescribed angle.
A liquid-ejecting-apparatus is configured to eject at least three droplets, which coalesce before landing on a medium from an ejection-section, by using a drive signal including in a unit-time: a at least three ejection-pulses that has respectively a filling element and an ejection element; and at least two coupling elements coupling consecutive ejection-pulses. A period from the start of the filling element to the start of the ejection element in each of the ejection-pulses is in range from 0.3Tc to 0.7Tc, where Tc is a natural vibration period of the ejection-section. Absolute values of electrical potential change ranges of the ejection-elements of the at least three ejection-pulses are great sequentially in the unit time. Electrical potentials maintained by the coupling elements are sequentially close to an electrical potential of an ending edge of a filling element of the last ejection-pulse in the unit time.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
To provide a printed matter that has excellent fixing property and color developing property, suppresses color unevenness, and is obtained by reducing the total content of nitride at the time of draining. A treatment liquid composition for dye printing contains one or more types of sugars selected from lactose, sucrose, trehalose, and sorbitol, a polymer compound, and a pH adjusting agent, in which a pH is 7.0 or less and a viscosity is 2.0 mPa·s or more and 20,000 mPa·s or less.
D06P 5/00 - Other features in dyeing or printing textiles or dyeing leather, furs or solid macromolecular substances in any form
B41J 3/407 - Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed for marking on special material
B41M 5/00 - Duplicating or marking methodsSheet materials for use therein
A light source device according to the present disclosure includes a light source unit including a light emitting element configured to emit light, a light guide member onto which the light emitted from the light emitting element is incident and which is configured to emit light, a support member configured to support the light guide member, a pressing unit configured to press the light guide member against the support member, a measurement unit configured to measure a characteristic value correlated with a temperature of the light guide member, a controller configured to acquire the characteristic value measured by the measurement unit, and a temperature adjustment unit configured to adjust the temperature of the light guide member, wherein the controller controls the temperature adjustment unit based on the characteristic value.
A three dimensional shaping device includes a plasticizing section that plasticizes a material to generate a shaping material; a nozzle that communicates with the plasticizing section and that includes an ejection port for ejecting the shaping material toward a stage; a movement mechanism that changes a relative position between the nozzle and the stage; a shaping data holding section that holds shaping data for shaping a three dimensional shaped object; and a control section that controls ejection of the shaping material from the nozzle and the movement mechanism in accordance with the shaping data read from the shaping data holding section to shape the three dimensional shaped object, wherein the control section loads new shaping data into the shaping data holding section during a shaping period in which the three dimensional shaped object is shaped.
A printing device includes a head configured to eject liquid, a housing that has a cover configured to open and close and that is configured to accommodate the head, a supply tube configured to supply the liquid to the head, a connection section configured to attachably and detachably connect the supply tube to head, a connection section side engagement section provided on the connection section, and a housing side engagement section provided inside the cover, wherein the connection section side engagement section is configured to engage with the housing side engagement section in a state where the cover is opened, the housing side engagement section, which is positioned at the storage position P2, is configured to move to an engagement position where the connection section side engagement section is configured to, by pivoting around a pivot shaft, engage with the connection section side engagement section, and the center of gravity of the housing side engagement section is positioned on an opposite side to the side that engages with the connection section side engagement section with the pivot shaft interposed therebetween.
A medium transport apparatus includes a medium housing unit configured to house a medium and to be inserted into and pulled out from an apparatus main body along first directions, a transport unit provided in one of the apparatus main body and the medium housing unit, having a rotation shaft along the first directions, and contacting the medium and transporting the medium in second directions, and a cleaning member provided in the other of the apparatus main body and the medium housing unit, and configured to contact the transport unit and clean the transport unit, wherein the transport unit and the cleaning member rub against each other as the transport unit and the cleaning member move relative to each other in conjunction with insertion and pullout of the medium housing unit into and from the apparatus main body.
B41J 13/03 - Rollers driven, e.g. feed rollers separate from platen
B41J 13/10 - Sheet holders, retainers, or stationary guides
B65G 17/12 - Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriersEndless-chain conveyors in which the chains form the load-carrying surface comprising a series of individual load-carriers fixed, or normally fixed, relative to traction element
A medium conveyance device includes first rotating bodies, second rotating bodies, a first drive section, a second drive section, and an operation section coupled to the first drive section and the second drive section. The first and the second rotating bodies are able to be manually operated with the operation section. The operation section includes an input section to which an operation force can be manually input and a switching section capable of switching a transmission state and a disconnected state. The switching section includes a first and second switching sections coupled to, respectfully, first and second drive sections. The switching section takes the disconnected state when a driving force is input from the first or second drive source and takes the transmission state when the driving force is not input from the first or the second drive source and an operation force is input to the input section.
Assembling a base plate by inserting a second member into an opening portion of a first member, the second member being configured by a plurality of nest members, shaping a stacking that is to be a part of the molding die by ejecting a shaping material onto the base plate and stacking a layer, removing the nest members from the base plate on which the stacking body was shaped, and subjecting the stacking body to a cutting process are involved. During assembling of the base plate, the plurality of nest members are arrayed and inserted to fill the opening portion.
A liquid ejecting apparatus includes: a liquid ejecting head including a nozzle that ejects liquid, a pressure chamber, and a piezoelectric body that applies pressure to the liquid in the pressure chamber to eject the liquid from the nozzle; a voltage application circuit configured to apply a voltage to the piezoelectric body; and an acquisition section configured to acquire a degree of deterioration of the piezoelectric body, based on information regarding an integral value of a current generated when the voltage applied to the piezoelectric body is gradually changed from a first voltage to a second voltage.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
A method of the present disclosure includes (a) setting a processing condition including a job list that defines set-up work times in a plurality of machines for each of a plurality of jobs, (b) obtaining a temporary solution for a work plan by dividing each of the set-up work times in the job list by a time divisor to create a simplified job list and solving a job shop scheduling problem relating to the simplified job list as a 0-1 integer programming problem, and (c) modifying work times of respective jobs in the temporary solution of the set-up work times and obtaining a final solution of the work plan.
G06Q 10/0631 - Resource planning, allocation, distributing or scheduling for enterprises or organisations
G06Q 10/04 - Forecasting or optimisation specially adapted for administrative or management purposes, e.g. linear programming or "cutting stock problem"
09 - Scientific and electric apparatus and instruments
Goods & Services
Video projectors, LCD projectors; LCD video projectors; multimedia projectors; digital projectors; home theater video projectors; home theater systems comprising video projectors, DVD players, audio amplifiers and audio speakers; video projectors and component parts; component parts of video projectors in the nature of optical engines for LCD projectors; downloadable computer software for operating, managing and controlling projectors; recorded computer software for operating, managing and controlling projectors
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) Video projectors; LCD projectors; LCD video projectors; multimedia projectors; home theater projectors; 3D holographic projectors; cine projectors; cinematographic projectors; home cinema projectors; mini beam projectors; motion picture projectors; movie projectors; opaque projectors; photographic projectors; profile projectors; projectors for the entertainment industry; sound projectors; remote controls for projectors; optical engines for LCD projectors; computer software for operating, managing and controlling projectors.
A liquid ejection device includes an ejection head including a nozzle plate having a first surface in which a plurality of nozzles are provided and a liquid supply path configured to supply liquid to the plurality of nozzles; a storage case facing the first surface of the nozzle plate; and an ultrasonic generator that is provided in the storage case and that is configured to generate ultrasonic waves, wherein the ultrasonic generator is configured to, by the ultrasonic waves propagated to the nozzle plate through the storage case, generate standing waves inside the plurality of nozzles.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
A liquid ejection apparatus includes a liquid ejection unit, a support unit, and a drive board. The liquid ejection apparatus includes a first air suction passage, a first fan, a second air suction passage, a second fan, a bypass passage, and a switching mechanism. The first air suction passage suctions air at at least one of upstream and downstream positions of the liquid ejection unit with suction force of the first fan. The second air suction passage feeds external air to the drive board with suction force of the second fan. The bypass passage feeds air discharged from the first fan to the second air suction passage. The switching mechanism is configured to be switchable between an open state in which the bypass passage communicates with the second air suction passage and a closed state in which the bypass passage does not communicate with the second air suction passage.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
A medium discharge device 3 includes a medium discharge section 30 that discharges a medium M in a discharge direction, a placement section 14 having a placement surface 40 on which the medium M discharged from the medium discharge section 30 is placed; and a medium stopper 45 that is provided at an end section of the placement section 14 in the discharge direction and that restricts movement of the discharged medium M in the discharge direction, wherein the medium stopper 45 rises upright with respect to the placement surface 40, has a first contact surface S1 configured to come into contact with a downstream end of the discharged medium M in the discharge direction, and has a second contact surface S2 that is located above the first contact surface S1 and that is configured to come into contact with a downstream end of the discharged medium M in the discharge direction.
There is provided a refining device including: a casing that has a supply port to which a raw material containing a fiber is supplied and a discharge port for discharging a refined product obtained by refining the raw material; a rotor that is rotatably installed in the casing and has a plurality of blades disposed radially from a rotation axis; a filter member that is installed in the casing to cover an outer periphery of the rotor and is composed at least partially of a mesh; and a flow rectifying member that is positioned in an annular space between the filter member and an inner peripheral surface of the casing and protrudes toward the discharge port.
D21B 1/10 - Fibrous raw materials or their mechanical treatment by dividing raw materials into small particles, e.g. fibres by dry methods the raw material being waste paperFibrous raw materials or their mechanical treatment by dividing raw materials into small particles, e.g. fibres by dry methods the raw material being rags by cutting actions
D21F 9/00 - Complete machines for making continuous webs of paper
An ink jet ink composition includes a pigment and a surfactant. The pigment includes carbon black derived from a vegetable oil or carbon black derived from a recycled raw material. The surfactant includes a surfactant A having an HLB value of 10 or more and less than 15 and a surfactant B which is an acetylene glycol-based surfactant having an HLB value of 3 or more and less than 10. The ink jet ink composition is an aqueous ink.
A liquid ejecting apparatus includes: a print head including a vibration plate, a pressure chamber, a nozzle from which the liquid is ejected, and a temperature detecting section that outputs a head temperature signal corresponding to a temperature of the pressure chamber; a temperature information output circuit that outputs a temperature information signal corresponding to the head temperature signal acquired at predetermined sampling periods and holds a plurality of pieces of temperature information obtained by acquiring the head temperature signal at each of the sampling periods; and a processor that determines the number of samples of the pieces of temperature information to be used to generate the temperature information signal, based on an adjustment temperature information group including the plurality of pieces of temperature information. The number of samples determined by the processor is stored in the temperature information output circuit.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
A liquid ejecting apparatus includes a drive circuit that outputs a drive signal, a print head that ejects a liquid by receiving the drive signal, and a temperature information output circuit that acquires a head temperature signal corresponding to a temperature of the print head, in which the temperature information output circuit includes a temperature information acquisition circuit that acquires, from the head temperature signal, temperature information corresponding to the temperature of the print head, and a timing control circuit that controls a timing at which the temperature information acquisition circuit acquires the temperature information, and the timing control circuit determines whether or not a voltage value of the drive signal is constant, and outputs a timing control signal for controlling, based on a determination result, the timing at which the temperature information acquisition circuit acquires the temperature information.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
56.
Processing Apparatus, Processing Method, And Non-Transitory Computer-Readable Storage Medium Storing Processing Program
A processing apparatus includes a head-related transfer function processing unit that applies a head-related transfer function corresponding to an angle of a virtual sound source with respect to a listening position to monaural sound source data to generate stereo first sound data, a volume panning processing unit that performs volume panning processing on the first sound data based on the angle of the virtual sound source to generate stereo second sound data, and a correction processing unit that corrects a delay amount and a volume of the second sound data based on arrangement information of a plurality of sound output devices to generate stereo third sound data to be output by two of the plurality of sound output devices.
A clasp includes a coupling member having an engaged portion and a clasp main body, in which the clasp main body includes an engagement member, an operation member, and a lock member, the engagement member is configured to be engaged with an engaged portion without operating the operation member in a state where the engagement member is not engaged with the engaged portion, an engagement is released by moving the engagement member to a release position by the operation member in a state where the engagement member is engaged with the engaged portion, and when the lock member is moved to the operation restriction position, the engagement member is restricted from being moved to the release position by the operation member.
The recording apparatus includes a recording unit configured to perform recording on a medium, a support unit capable of supporting the medium, a moving unit configured to move the support unit between a first position facing the recording unit and a second position separated from the recording unit, and an air flow generation unit configured to generate at least an ejection air flow in a direction from the recording unit toward a position of the support unit present at the first position in a period in which the support unit moves toward the first position or the second position.
A drying device includes a heating section that heats a medium on which was ejected pigment ink, a first contact section provided between the heating section and the medium and configured to contact the medium, and a second contact section provided at a position sandwiching the medium with respect to the heating section and configured to contact the medium. The heating section, in a first period, vaporizes water contained in the pigment ink by heating the pigment ink in a state where the medium is sandwiched between the first and second contact sections. In a second period, solvent contained in the pigment ink is vaporized by heating the pigment ink in a state where the medium is sandwiched between the first and second contact sections. The drying device releases the medium from being sandwiched by the first and second contact sections after the medium is heated.
A circuit board and so on capable of increasing the reliability while avoiding a rise in cost are provided. The circuit board according to an embodiment of the present disclosure is a circuit board configured to output a drive signal to be applied to a liquid jet head, including a first circuit board having a connector, and a second circuit board having a terminal section as a portion to be inserted into the connector. A first marking portion which is an index when visually confirming a coupling state between the connector and the terminal section is disposed on the first circuit board, and a second marking portion which is an index when visually confirming the coupling state is disposed on the second circuit board.
H01R 12/79 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to rigid printed circuits or like structures
There is provided a band length extension mechanism that allows switching between a folded state and a deployed state, the band length extension mechanism including: an adjustment link; a link piece; an extension piece that couples the adjustment link and the link piece to each other; and a locking member, in which the extension piece is rotatably coupled to the adjustment link at a first shaft and is rotatably coupled to the link piece at a second shaft, in the folded state, the extension piece is stored in an overlapping manner with the adjustment link and the link piece, in the deployed state, the adjustment link, the extension piece, and the link piece are deployed and extended, the locking member is slidably provided on one surface of the adjustment link, and in the folded state, the locking member is engaged with the extension piece to achieve locking.
The printing device 1 includes a head unit U having a nozzle row L formed of a plurality of nozzles 21 capable of ejecting the first liquid onto the medium S, and a control unit 4 that controls the ejection operation of the head unit U. The first liquid is a colorless liquid containing resin particles and water. In a case where the medium S is a fabric having an uneven shape in which fibers in different directions intersect each other, the control unit 4 can execute a jacquard print mode in which an image is formed on the medium S by ejecting the first liquid from the nozzle row L.
B41J 3/407 - Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed for marking on special material
B41J 11/00 - Devices or arrangements for supporting or handling copy material in sheet or web form
C09D 11/101 - Inks specially adapted for printing processes involving curing by wave energy or particle radiation, e.g. with UV-curing following the printing
C09D 11/40 - Ink-sets specially adapted for multi-colour inkjet printing
A light source device according to the present disclosure includes a light source section including a light-emitting element that emits light from a light-emitting surface, a substrate that supports the light-emitting element, and, at a light-emitting surface side of the light-emitting element, a metal wire that electrically connects the light-emitting element and the substrate, a light guide member into which the light emitted from the light-emitting element enters and from which the light is emitted; and a support member that supports the light guide member and that has conductivity, wherein the support member includes a support groove for accommodating the light guide member, the support groove includes a support surface that supports the light guide member and a side wall surface of a side wall section that intersects with the support surface and that faces a side surface of the light guide member, the light source section faces a top surface of the side wall section, and an insulating section is provided on at least one of the top surface and the side wall surface.
A display system includes a plurality of communication terminals and a monitor capable of communicating with the plurality of communication terminals, the monitor is capable of displaying an image in a display region, first communication between a first communication terminal among the plurality of communication terminals and the monitor is established, when authorization of second communication between a second communication terminal among the plurality of communication terminals and the monitor is requested from the second communication terminal while the image is displayed in the display region, the monitor transmits, to the first communication terminal, information indicating that the authorization of the second communication is requested, the first communication terminal outputs, to the first communication terminal, information for causing a user of the first communication terminal to determine whether to approve the authorization of the second communication, and the monitor establishes the second communication when information indicating that the authorization of the second communication was approved is received from the first communication terminal.
A display system including three or more communication terminals and a monitor includes establishing, with the monitor, first communication with a first communication terminal in which management authority for managing authorization of communication with the monitor is set and second communication with a second communication terminal, when authorization of third communication between a third communication terminal and the monitor is requested from the third communication terminal while the image is displayed in the display region, transmitting, with the monitor, to a management device in which the management authority is set, information indicating that authorization of the third communication is requested, outputting, with the management device, to the monitor, communication determination information for causing a user of the management device to determine whether to approve the authorization of the third communication, and establishing, with the monitor, the third communication when information indicating that the authorization of the third communication was approved is received from the management device.
A liquid ejecting head includes a liquid ejecting section including a plurality of drive elements for causing a plurality of nozzles to eject the liquid, a conductive head cover for exposing the plurality of nozzles to an outside, and a wiring substrate on which an integrated circuit is mounted, in which the wiring substrate includes a first ground wiring that is electrically coupled to the head cover without being electrically coupled to an electrode of the drive element and a second ground wiring that is electrically coupled to the integrated circuit, and the first ground wiring and the second ground wiring are electrically separated from each other in the wiring substrate.
A robot system includes an acquisition unit configured to acquire stop parameter information regarding a stop parameter corresponding to a condition regarding a stop of a predetermined portion on a robot arm when the robot arm is subjected to an emergency stop, a determination unit configured to determine whether to subject the robot arm to the emergency stop during an operation of the robot arm, and a drive control unit configured to execute a stop operation based on the stop parameter information when the determination unit determines to subject the robot arm to the emergency stop.
A material supplying device includes a plasticizing section configured to plasticize a material to generate a plasticization material; a nozzle configured to supply the plasticization material to the outside; a supply control mechanism that is provided in a flow path communicating with the plasticizing section and the nozzle, and that is configured to adjust a supply amount of the plasticization material from the nozzle to the outside; a pressure sensor configured to measure the pressure of the plasticization material in the flow path; and a control section configured to control an operation of the supply control mechanism, wherein the control section is configured to calculate a backlash value indicating backlash of the supply control mechanism based on detection data including a detection value output from the pressure sensor, and the detection data is data including in time series the detection values output from the pressure sensor.
A sheet manufacturing apparatus includes a humidifying case and a humidified air generator attachable to and detachable from the humidifying case, the humidifying case includes a first sensor, the humidified air generator includes a water storage unit that stores water and a float unit that is displaced according to a water level of the water storage unit, and the first sensor detects that the float unit is located at a first position that is a position of the float unit in a state where the humidified air generator is set in the humidifying case and drainage of the water storage unit is completed.
A display method includes: acquiring, by a first display device, coordinate information; acquiring, by the first display device, first content corresponding to the coordinate information; acquiring, by the first display device, second content corresponding to the coordinate information; displaying, on a first display area, the first display area being an area in which a first image is displayed by the first display device, the first image generated based on a first aspect ratio of the first display area and the first content; and displaying, on a second display area, the second display area being an area in which a second image is displayed by a second display device, the second image generated based on a second aspect ratio of the second display area and the second content.
the first pressure chamber substrate is provided with a first pressure chamber partitioned by the first portion, the third portion, and the fourth portion, and a second pressure chamber partitioned by the second portion, the third portion, and the fifth portion, the second pressure chamber substrate is provided with a third pressure chamber partitioned by the third portion, the fourth portion, the fifth portion and communicating with the first pressure chamber, the second pressure chamber, and a nozzle, and the piezoelectric element is commonly disposed across the first pressure chamber, the second pressure chamber, and the third pressure chamber.
A real-time clock device includes an input terminal to which a reference pulse signal of a time is input, an oscillation circuit that outputs an oscillation clock signal, a clock count circuit that generates information on an internal time based on the oscillation clock signal, and a processing circuit that performs, in a case in which it is determined that a time lag occurs at the internal time when the reference pulse signal is input, frequency correction of the oscillation clock signal based on a time lag amount and a time interval of the time lag, and time correction of the internal time.
A sheet manufacturing apparatus includes an accumulation mechanism that accumulates a fiber material, a transport mechanism that transports the accumulated fiber material by using a transport belt, and a forming mechanism that forms the transported fiber material into a sheet. The transport mechanism includes a rotary brush that cleans a surface of the transport belt, a comb that has a front end inserted into the rotary brush, and a paddle that sweeps a surface of the comb.
D21B 1/08 - Fibrous raw materials or their mechanical treatment by dividing raw materials into small particles, e.g. fibres by dry methods the raw material being waste paperFibrous raw materials or their mechanical treatment by dividing raw materials into small particles, e.g. fibres by dry methods the raw material being rags
D21F 9/00 - Complete machines for making continuous webs of paper
A method for correcting a projection image projected from a projector onto a projection surface, the method including: acquiring depth information indicating multiple distances from a distance sensor to multiple positions on the projection surface based on an output from the distance sensor, the distance sensor configured to irradiate the projection surface with radiated light and receive reflected light reflected off the projection surface; acquiring intensity information indicating an intensity of the reflected light at each of the multiple positions; generating a parameter that defines the projection surface based on the depth information and the intensity information; and correcting the projection image based on the parameter.
A method for correcting a projection image projected from a projector onto a projection surface, the method including: acquiring depth information indicating multiple distances from a distance sensor to multiple positions on the projection surface based on an output from the distance sensor; calculating a position of a plane based on the depth information; calculating a first normal vector for the plane; calculating a gravity vector based on an output from an acceleration sensor associated with a coordinate system of the projector; generating a second normal vector by converting the first normal vector in such a way that an inner product of the gravity vector and the first normal vector is a cosine of an angle between a horizontal plane and the projection surface; and correcting the projection image based on the second normal vector.
H04N 9/31 - Projection devices for colour picture display
76.
Signal Processing Method, Signal Processing Apparatus, Signal Processing System, And Non-Transitory Computer-Readable Storage Medium Storing Signal Processing Program
A signal processing method includes generating a first Lissajous figure based on a physical quantity generated by a vibration of an object, generating second to N-th Lissajous figures by rotating the first Lissajous figure, N being an integer of 2 or more, and calculating an (i−1)-th degree of difference as a degree of difference between the first Lissajous figure and the i-th Lissajous figure with respect to each integer i from 2 to N.
A method for producing a three-dimensional shaped object includes a first acquisition step for acquiring first shape data representing a three-dimensional shape of the three-dimensional shaped object and first shaping data that is generated on the basis of the first shape data and that is for shaping the three-dimensional shaped object; a first display step for displaying the three-dimensional shaped object on a display section based on the first shape data; a determination step for determining a target region of the three-dimensional shaped object that is displayed on the display section based on a designation region that designates a range in three-dimensional space; a second acquisition step for selecting data of a portion corresponding to the target region in the first shaping data and acquiring second shaping data; and a shaping step, based on the second shaping data, for performing three-dimensional shaping to stack layers by discharging shaping material from a discharge section toward a stage.
B29C 64/393 - Data acquisition or data processing for additive manufacturing for controlling or regulating additive manufacturing processes
B29C 64/118 - Processes of additive manufacturing using only liquids or viscous materials, e.g. depositing a continuous bead of viscous material using filamentary material being melted, e.g. fused deposition modelling [FDM]
A liquid ejection device including an ejection head that ejects a liquid, a liquid supply flow path that supplies the liquid to the ejection head, an ultrasonic generator provided with an ultrasonic element that transmits ultrasonic waves in a first direction that intersects with a flow direction of the liquid in the liquid supply flow path, and a branch flow path that branches in a second direction that intersects the flow direction and the first direction from a position of the liquid supply flow path where the ultrasonic waves are transmitted, wherein the ultrasonic generator that generates a gradient of acoustic radiation force in which the acoustic radiation force increases from the liquid supply flow path toward the branch flow path.
A medium transport device includes a first roller, a second roller, a first rotation shaft supporting the first roller, a displacement mechanism configured to displace the first rotation shaft to a first position P1 where the first roller and the second roller are configured to nip the medium and to a second position P2 where both and are separated from each other, and a door configured to rotate into an opened position and into a closed position around an axis that intersects the first rotation, wherein the door includes an acting section, the displacement mechanism includes an action receiving section, and when the door rotates to the closed position and the acting section no longer pushes the action receiving section, the displacement mechanism displaces the first rotation shaft from the first position to the second position.
A three-dimensional modeling device includes a first heating unit including a heating surface that heats a plasticized material stacked on a stage, a measurement unit including a first sensor that measures a position of the heating surface, and a control unit. The heating surface includes a first heating region and a second heating region, the first heating unit includes a first heater part and a second heater part, and the control unit executes first processing for setting an output of the first heater part lower than an output of the second heater part when it is determined, based on measurement of a position of the heating surface, that a distance between the first heating region and the stage is a first distance and a distance between the second heating region and the stage is a second distance larger than the first distance.
B29C 64/118 - Processes of additive manufacturing using only liquids or viscous materials, e.g. depositing a continuous bead of viscous material using filamentary material being melted, e.g. fused deposition modelling [FDM]
An injection molding device includes a molding die including a fixed die and a movable die, a probe with a probe flow path through which a plasticized material is injected toward a cavity formed by the molding die, and a partition member. The fixed die includes a first plate with a first through hole that communicates with a second through hold of and a second plate. The probe is disposed in the first through hole and the second through hole. A first space is formed between an outer peripheral surface of the probe and an inner wall surface of the first through hole. A second space is formed between the outer peripheral surface and an inner wall surface of the second through hole. The partition member is disposed in the first through hole or the second through hole to surround the probe and partition the first and second spaces.
A method for determining a projection region including identifying the coordinates that are in a screen coordinate system, for each of four vertices corresponding in a one-to-one relationship to four vertices of a rectangle that defines a drawing region of a panel, the screen coordinate system of a projection surface; identifying first intersection coordinates that are in the screen coordinate system and that are coordinates of a first intersection where the two diagonals of a quadrangle corresponding to the first quadrangle; identifying as a first rectangle a largest rectangle that falls within the quadrangle, has a center at the first intersection coordinates, and has a first aspect ratio; and determining the projection region of the projection surface based on the first rectangle.
A display method includes: acquiring a master image; acquiring a first aspect ratio of a first display screen of a first display device; setting a first region in a master region of the master image based on the first aspect ratio; displaying, on the first display screen, a first image obtained by trimming an image portion inside the first region in the master image; acquiring a second aspect ratio of a second display screen of a second display device different from the first display device; setting, in the master region, a second region having an overlapping region that overlaps the first region and a non-overlapping region that does not overlap the first region in at least one of a first direction and a second direction that are orthogonal to each other in the master region, based on the second aspect ratio; and displaying, on the second display screen, a second image obtained by trimming an image portion inside the second region in the master image.
H04N 21/4402 - Processing of video elementary streams, e.g. splicing a video clip retrieved from local storage with an incoming video stream or rendering scenes according to encoded video stream scene graphs involving reformatting operations of video signals for household redistribution, storage or real-time display
A display method includes: acquiring a master image; acquiring a first aspect ratio of a first display area, the first display area being an area in which a first image is displayed by a first display device; setting a first region in a master region of the master image based on the first aspect ratio; displaying, on the first display area, the first image obtained by cutting out an image portion inside the first region in the master image; acquiring a second aspect ratio of a second display area, the second display area being an area in which a second image is displayed by a second display device; setting, in the master region, a second region having an overlapping region that overlaps the first region and a non-overlapping region that does not overlap the first region in at least one of a first direction and a second direction that are orthogonal to each other in the master region, based on the second aspect ratio; displaying, on the second display area, the second image obtained by cutting out an image portion inside the second region; setting a positional relationship between the first region and the second region; and updating, when one of the first region and the second region is updated, the other region to maintain the positional relationship.
H04N 21/44 - Processing of video elementary streams, e.g. splicing a video clip retrieved from local storage with an incoming video stream or rendering scenes according to encoded video stream scene graphs
H04N 21/4402 - Processing of video elementary streams, e.g. splicing a video clip retrieved from local storage with an incoming video stream or rendering scenes according to encoded video stream scene graphs involving reformatting operations of video signals for household redistribution, storage or real-time display
A projection system that project an image onto the road surface to paint a road surface marking on the road surface, the projection system, according to present embodiment of the present disclosure, includes a projector that projects the image onto the road surface, a first installation section in which the projector is installed, a base provided with the first installation section, and a movement mechanism that moves the base. Each of red light, green light, and blue light included in the light emitted from the projector and projected onto the road surface is S-polarized light.
An information processing method includes: transmitting, by an information terminal paired with each of a first device including a first light emitter and a second device including a second light emitter, first information for controlling driving of the first light emitter to the first device, based on first identification information related to the first device; executing, by the first device, first control for controlling the driving of the first light emitter, based on the first information; acquiring, by the information terminal, first image data representing an image including a first object and a second object, the first image data being an image of the first light emitter and the second light emitter picked up after the execution of the first control; and associating, by the information terminal, the first object with the first device, based on the first image data and the first information.
A real-time clock device a real-time clock device that has a first mode and a second mode, the device including an input terminal to which a reference pulse signal of a time is input, an output terminal that outputs a synchronization pulse signal of the time, an oscillation circuit that outputs an oscillation clock signal, a clock count circuit that generates information on an internal time based on the oscillation clock signal, and a processing circuit that performs time correction of the internal time based on the reference pulse signal input from the input terminal and causes the output terminal to output the synchronization pulse signal generated based on the information on the internal time in the first mode, and performs the time correction of the internal time based on the reference pulse signal input from the input terminal in the second mode.
A sheet manufacturing apparatus includes a defibrator that defibrates a paper piece to form a defibrated material, an accumulator that accumulates the defibrated material on a mesh belt to form an accumulating material, a forming machine that forms the transported accumulating material to produce a strip-shaped sheet, and a return mechanism that sends a residual accumulating material that is the defibrated material being accumulating to the defibrator on condition that the accumulator has stopped or is stopped during accumulation.
D21G 9/00 - Other accessories for paper-making machines
D21B 1/06 - Fibrous raw materials or their mechanical treatment by dividing raw materials into small particles, e.g. fibres by dry methods
D21F 2/00 - Transferring continuous webs from wet ends to press sections
89.
Signal Processing Method, Signal Processing Apparatus, Signal Processing System, And Non-Transitory Computer-Readable Storage Medium Storing Signal Processing Program
A signal processing method includes generating a first Lissajous figure based on a physical quantity generated by a vibration in a first period, generating an i-th Lissajous figure based on a physical quantity generated by a vibration in an i-th period with respect to each integer i from 2 to N, N being an integer of 2 or more, and calculating an (i−1)-th degree of difference as a degree of difference between the first Lissajous figure and the i-th Lissajous figure.
The waveform determining section causes the detection circuit to detect, as a first residual vibration, a residual vibration of the vibration plate after N piezoelectric elements corresponding to N nozzles among the plurality of nozzles are driven with an evaluation waveform in which a rate of change in an electrical potential is a first electrical potential change rate, and causes the detection circuit to detect, as a second residual vibration, a residual vibration of the vibration plate after the N piezoelectric elements are driven with an evaluation waveform in which the rate of change in the electrical potential is a second electrical potential change rate lower than the first electrical potential change rate, and determines a waveform of a drive signal based on the first residual vibration and the second residual vibration.
B41J 2/045 - Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
91.
Atomic Oscillator And Frequency Signal Generation System
An atomic oscillator includes a frequency oscillator configured to output an oscillation signal; a light source configured to output laser light containing first light and second light having frequencies different from each other based on a modulation signal corresponding to the oscillation signal; an atomic cell configured to encapsulate alkali metal atoms; a light reflector including a mirror configured to change a reflection angle of the laser light to cause the laser light reflected off the mirror to enter the atomic cell at a predetermined cycle; a photodetector configured to detect the laser light passing through the atomic cell and output a detection signal corresponding to an intensity of the laser light; and
An atomic oscillator includes a frequency oscillator configured to output an oscillation signal; a light source configured to output laser light containing first light and second light having frequencies different from each other based on a modulation signal corresponding to the oscillation signal; an atomic cell configured to encapsulate alkali metal atoms; a light reflector including a mirror configured to change a reflection angle of the laser light to cause the laser light reflected off the mirror to enter the atomic cell at a predetermined cycle; a photodetector configured to detect the laser light passing through the atomic cell and output a detection signal corresponding to an intensity of the laser light; and
a control circuit configured to control the frequency oscillator based on the detection signal to adjust a frequency of the oscillation signal so that the alkali metal atoms cause an electromagnetically induced transparency phenomenon to occur.
H03L 7/26 - Automatic control of frequency or phaseSynchronisation using energy levels of molecules, atoms, or subatomic particles as a frequency reference
09 - Scientific and electric apparatus and instruments
14 - Precious metals and their alloys; jewelry; time-keeping instruments
37 - Construction and mining; installation and repair services
39 - Transport, packaging, storage and travel services
40 - Treatment of materials; recycling, air and water treatment,
Goods & Services
Ink, filled ink bottles and filled ink cartridges all for photocopiers, digital printers, computer printers, ink jet printers, large format ink jet printers, inkjet plotters, barcode printers, and multi-function digital printers incorporating copying and scanning and faxing capabilities; Filled ink bottles in retail packaging; Filled ink cartridges in retail packaging; Toners and filled toner cartridges all for photocopiers, digital printers, computer printers, laser printers, large format printers, barcode printers, and multi-function digital printers incorporating copying and scanning and faxing capabilities; Printing ink; Ink bottles filled with ink; Ink bottles for printers; Dyes; Pigments; Paints; Varnishes; Metals in foil and powder form for painters, decorators, printers and artists Printing machines; Printheads for printing machines; Parts and fittings for printing machines; Inkjet printing machines for industrial purposes; Digital printing machines for industrial purposes; Digital label printing machines for industrial purposes; Printing machines for textile; Inkjet printing machines for textile; Digital printing machines for textile; Dyeing machines; Machines for dyeing textiles; Rotary printing presses; Intaglio printing machines; Silk screen printing machines; Machines for textile processing; Large format inkjet printing machines for commercial or industrial use; Large format inkjet printing machines for textiles; Industrial printing machines; Industrial robots; Robotic arms for industrial purposes; 3D printers; Injection moulding machines; Injection plastic moulding machines Printers; Inkjet printers; Large format inkjet printers; Computer printers; Colour printers; Digital printers; Photo printers; Laser printers; Thermal printers; Multi-function printers incorporating copying and scanning and faxing capabilities; Receipt printers; Label printers; Ink cartridges, unfilled, for printers; High capacity ink cartridges, unfilled for inkjet printers; Scanners (data processing equipment); Document scanners; Image scanners; Photo-copying machines; Projectors; Video projectors; LCD projectors; LCD video projectors; Multimedia projectors; Digital projectors; Home theater projectors; Home theater systems; Projectors and their parts; Computers; Computer hardware; Computer peripherals; Computer software Clocks and watches; Wristwatches; Component parts for clocks and watches Installation, repair, maintenance and refurbishment of computer hardware and computer peripherals; Installation, repair, maintenance and refurbishment of printers, scanners, projectors and computers; Installation, repair, maintenance and refurbishment of audiovisual teaching apparatus; Installation, repair, maintenance and refurbishment of electronic machines and apparatus; Installation, repair, maintenance and refurbishment of industrial robots; Installation, repair, maintenance and refurbishment of industrial robots for plastic moulding; Installation, repair, maintenance and refurbishment of injection moulding machines; Installation, repair, maintenance and refurbishment of 3D printers; Installation, repair, maintenance and refurbishment of printing machines; Installation, repair, maintenance and refurbishment of textile printing machines, textile dyeing machines and textile processing machines; Installation, repair, maintenance and refurbishment of computer printers; Installation, repair, maintenance and refurbishment of office machines and equipment; Installation, repair, maintenance and refurbishment of telecommunications apparatus and instruments; Repair, maintenance and refurbishment of clocks and watches; Refilling of ink cartridges, toner cartridges, ink ribbons, ink bottles, ink tanks, ink for printers and printing machines, printing ink Collection of used ink cartridges; Transport and storage of used ink cartridges; Collection, transport and storage of printers, scanners, projectors, computers, watches and clocks for recycling and refurbishment; Collection, transport and storage of waste and trash; Collection, transport and storage of recyclable goods; Collection, transport and storage of recycling materials; Collection, transport and storage of electronic scrap; Collection, transport and delivery of goods; Storage of goods; Transport Recycling of used ink cartridges; Processing and recycling of waste and trash; Upcycling (waste recycling); Processing of printing ink; Processing of ink for computer printers
09 - Scientific and electric apparatus and instruments
14 - Precious metals and their alloys; jewelry; time-keeping instruments
37 - Construction and mining; installation and repair services
39 - Transport, packaging, storage and travel services
40 - Treatment of materials; recycling, air and water treatment,
Goods & Services
Ink, filled ink bottles and filled ink cartridges all for photocopiers, digital printers, computer printers, ink jet printers, large format ink jet printers, inkjet plotters, barcode printers, and multi-function digital printers incorporating copying and scanning and faxing capabilities; Filled ink bottles in retail packaging; Filled ink cartridges in retail packaging; Toners and filled toner cartridges all for photocopiers, digital printers, computer printers, laser printers, large format printers, barcode printers, and multi-function digital printers incorporating copying and scanning and faxing capabilities; Printing ink; Ink bottles filled with ink; Ink bottles for printers; Dyes; Pigments; Paints; Varnishes; Metals in foil and powder form for painters, decorators, printers and artists Printing machines; Printheads for printing machines; Parts and fittings for printing machines; Inkjet printing machines for industrial purposes; Digital printing machines for industrial purposes; Digital label printing machines for industrial purposes; Printing machines for textile; Inkjet printing machines for textile; Digital printing machines for textile; Dyeing machines; Machines for dyeing textiles; Rotary printing presses; Intaglio printing machines; Silk screen printing machines; Machines for textile processing; Large format inkjet printing machines for commercial or industrial use; Large format inkjet printing machines for textiles; Industrial printing machines; Industrial robots; Robotic arms for industrial purposes; 3D printers; Injection moulding machines; Injection plastic moulding machines Printers; Inkjet printers; Large format inkjet printers; Computer printers; Colour printers; Digital printers; Photo printers; Laser printers; Thermal printers; Multi-function printers incorporating copying and scanning and faxing capabilities; Receipt printers; Label printers; Ink cartridges, unfilled, for printers; High capacity ink cartridges, unfilled for inkjet printers; Scanners (data processing equipment); Document scanners; Image scanners; Photo-copying machines; Projectors; Video projectors; LCD projectors; LCD video projectors; Multimedia projectors; Digital projectors; Home theater projectors; Home theater systems; Projectors and their parts; Computers; Computer hardware; Computer peripherals; Computer software Clocks and watches; Wristwatches; Component parts for clocks and watches Installation, repair, maintenance and refurbishment of computer hardware and computer peripherals; Installation, repair, maintenance and refurbishment of printers, scanners, projectors and computers; Installation, repair, maintenance and refurbishment of audiovisual teaching apparatus; Installation, repair, maintenance and refurbishment of electronic machines and apparatus; Installation, repair, maintenance and refurbishment of industrial robots; Installation, repair, maintenance and refurbishment of industrial robots for plastic moulding; Installation, repair, maintenance and refurbishment of injection moulding machines; Installation, repair, maintenance and refurbishment of 3D printers; Installation, repair, maintenance and refurbishment of printing machines; Installation, repair, maintenance and refurbishment of textile printing machines, textile dyeing machines and textile processing machines; Installation, repair, maintenance and refurbishment of computer printers; Installation, repair, maintenance and refurbishment of office machines and equipment; Installation, repair, maintenance and refurbishment of telecommunications apparatus and instruments; Repair, maintenance and refurbishment of clocks and watches; Refilling of ink cartridges, toner cartridges, ink ribbons, ink bottles, ink tanks, ink for printers and printing machines, printing ink Collection of used ink cartridges; Transport and storage of used ink cartridges; Collection, transport and storage of printers, scanners, projectors, computers, watches and clocks for recycling and refurbishment; Collection, transport and storage of waste and trash; Collection, transport and storage of recyclable goods; Collection, transport and storage of recycling materials; Collection, transport and storage of electronic scrap; Collection, transport and delivery of goods; Storage of goods; Transport Recycling of used ink cartridges; Processing and recycling of waste and trash; Upcycling (waste recycling); Processing of printing ink; Processing of ink for computer printers
A medium transport device 4 includes a feeding section 7 having a first feed port 61 configured to feed a first medium 21 into the housing 5 at an upper section of a housing and a transport section 9 configured to transport the first medium in the transport direction F, wherein the feeding section includes a support section 13, which extends upward from the first feed port, and has a support surface 12 configured to support the first medium to be fed to the first feed port. a small width medium feeding section 27 configured to feed a second medium 22 having a smaller width dimension than the first medium 21, and the small width medium feeding section 27 is disposed at the first feed port 61 and includes a second feed port 28 configured to feed the second medium 22 into the housing and guide sections 31 and 32 configured to guide width direction edge sections 29 and 30 of the second medium.
A method of manufacturing a three-dimensional modeling object includes a first stacking step for stacking an n-th layer, at least one step of a temperature measurement step for measuring a temperature distribution of the n-th layer and a temperature prediction step for predicting a temperature distribution of the n-th layer, a data generation step for generating or correcting the modeling data relating to an n+1-th layer, based on the temperature distribution of the n-th layer, and a second stacking step for stacking the n+1-th layer, based on the modeling data that relates to the n+1-th layer, wherein the n-th layer includes a first region and a second region, the first region is a region having a temperature lower than the second region, and, in the data generation step, the modeling data relating to the n+1-th layer is generated or corrected.
A method for creating proof image data includes: (a) acquiring basic proof image data for reproducing, by a proof output device, a color of a printed matter to be printed on a printing medium using a printing machine; and (b) creating, by applying bleed applying processing to the basic proof image data using a bleed parameter representing a bleed state of an ink in the printed matter, bleed-applied proof image data simulating the bleed state.
An electro-optical device includes an electro-optical panel and a driver. The electro-optical panel includes a first substrate, a second substrate, a first segment electrode group arranged at the first substrate, a second segment electrode group arranged at the second substrate, a first common electrode group arranged at the second substrate and facing the first segment electrode group, and a second common electrode group arranged at the first substrate and facing the second segment electrode group. The driver includes a first terminal group continuously arranged along a first side of the driver and a second terminal group continuously arranged along the first side. The first terminal group includes a first segment terminal group and a first common terminal. The second terminal group includes a second segment terminal group and a second common terminal.
Printing device 1 including control section 100 includes, when the print medium S is transported after a stop time during which the transport of the print medium S is stopped is equal to or longer than the predetermined time, transports the print medium S at a first acceleration V1, when the print medium S is transported before the stop time exceeds the predetermined time, transports the print medium S at a second acceleration V2 greater than the first acceleration V1.
A liquid ejecting apparatus includes multiple heads configured to eject a liquid onto a medium, carriage configured to incorporate the multiple heads and move the multiple heads along a first direction, a cap configured to receive the liquid discharged from the multiple heads, and a mover configured to move the cap along a second direction that intersects with the first direction in a plan view. The multiple heads include a first head, and a second head arranged with respect to the first head in the first direction and provided at a position different from the first head in a second direction. The mover is configured to position the cap at a first position to cause the cap to receive the liquid discharged from the first head, and position the cap at a second position different from the first position in the second direction to cause the cap to receive the liquid discharged from the second head.
A resonator element includes: a quartz crystal substrate having a resonator portion and a support portion having a thickness larger than a thickness of the resonator portion; and an excitation electrode disposed in the resonator portion, in which an oscillation frequency is 300 MHz or more, and an area of the excitation electrode is 35% or less of an area of the resonator portion.
H03H 9/19 - Constructional features of resonators consisting of piezoelectric or electrostrictive material having a single resonator consisting of quartz
H03B 5/32 - Generation of oscillations using amplifier with regenerative feedback from output to input with frequency-determining element being electromechanical resonator being a piezoelectric resonator
