A reinforcing unit that is mounted on a main body frame includes a beam material, and one or more reinforcing members that are mounted on an outside of the beam material, in which the beam material substantially has a continuously closed cross-sectional shape that includes an inner surface portion that is provided on a frame side where the main body frame is located, an outer surface portion that is provided on a counter-frame side that is a side opposite to the main body frame, and a side surface portion that connects the inner surface portion and the outer surface portion, and the reinforcing member restrains bulging deformation of the side surface portion in a case where an impact load is input to the outer surface portion.
The present invention addresses the problem of providing: an electrolytic device in which the efficiency of electrolyzing raw water is improved by heightening the electrical conductivity of a cathode solution; a collection system; and an electrolytic method. The electrolytic device electrolyzes raw water containing at least one kind of ions selected from among calcium ions, magnesium ions, and chloride ions, and is characterized by comprising an anode, a cathode, a cation-exchange membrane disposed therebetween, and a concentration part for concentrating raw water and characterized in that concentrated raw water which has been concentrated in the concentration part is introduced into a cathode-side space.
C25B 9/00 - Cells or assemblies of cells; Constructional parts of cells; Assemblies of constructional parts, e.g. electrode-diaphragm assemblies; Process-related cell features
3.
OIL-LUBRICATED CRYOCOOLER COMPRESSOR AND OPERATION METHOD THEREOF
An oil-lubricated cryocooler compressor that compresses a refrigerant gas of a cryocooler includes a liquid-cooled heat exchanger that cools the refrigerant gas and/or an oil through heat exchange with a coolant and a cooling controller that is configured to acquire a supply temperature of the coolant supplied to the liquid-cooled heat exchanger and to control a flow rate of the coolant of the liquid-cooled heat exchanger and/or an exhaust heat amount of the cryocooler compressor based on the acquired supply temperature of the coolant.
F25J 1/02 - Processes or apparatus for liquefying or solidifying gases or gaseous mixtures requiring the use of refrigeration, e.g. of helium or hydrogen
An assistance device according to the present disclosure provides assistance in the operation of a plant and comprises: a storage unit that stores reference data in which an analysis condition including an operation change amount of the plant and an analysis result corresponding to the analysis condition are associated, the analysis result including information indicating the flow state of circulating materials inside the plant; an information acquisition unit that acquires operation data including an operation change amount regarding the operation state of the plant, and a sensor value detected by a sensor provided in the plant; and an output unit that outputs, on the basis of the reference data and the operation data, reference information pertaining to the reference data corresponding to the operation data.
In the present invention, a scattered light intensity distribution acquisition unit receives scattered light from the surface of an object and obtains a first scattered light intensity distribution from the result of having received the light. A surface roughness calculation unit obtains a surface roughness index pertaining to the object. The surface roughness calculation unit corrects a provisional value for the surface roughness index until the first scattered light intensity distribution and a second scattered light intensity distribution, which is obtained through calculation using the provisional value for the surface roughness index, meet a first fitting condition. The surface roughness calculation unit determines the provisional value for the surface roughness index when the first fitting condition is met as the value of the surface roughness index pertaining to the surface of the object.
G01B 11/30 - Measuring arrangements characterised by the use of optical techniques for measuring roughness or irregularity of surfaces
G01B 11/25 - Measuring arrangements characterised by the use of optical techniques for measuring contours or curvatures by projecting a pattern, e.g. moiré fringes, on the object
A method for operating a cryocooler includes: connecting a second compressor in series with a first compressor on a high pressure line or a low pressure line; connecting a buffer volume to the low pressure line via a supply valve; executing initial cooling for cooling an expander from an initial temperature to a cryogenic temperature in a state where the second compressor and the buffer volume are connected to the cryocooler; and executing a steady operation of maintaining the expander at the cryogenic temperature after the initial cooling. The execution of the initial cooling includes supplying a working gas to the expander by using the first compressor and the second compressor, and controlling the supply valve to keep a pressure of the high pressure line within a preset appropriate pressure range based on the measured pressure of the high pressure line.
This thermal switch (100) comprises: a high-temperature side thermal transfer element (110); and a low-temperature side thermal transfer element (120) which is disposed to face the high-temperature side thermal transfer element (110) with a gas gap (130) therebetween. One among the high-temperature side thermal transfer element (110) and the low-temperature side thermal transfer element (120) comprises a first base section (111) and a column section (112) extending from the first base section (111). The other among the high-temperature side thermal transfer element (110) and the low-temperature side thermal transfer element (120) comprises a second base section (121) facing the column section (112) and a cylindrical section (122) extending from the second base section (121) so as to surround the column section (112). The thermal switch (100) further comprises a connection cylinder (140) which connects the cylindrical section (122) to the first base section (111) so as to separate the gas gap (13) from the surrounding environment, and is formed of a heat-insulating material.
Provided are techniques that make it possible to more appropriately perform an inspection of an object using sensing data. An inspection assistance device 200 according to an embodiment of the present disclosure: acquires narrow-angle data D22 and wide-angle data D21 that respectively represent the shapes of a relatively narrow area and a relatively wide area of an object to be inspected, and for which the relationship in position and attitude between sensors 110, 120 at the time of acquisition of respective data is prescribed in advance; acquires a collection of narrow-angle data D12 and a collection of wide-angle data D11 (a narrow-angle data group DG12 and a wide-angle data group DG11) respectively representing the shapes of a relatively narrow area and a relatively wide area of a comparison object, and for which the relationship in position and attitude between the sensors 110, 120 at the time of acquisition of respective data is prescribed in advance; and associates, on the basis of the wide-angle data D21 and the wide-angle data group DG11, the narrow-angle data D22 with the narrow-angle data D12 of the comparison object that represents the same part as the part of the object to be inspected corresponding to the narrow-angle data D22.
This surface treatment device emits negative oxygen ions to treat the surface of an object to be treated, wherein the surface treatment device emits the negative oxygen ions (O–22 – etc.) to oxidize the SiC content of the object to be treated.
H01L 21/31 - Treatment of semiconductor bodies using processes or apparatus not provided for in groups to form insulating layers thereon, e.g. for masking or by using photolithographic techniques; After-treatment of these layers; Selection of materials for these layers
A cryocooler includes an expander provided with an expander motor including a motor rotary shaft, a displacer that changes a volume of an expansion space of a working gas by reciprocating linearly by the motor rotation shaft rotating, and a rotary valve that controls intake and exhaust of the working gas into the expansion space by rotating by the motor rotation shaft rotating, a pressure sensor that measures a pressure of the working gas and outputs a measurement signal indicating the measured pressure, and a controller that receives the measurement signal, detects a feature point appearing periodically in the measured pressure during an operation of the cryocooler, acquires a motor drive waveform indicating a command rotation speed of the motor rotary shaft determined to vary within one rotation of the motor rotary shaft, and outputs the motor drive waveform in synchronization with the feature point appearing periodically.
The present invention provides a power transmission device that is to be assembled to an external member and comprises a sensor 50 that detects a state quantity related to the power transmission device, wherein the sensor 50 outputs detection information indicating the state quantity detected by the sensor 50 when the power transmission device is being assembled to the external member. The sensor 50 may output detection information also to a control device that controls a controlled device on the basis of the detection information during operation of the power transmission device. The sensor 50 may also output detection information to an information processing device different from the control device when the power transmission device is being assembled to the external member.
A control device of an injection molding machine including an injection member that presses a molding material and an injection drive source that moves the injection member, includes: an injection control unit that controls, in a holding pressure process of controlling a pressure acting on the molding material from the injection member, the injection drive source based on a set value of the pressure and on an actual value of the pressure, in which the injection control unit uses a value subtracted over time from the set value of the pressure so that the actual value of the pressure gradually decreases with respect to the set value of the pressure, or uses a value added over time to the actual value of the pressure so that the actual value of the pressure gradually decreases with respect to the set value of the pressure.
An injection molding machine includes: a controller; components that are attachable to and detachable from the injection molding machine; and a storage medium that stores history information for each of the components, in which, in a case where the controller detects a change in attachment/detachment of a first component, the controller adds information indicating that the first component has been replaced to the history information, outputs an indication of initialization of the history information of the first component, or initializes the history information of the first component.
An internal meshing type gear device includes: an internal gear; and an external gear that meshes with the internal gear, in which, when a straight line passing through an external gear center and an internal gear center is defined as a gear center line, a pitch point between the external gear and the internal gear is positioned radially inside an external tooth tip circle and an internal tooth tip circle, an intersection point between a normal line to a contact point locus between the external gear and the internal gear and the gear center line is positioned between the pitch point and the external gear center, and the contact point locus is positioned in a meshing region between the external and internal tooth tip circles within an angle range in which an angle centered on the pitch point from the gear center line is 0 to π/2 [rad].
An information recording system 30 of a printer 10 includes: an operation value acquisition unit 31 that acquires an operation value relating to an operation of the printer 10; a supplemental information input accepting unit 32 that accepts input of supplemental information relating to the operation value, from an operator OP of the printer 10; and an association recording unit 34 that records the operation value and the supplemental information in an associated manner. The operation value acquisition unit 31 includes: a setting value acquisition unit 311 that acquires a setting value input to the printer 10 by the operator OP as an operation value; and a measurement value acquisition unit 312 that acquires a measurement value of the printer 10 from a sensor as an operation value.
Provided is a power transmission device 22-1 that is incorporated into a cooking robot equipped with a cooking attachment, the power transmission device 22-1 comprising an output member 70-1 made of a material with lower thermal conductivity than another member 90 of the power transmission device 22-1. As a result, the cooking heat transmitted from the cooking attachment side to the output member of the power transmission device can be blocked as much as possible by the output member, and the transmission of cooking heat from the output member to other parts of the power transmission device by heat conduction can be made difficult.
F16H 1/32 - Toothed gearings for conveying rotary motion with gears having orbital motion in which the central axis of the gearing lies inside the periphery of an orbital gear
In one embodiment, this power transmission device 5, which holds an object 2 to be cleaned or a cleaning member and is installed on a robot 1 for performing a process for cleaning said object 2 to be cleaned, includes: a specific gap part which is provided between an internal space of said power transmission device 5 and an external space thereof; and food grease which is applied so as to close up said specific gap part.
B25J 19/00 - Accessories fitted to manipulators, e.g. for monitoring, for viewing; Safety devices combined with or specially adapted for use in connection with manipulators
18.
DISASSEMBLY METHOD FOR TWO-STAGE COLD HEAD, AND DISPLACER REMOVAL JIG
This disassembly method for a two-stage cold head (14) includes attaching a displacer removal jig (60) to a two-stage displacer (18b) remaining inside a cold head (14), and operating the displacer removal jig (60) such that the two-stage displacer (18b) is pulled out from the cold head (14). The displacer removal jig (60) comprises a gripping tool (70) capable of engaging the two-stage displacer (18b), and a lifter (80) configured so as to raise and lower the gripping tool (70).
A cryocooler includes: an expander capable of executing initial cooling for cooling from an initial temperature to a cryogenic temperature and a steady operation of maintaining the cryogenic temperature subsequent to the initial cooling; a high pressure line which is connected to the expander and through which a working gas taken into the expander flows; a low pressure line which is connected to the expander and through which a working gas exhausted from the expander flows; a pressure sensor that measures a pressure of the high pressure line; a buffer volume for storing the working gas; a supply valve that connects the buffer volume to the low pressure line; and a controller that controls the supply valve during the initial cooling based on the pressure of the high pressure line measured by the pressure sensor to keep the pressure of the high pressure line within a preset pressure range.
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
F25B 9/10 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point with several cooling stages
20.
FORMING SYSTEM, ELECTRIC HEATING SYSTEM, ELECTRODE, FORMING DEVICE, AND SUPPORT DEVICE
A forming system includes a forming device that forms a heated metal material, and includes a holding mechanism that holds the metal material, and an adjustment mechanism that adjusts a posture of at least one of the holding mechanism or the metal material in accordance with a fact that the heated metal material is deformed.
A simulation method of represents a fluid as a plurality of calculation particles, adds a physical quantity to each of the plurality of calculation particles, disposes the plurality of calculation particles in an analysis space, and develops the physical quantity added to each of the plurality of calculation particles and positions of the plurality of calculation particles over time by solving a governing equation. The simulation method includes evaluating an excess or deficiency of spatial resolution depending on sizes of the plurality of calculation particles, for each of the plurality of calculation particles, according to a state of a flow field represented by the plurality of calculation particles; and adjusting the spatial resolution, according to a result of the evaluation of the excess or deficiency of the spatial resolution.
G06F 30/25 - Design optimisation, verification or simulation using particle-based methods
G06F 30/28 - Design optimisation, verification or simulation using fluid dynamics, e.g. using Navier-Stokes equations or computational fluid dynamics [CFD]
A shovel includes a plurality of hydraulic actuators each configured to move in response to a movement command; a pressure sensor configured to detect a pressure of hydraulic oil in each of the hydraulic actuators; a meter-in valve in correspondence with each of the hydraulic actuators; a meter-out valve in correspondence with each of the hydraulic actuators; and a controller having a plurality of output characteristics set for each of the hydraulic actuators. The controller is configured to calculate a required flow rate corresponding to the movement command, based on an output characteristic corresponding to the movement command from among the plurality of output characteristics.
F15B 11/16 - Servomotor systems without provision for follow-up action with two or more servomotors
F15B 13/02 - Fluid distribution or supply devices characterised by their adaptation to the control of servomotors
F15B 11/024 - Systems essentially incorporating special features for controlling the speed or the actuating force or speed of an output member by means of differential connection of the servomotor lines, e.g. regenerative circuits
23.
ASSISTANCE DEVICE, WORK MACHINE, ASSISTANCE SYSTEM, AND PROGRAM
Provided is technology with which it is possible to improve work efficiency when performing work by combining multiple operations of a machine. An assistance device 150 according to one embodiment of the present disclosure comprises: an input device 52 which receives an input from a user; and a display device 50A which displays a configuration screen 1300, 1400 for determining, on the basis of the input from the input device 52, a specification for a combination of multiple, different types of basic operations of an excavator 100 and for generating a path for a working part of the excavator 100 on the basis of a combined operation obtained by combining the multiple basic operations.
A shovel includes a lower traveling body, an upper turning body mounted on the lower traveling body, an attachment attached to the upper turning body, and a control device mounted on the upper turning body and configured to assist an excavating motion with the attachment. The control device is configured to derive a target excavation depth based on the hardness of an excavation target.
An information processing device includes an image acquisition unit that acquires an image around a work machine, a recording unit that records the image acquired by the image acquisition unit, a manipulation information acquisition unit that acquires manipulation information relating to a manipulation of the work machine, a state detection unit that detects a state of the work machine and that acquires state information relating to the state, a determination unit that determines whether there is a predetermined difference between the manipulation information acquired from the manipulation information acquisition unit and the state information acquired from the state detection unit, and a recording control unit that causes, in a case where the determination unit determines that there is the difference, the recording unit to record the image including at least an image at a point in time at which the determination is made that there is the difference.
An apparatus including a first device configured to support a substrate thereon; a first transport having the first device connected thereto, where the first transport includes: rails or maglev guides; a magnetic system configured to vertically space the first device over the rails or maglev guides with a gap between the first device and the rails or maglev guides, where the magnetic system comprises a first electromagnetic actuator at a first corner of a first side of the first device, a second electromagnetic actuator at a second corner of the first side of the first device, and a third electromagnetic actuator at a second opposite side of the first device, where the third electromagnetic actuator is not located proximate a corner of three sides of the first device; and a linear actuator configured to move the first device along the rails or maglev guides.
B65G 47/92 - Devices for picking-up and depositing articles or materials incorporating electrostatic or magnetic grippers
H01L 21/677 - Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components for conveying, e.g. between different work stations
A construction machine includes a detector configured to detect a moving object in a monitoring area within which an object is detected by a sensor provided on an upper revolving body; and a transmitter configured to transmit moving object information on the moving object detected by the detector to another construction machine in a work area.
This laser annealing device comprises: a laser pulse shaping unit that shapes the cross-section of a laser pulse LP oscillated by a pulsed laser device into a substantially rectangular shape having a first edge E1 and a second edge E2 that are orthogonal to each other; and a laser pulse scanning unit that scans the laser pulse LP shaped by the laser pulse shaping unit in the plane of a semiconductor wafer 3 along a first direction (Y direction) in which the first edge E1 extends and a second direction (X direction) in which the second edge E2 extends such that a first scanning amount S1 for the laser pulse LP in the interval during which the semiconductor wafer 3 is being irradiated with the laser pulse LP being scanned along the first direction is at most 1/30 of the length of the first edge E1.
This beam adjusting device comprises: a beam expander 11 that adjusts the size of a laser pulse LP by using a first lens 111, a second lens 112, and a third lens 113, which includes at least two convex lenses; and a beam shaping optical element 131 that shapes the cross section of the laser pulse LP for which the size has been adjusted by the beam expander 11. The laser pulse LP for which the size has been adjusted by the beam expander 11 has a non-zero divergence angle θx with respect to the direction going from the beam expander 11 toward the beam shaping optical element 131.
This laser annealing apparatus performs: a surface melting step for irradiating a semiconductor wafer with laser pulses LP oscillated by a pulse laser device and melting the surface of the semiconductor wafer by heating the surface thereof to a melting point or higher by means of a plurality of laser pulses (LP); and an activation step for irradiating the semiconductor wafer with the laser pulses (LP) consecutively from the surface melting step, and further heating the lower portion of the surface of the semiconductor wafer to a predetermined activation temperature or higher by means of the plurality of laser pulses (LP) for at least a predetermined time period, so that a dopant added to the lower portion of the surface of the semiconductor wafer is activated. In the activation step, a region up to 10 μm below the surface of the semiconductor wafer is heated to 1,000 °C or higher over at least 10 μs.
A shovel includes a lower traveling body, an upper swiveling body mounted to the lower traveling body, attachments including a boom attached to the upper swiveling body, an arm attached to an end of the boom, and a bucket, which is an end attachment, attached to an end of the arm, and a controller configured to select, as a straight facing target surface, one of a plurality of constituting surfaces that constitute a target construction surface based on a position of the bucket.
E02F 3/32 - Dredgers; Soil-shifting machines mechanically-driven with digging tools mounted on a dipper- or bucket-arm, e.g. dippers, buckets with a dipper-arm pivoted on a cantilever beam working downwardly and towards the machine, e.g. with backhoes
A work machine includes an attachment rotatably attached to an upper turning body; a gripping part rotatably attached to the attachment, the gripping part gripping a long carried-material; and processing circuitry, and a memory storing computer-readable instructions, which when executed, cause the processing circuitry to calculate a weight of the carried-material, based on a torque for rotating the attachment.
B66C 23/42 - Cranes comprising essentially a beam, boom or triangular structure acting as a cantilever and mounted for translatory or swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib cranes, derricks or tower cranes specially adapted for use in particular locations or for particular purposes mounted on road or rail vehicles; Manually-movable jib cranes for use in workshops; Floating cranes with jibs of adjustable configuration, e.g. foldable
E02F 3/96 - Dredgers; Soil-shifting machines mechanically-driven with arrangements for alternate use of different digging elements
A work machine includes a lower traveling body, an upper swing body swingably mounted on the lower traveling body, a work device attached to the upper swing body, a hook attached to the distal end of the work device, an acquisition device configured to acquire information on the conveying destination of a suspended load to be suspended from the hook, and an imaging device attached to the upper swing body and configured to acquire image information related to a situation in an area in front of, behind, and beside the upper swing body. The situation includes the state of the suspended load. The work machine is configured to automatically convey the suspended load to the conveying destination by causing at least one of the lower traveling body, the upper swing body, and the work device to operate.
B66C 23/58 - Cranes comprising essentially a beam, boom or triangular structure acting as a cantilever and mounted for translatory or swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib cranes, derricks or tower cranes arranged to carry-out a desired sequence of operations automatically, e.g. hoisting followed by luffing and slewing
B66C 23/36 - Cranes comprising essentially a beam, boom or triangular structure acting as a cantilever and mounted for translatory or swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib cranes, derricks or tower cranes specially adapted for use in particular locations or for particular purposes mounted on road or rail vehicles; Manually-movable jib cranes for use in workshops; Floating cranes
E02F 3/96 - Dredgers; Soil-shifting machines mechanically-driven with arrangements for alternate use of different digging elements
E02F 3/43 - Control of dipper or bucket position; Control of sequence of drive operations
B66C 13/48 - Automatic control of crane drives for producing a single or repeated working cycle; Programme control
B66C 23/90 - Devices for indicating or limiting lifting movement
B66C 13/06 - Auxiliary devices for controlling movements of suspended loads, or for preventing cable slack for minimising or preventing longitudinal or transverse swinging of loads
G05D 1/02 - Control of position or course in two dimensions
G05D 1/00 - Control of position, course, altitude, or attitude of land, water, air, or space vehicles, e.g. automatic pilot
34.
NEUTRON RAY GENERATING APPARATUS AND NEUTRON RAY THERAPY FACILITY
A neutron ray generating apparatus includes: an accelerator that emits a particle beam; a target disposition portion that disposes a target that is irradiated with the particle beam to generate a neutron ray; and a transport path that transports the particle beam between the accelerator and the target disposition portion. The target disposition portion and the accelerator are disposed on a reference line of the transport path. A first shield member that shields radiation and a second shield member that shields the radiation and that is disposed to be spaced apart from the first shield member toward an accelerator side are provided between the target disposition portion and the accelerator.
A stage apparatus includes a first slider, a first guide that guides movement of the first slider in a first direction, a second slider that includes two slider parts separated from each other in the first direction and supporting the first guide from below, and a second guide that guides movement of the second slider.
H01L 21/687 - Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components for supporting or gripping using mechanical means, e.g. chucks, clamps or pinches
36.
CRYOGENIC SYSTEM AND CONTROL METHOD FOR CRYOGENIC SYSTEM
A cryogenic system (100) comprises: a cryogenic refrigerator (10); and a controller (60). The cryogenic refrigerator (10) is provided with a first cylinder (16a), a second cylinder (16b) that is provided with, at an axially middle portion, a heat absorption part (46) to be thermally connected to a heat source, a first temperature sensor (51) that measures the temperature at one axial end of the second cylinder (16b), a second temperature sensor (52) that measures the temperature at the other axial end of the second cylinder (16b), and a third temperature sensor (53) that measures the temperature at the heat absorption part (46). The controller (60) is configured to: acquire a first measured temperature from the first temperature sensor (51), a second measured temperature from the second temperature sensor (52), and a third measured temperature from the third temperature sensor (53); set the upper limit temperature for the heat absorption part (46) on the basis of the first measured temperature, the second measured temperature, and the axial position of the heat absorption part (46); and control the heat source such that the third measured temperature is equal to or lower than the upper limit temperature of the heat absorption part (46).
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
37.
CHEMICAL RECYCLING DEVICE AND CHEMICAL RECYCLING MOLDING SYSTEM
A chemical recycling device 100 is equipped with: a depolymerization reaction tank 300 that degrades a first molded article made of a polymer into a depolymerized product through a depolymerization reaction; a polymerization reaction tank 400 that synthesizes the depolymerized product into a polymer through a polymerization reaction; and a polymer supply part 600 that supplies the polymer synthesized in the polymerization reaction tank 400 to an injection molding machine 1 that molds a second molded article. A byproduct removal device 500 is provided between the polymerization reaction tank 400 and the polymer supply part 600 to remove a byproduct that is generated together with the polymer by the polymerization reaction in the polymerization reaction tank 400.
C08J 11/10 - Recovery or working-up of waste materials of polymers by chemically breaking down the molecular chains of polymers or breaking of crosslinks, e.g. devulcanisation
C08J 11/24 - Recovery or working-up of waste materials of polymers by chemically breaking down the molecular chains of polymers or breaking of crosslinks, e.g. devulcanisation by treatment with organic material by treatment with organic oxygen-containing compounds containing hydroxyl groups
A wheel drive device that drives a wheel includes an output member, and a wheel member that is connected to the output member, in which the output member and the wheel member include a spigot fitting portion in which an outer peripheral spigot surface and an inner peripheral spigot surface are spigot-fitted, an anti-fretting agent is applied to the spigot fitting portion, and a seal member that prevents leakage of the anti-fretting agent is disposed between the output member and the wheel member.
An excavator includes a controller including a memory and a processor configured to determine roughness of a traveling surface, wherein the controller controls a hydraulic motor for traveling according to a result of determination of the roughness.
A neutron capture therapy apparatus includes a neutron ray irradiation unit that irradiates an irradiation target with a neutron ray, a drug injection unit that injects a drug to the irradiation target, and a posture change unit that changes a posture of the irradiation target. The neutron ray irradiation unit performs first irradiation for irradiating the irradiation target with the neutron ray in a first incident direction, and performs second irradiation for irradiating the irradiation target with the neutron ray in a second incident direction different from the first incident direction, and the posture change unit is capable of changing the posture of the irradiation target between a time of the first irradiation and a time of the second irradiation.
An information processing device includes a data acquisition unit that acquires process data of target equipment, a first index value calculation unit that calculates a first index value related to operation of the target equipment based on the process data, a second index value calculation unit that calculates a second index value related to the operation of the target equipment based on the process data, and a display control unit that displays a coordinate space defined by an axis denoting the first index value and by an axis denoting the second index value and a representative point of the process data in the coordinate space on a display unit.
A shovel includes a lower traveling body, an upper swiveling body mounted to the lower traveling body, attachments including a boom attached to the upper swiveling body, an arm attached to an end of the boom, and a bucket that is an end attachment attached to an end of the arm, and a control device configured to control swiveling of the upper swiveling body and movement of the attachments so that an end portion of the bucket moves along an extension of a slope toe, which is a target line.
E02F 3/43 - Control of dipper or bucket position; Control of sequence of drive operations
E02F 3/30 - Dredgers; Soil-shifting machines mechanically-driven with digging tools mounted on a dipper- or bucket-arm, e.g. dippers, buckets with a dipper-arm pivoted on a cantilever beam
E02F 3/32 - Dredgers; Soil-shifting machines mechanically-driven with digging tools mounted on a dipper- or bucket-arm, e.g. dippers, buckets with a dipper-arm pivoted on a cantilever beam working downwardly and towards the machine, e.g. with backhoes
A shovel includes a determination part that presses a working portion of an end attachment against a ground, and determines presence or absence of a soft ground region in the ground, and a control part that permits the shovel to travel by a predetermined distance in response to the determination part determining the absence of the soft ground region.
A shovel includes a lower traveling body, an upper turning body turnably mounted on the lower traveling body, traveling hydraulic motors as traveling actuators for driving the lower traveling body, and a controller as a control device provided in the upper turning body. The controller is configured to determine a front and rear of a traveling direction in accordance with a direction of the upper turning body and to perform travel control such that the rear of the upper turning body is positioned forward in the traveling direction.
A shovel includes a lower traveling body, an upper turning body turnably mounted on the lower traveling body, an attachment attached to the upper turning body, and an attitude detection device (a boom angle sensor, an arm angle sensor, a bucket angle sensor, a machine attitude sensor, and a turning angle sensor), and a controller configured to calculate a target angle related to a working angle formed by a plane or a line determined based on a shape of a bucket included in the attachment and a target surface. The controller changes the target angle in accordance with the attitude of the attachment and information relating to the target surface.
A device for controlling a shovel having a lower traveling body, an upper turning body that is turnably mounted on the lower traveling body, and attachments that are attached to the upper turning body, the attachments including a boom, an arm, and an end attachment, the control device being configured so as to operate the arm in accordance with a command value such that a prescribed work site on the end attachment moves while conforming to a target surface, and being configured so as to operate at least one of the boom and the end attachment in accordance with operation of the arm, and the control device controlling the operation of at least one of the arm and the boom such that the movement speed of a control subject, which is a prescribed site on an attachment following the target surface, reaches a prescribed speed.
A cryogenic refrigerator (100) includes: a cold head (104) that can be mounted on a vacuum container (20); a cold head mount (106) that is configured to couple the cold head (104) with the vacuum container (20) so as to allow movement of the cold head (104) with respect to the vacuum container (20); a flexible line (108) that is connected to the cold head 104 outside the vacuum container (20); and a flexible line holder (110) that is configured to hold the flexible line (108) in a fixed manner with respect to the vacuum container (20).
A support system includes a first storage unit configured to store information related to a plurality of processes performed by a work machine in a time series, the information including information associating previous and subsequent processes among the plurality of processes, and the plurality of processes including movement of earth and sand on the ground, movement of earth and sand from the ground, or both; and a display unit configured to display the information related to the plurality of processes.
Provided is a motive power transmission device that can transmit motive power across a wall body and that has high motive power transmission performance. This motive power transmission device (1) comprises a wall body (10) and a magnetic modulation gear (20), some elements of the magnetic modulation gear being positioned on the wall body.
A particle beam therapy device that irradiates a patient with a cation beam to perform treatment, the device including a passage selection unit that selectively passes through the cation beam among a mixed beam in which the cation beam and other species of a beam having a nuclide different from that of the cation beam are mixed after passing through a deflection magnetic field, after causing the mixed beam to pass through the deflection magnetic field, in a case where the other species of the beam is generated from the cation beam.
A shovel may include a lower traveling body; an upper turning body turnably mounted on the lower traveling body; and a control device disposed in the upper turning body, wherein the control device includes a processor, and a memory storing a computer-readable program, which when executed, causes the processor to execute a process including recognizing a position subject to a backfilling operation, and generating a target position relating to the backfilling operation.
E02F 3/32 - Dredgers; Soil-shifting machines mechanically-driven with digging tools mounted on a dipper- or bucket-arm, e.g. dippers, buckets with a dipper-arm pivoted on a cantilever beam working downwardly and towards the machine, e.g. with backhoes
This superconducting equipment cooling device comprises: a cryogenic refrigerator (10) for cooling superconducting equipment; an interface (110) configured to accept a selection of a plurality of performance parameters of the cryogenic refrigerator (10) by a user and to generate operating mode settings (S1) representative of the selected plurality of performance parameters; and a controller (120) configured to receive the operating mode settings (S1) from the interface (110) and to control a plurality of operating parameters of the cryogenic refrigerator (10) that affect the plurality of selected performance parameters.
F25B 9/00 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point
F25B 9/06 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point using expanders
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
A work machine includes processing circuitry, and a memory storing computer-readable instructions, which when executed by the processing circuitry, cause the work machine to perform a process including calculating a load weight of a carried material loaded on a vehicle, inputting a weighbridge measured value, and generating a correction value, based on the weighbridge measured value inputted in the inputting and the load weight calculated in the calculating, wherein the calculating includes correcting the load weight by the correction value to calculate a corrected load weight.
An injection molding machine includes: a cylinder that holds a molding material to be injected into a mold; a plasticizing member provided in the cylinder so as to be movable and rotatable; a temperature measurer that measures a temperature of the cylinder or of the mold; and a period setting unit configured to set a cold start prevention period, which is a period for restricting the injection of the molding material into the mold, based on the temperature measured by the temperature measurer until a temperature of the molding material or the temperature of the mold rises. The period setting unit stores temperature-time data in which the temperature measured by the temperature measurer is associated with time, and adjusts the cold start prevention period based on an actual temperature of the stored temperature-time data.
A cryopump includes: a cryopump container including a container body defining a cryopump intake port and extending axially and tubularly from the cryopump intake port, and a cryocooler accommodation cylinder connected to a side portion of the container body and extending transversely; a cryocooler fixed to the cryocooler accommodation cylinder and extending transversely within the cryopump container; a plurality of cryopanels thermally coupled to the second cooling stage of the cryocooler, capable of adsorbing a non-condensable gas, and axially arranged between the cryopump intake port and a bottom portion of the container body; and a purge gas inlet installed in the container body below the cryocooler accommodation cylinder to blow a purge gas to a distal portion of at least one of the cryopanels.
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
F04B 37/08 - Pumps specially adapted for elastic fluids and having pertinent characteristics not provided for in, or of interest apart from, groups for evacuating by thermal means by condensing or freezing, e.g. cryogenic pumps
56.
SIMULATION METHOD, SIMULATION DEVICE, AND NON-TRANSITORY COMPUTER READABLE MEDIUM STORING PROGRAM
A simulation method in which a fluid flowing in contact with a wall surface is represented by a plurality of particles, particle-wall surface interaction and interparticle interaction are determined, and an equation of motion governing motion of the plurality of particles is solved for each of the plurality of particles to develop positions and velocities of the plurality of particles over time includes causing, in a case where the equation of motion is solved, attenuation force received from the wall surface and random force according to a temperature of the wall surface, in addition to force due to the interparticle interaction and the particle-wall surface interaction, to act on a particle, among the plurality of particles, whose distance to the wall surface is equal to or less than a first distance set in a simulation condition to develop a position and a velocity of a particle over time.
G06F 30/25 - Design optimisation, verification or simulation using particle-based methods
G06F 30/28 - Design optimisation, verification or simulation using fluid dynamics, e.g. using Navier-Stokes equations or computational fluid dynamics [CFD]
57.
METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE
A method of manufacturing a semiconductor device includes: performing laser annealing on a silicon substrate in which point defects are generated due to ion implantation of a dopant to activate the dopant; and growing the point defects into {311} defects or dislocation loops and using the {311} defects or the dislocation loops as lifetime killers.
H01L 21/22 - Diffusion of impurity materials, e.g. doping materials, electrode materials, into, or out of, a semiconductor body, or between semiconductor regions; Redistribution of impurity materials, e.g. without introduction or removal of further dopant
H01L 29/32 - Semiconductor bodies having polished or roughened surface the imperfections being within the semiconductor body
H01L 21/268 - Bombardment with wave or particle radiation with high-energy radiation using electromagnetic radiation, e.g. laser radiation
58.
CONSTRUCTION MACHINE AND ASSISTANCE SYSTEM FOR CONSTRUCTION MACHINE
This construction machine includes: a lower travelling body; an upper revolving body that is revolvingly mounted on the lower travelling body; a cabin that is mounted on the upper revolving body; and a spatial recognition device that is disposed on a pillar in the cabin.
37 - Construction and mining; installation and repair services
Goods & Services
Vacuum pumps. Freezing machines and apparatus for industrial purposes. Repair and maintenance of vacuum pumps; repair or
maintenance of freezing machines and apparatus.
An injection molding machine includes a nozzle that is provided in an injection device filling a mold device with a molding material, a nozzle temperature measurement unit that measures a temperature of the nozzle, an in-mold temperature measurement unit that measures a temperature of the molding material in the mold device, and a control device that controls the temperature of the nozzle on the basis of a measured nozzle temperature measured by the nozzle temperature measurement unit and a measured in-mold temperature measured by the in-mold temperature measurement unit.
An actuator provided with a rotating shaft 12 and a motor 14 for rotating the rotating shaft 12, wherein the motor 14 is provided with a rotor 62 disposed on the rotating shaft 12 and a first air passage 100 which is provided between the rotating shaft 12 and the rotor 62 and which causes a load-side space 90 on a load side and a counter-load-side space 92 on a counter load side with respect to the rotor 62 to communicate to and from each other and, as the rotating shaft 12 rotates, the air can be guided from the load-side space 90 to the counter-load-side space 92 through the first air passage 100.
A compressor (12) for a cryocooler (10) is provided with: an air-cooled heat exchanger (26) provided with a cooling fan (50) and a first oil line (46) disposed so as to be forced-cooled by the cooling fan (50); and a second oil line (48) for bypassing the first oil line (46). The second oil line (48) may be disposed so as to be forced-cooled by the cooling fan (50).
Provided is a gear motor including a motor, a speed reducer, a first detector disposition section in which a first rotation detector that detects rotation of a rotor shaft is disposed, a second detector disposition section in which a second rotation detector that detects rotation of an output member of the speed reducer is disposed, and a third detector disposition section in which a torque detector is disposed, in which the gear motor is operable when the first rotation detector is disposed in the first detector disposition section, the second rotation detector is disposed in the second detector disposition section, and the torque detector is disposed in the third detector disposition section, and is operable even when a portion thereof is disposed.
H02K 11/33 - Drive circuits, e.g. power electronics
H02K 5/173 - Means for supporting bearings, e.g. insulating supports or means for fitting bearings in the bearing-shields using bearings with rolling contact, e.g. ball bearings
A monitoring device of an injection molding machine includes: an acquisition unit that acquires, based on a measured value in a depressurizing process from a detection unit provided in a link member of a toggle mechanism, an amount of change generated in the link member; and a determination unit that determines whether or not the amount of change acquired by the acquisition unit exceeds a predetermined threshold.
An inflation molding device includes a viscosity estimation unit that estimates a viscosity of a bubble discharged in a substantially cylindrical shape from a die, a temperature identification unit that identifies a temperature of the bubble, and a parameter estimation unit that estimates a viscosity parameter of the bubble based on the viscosity of the bubble estimated by the viscosity estimation unit and the temperature of the bubble identified by the temperature identification unit.
A forming system includes a heating unit that causes a current to flow through a plated metal material to heat the metal material, a forming die that forms the heated metal material, and a plating deviation suppression mechanism that suppresses a deviation of a plating in the metal material due to energization heating.
A quality prediction device includes a probabilistic prediction model generation unit that generates a probabilistic prediction model on the basis of a plurality of training data in which a log relating to a molding operating condition or to a state of a molding machine and a quality value of a molding product corresponding to the log are associated with each other, and a quality prediction unit that calculates a quality index of the molding product from the log using the probabilistic prediction model.
G05B 13/02 - Adaptive control systems, i.e. systems automatically adjusting themselves to have a performance which is optimum according to some preassigned criterion electric
G05B 13/04 - Adaptive control systems, i.e. systems automatically adjusting themselves to have a performance which is optimum according to some preassigned criterion electric involving the use of models or simulators
69.
CONTROL DEVICE OF INJECTION MOLDING MACHINE, INJECTION MOLDING MACHINE, AND METHOD OF CONTROLLING INJECTION MOLDING MACHINE
A technique for suppressing molding defects is provided. A control device of an injection molding machine includes: a mold clamping control unit that controls, with respect to an actual value of a mold clamping force for pressing a stationary mold and a movable mold after pressurizing of the mold clamping force is completed and before a molding material reaches parting surfaces of the stationary mold and the movable mold, a range of increase in the actual value of the mold clamping force after the molding material reaches the parting surfaces to an upper limit or less.
It is possible to improve accuracy of calculated statistical information. An injection molding machine according to an embodiment includes: a display control unit configured to display an input field for a shot number indicating an injection molding cycle or for a time period in which the injection molding cycle is performed, for specifying a calculation target of statistical information based on a parameter related to injection molding.
A particle beam irradiation apparatus includes: an accelerator accelerating a particle so as to generate a particle beam; an irradiation unit irradiating an irradiation target with the particle beam; a transport path provided between the accelerator and the irradiation unit and provided so as to be capable of transporting the particle beam; and a collimator device having a first shielding member provided in the transport path, shielding the particle beam, and having a first opening allowing the particle beam to pass in an advancing direction of the particle beam and a second shielding member provided in the transport path, shielding the particle beam, and having a second opening allowing the particle beam to pass in the advancing direction of the particle beam, in which the second shielding member is spaced from the first shielding member to a downstream side in the advancing direction of the particle beam.
H01J 37/09 - Diaphragms; Shields associated with electron- or ion-optical arrangements; Compensation of disturbing fields
B23B 1/00 - Methods for turning or working essentially requiring the use of turning-machines; Use of auxiliary equipment in connection with such methods
A construction machine includes an information processing unit configured to execute a plurality of tasks, and a communication unit configured to perform short-range wireless communication. The information processing unit is configured to execute: an inquiry process of inquiring at least one external information processing device capable of communicating with the communication unit about a degree of a margin in a processing capacity; a margin information reception process of receiving margin information representing the degree of the margin in the processing capacity from the external information processing device; a determination process of determining whether or not to request the external information processing device to execute at least a part of the plurality of tasks; a task execution request process of requesting the external information processing device to execute at least a part of the tasks; and a result reception process of receiving an execution result of the task.
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
A measuring device includes an ionization chamber where air is contained and a measurement value relating to radiation including a neutron ray and a gamma ray is measured, a detector that detects a detection value relating to the neutron ray, and a controller that calculates a dose of the gamma ray based on the measurement value measured in the ionization chamber and the detection value detected by the detector.
A forming device forms a metal pipe with a flange and includes a forming tool that forms the metal pipe, in which the forming tool includes a first die and a second die facing each other in a first direction in a cross-sectional view, and a third die disposed on at least one side of a metal pipe material in a second direction intersecting the first direction, and at least one of the first die and the second die is divided in the second direction and sandwiches a part of the metal pipe material in the second direction to form a flange portion.
A burden for setting is reduced. A display device for injection molding includes: a receiving unit configured to receive a selection of a defect phenomenon of a molding product manufactured by injection molding; and a display control unit configured to display parameters associated with the defect phenomenon of which the selection is received, in a selectable manner, in which the receiving unit is further configured to receive a selection from the parameters, and the display control unit is further configured to display information regarding the parameter of which the selection is received.
Provided is a technology for enabling data relating to an intended shape of a processing target to be acquired more easily. An assistance device 150 according to one embodiment of the present disclosure comprises a topographic shape acquisition unit 301 that acquires image data relating to the shape of a processed portion of a processing target, an intended shape estimation unit 302 that estimates the intended shape of the processing target on the basis of the image data acquired by the topographic shape acquisition unit 301, and an intended shape correction unit 304 that corrects the intended shape of the processing target included in the result of estimation by the intended shape estimation unit 302 in response to input by a user.
A technique for managing a shear heating value of a molding material is provided. A control device of an injection molding machine individually controls outputs of a plurality of heating units for a plurality of zones, respectively, into which a cylinder is divided in a flow direction of a molding material. The control device acquires the output of the heating unit provided in a predetermined zone both in a steady state in which an operation of a screw provided inside the cylinder is stopped and at a time of molding at which the operation of the screw is performed, and calculates a difference in output of the heating unit provided in the predetermined zone between at a time of molding and in the steady state.
An inspection apparatus includes an imaging device acquiring a polarization image of a molding product, and a determination unit determining quality of the molding product. The determination unit includes an image generating unit generating a pseudo image from an input image in accordance with a machine-learned learning model, and the determination unit inputs the polarization image or a calculation image obtained by calculation from the polarization image to the image generating unit as the input image and determines the quality of the molding product based on the input image and the pseudo image generated by the image generating unit.
A film molding device includes: a cooling unit that cools a molding material discharged from a mold; and a rectifying unit that rectifies cooling air blown out from the cooling unit. The rectifying unit includes a suction portion that suctions the cooling air.
Provided is a method for operating a cryogenic refrigerator. The cryogenic refrigerator is provided with an expander having an expander motor which is connected to a power source by means of a power supply cable and which can be driven at a power source frequency. The method includes: disconnecting the power supply cable connecting the power source and the expander motor; connecting the power source and the expander motor via an inverter; converting the power source frequency to a higher operating frequency by means of the inverter, and executing an accelerated cooling operation of the cryogenic refrigerator by driving the expander motor at the converted operating frequency; and, after stopping the accelerated cooling operation, removing the inverter and reconnecting the power source and the expander motor.
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
81.
SUPPORT DEVICE, STATISTICAL MODEL GENERATION DEVICE, SUPPORT METHOD AND SUPPORT PROGRAM
A support device (10) for supporting the operation of a plant comprises: a data acquisition unit for acquiring simulation data pertaining to the operation state of a plant and calculated by entering data that includes a predetermined condition list into a physical model simulator, the predetermined condition list being configured so that factors that determine the operation state of the plant and an index related to the factors are associated; a statistical model generation unit (14c) for generating a first statistical model on the basis of simulation data; and an operation state determination unit (14f) for referencing the first statistical model to determine the operation state of the plant on the basis of process data for the plant.
An assistance device (10) for assisting the operation of a plant comprises: an abnormality detection unit (14e) that detects, on the basis of sensor data detected by a plurality of sensors provided at a plant (1), a sensor indicating an abnormality; a storage unit (18) that stores sensor relevancy information in which are associated a plurality of sensor sites affiliated with the respective sensors and representing constituent elements of the plant, a process in which the plurality of sensor sites are passed through and measured by the sensors respectively affiliated with the plurality of sensor sites, and a process sequence for the process for passing through the plurality of sensor sites; and a relevancy information identification unit (14d) that, with reference to the sensor relevancy information stored in the storage unit (18), identifies information related to a relevant sensor recognized as having relevancy in at least one of the sensor sites, the process, and the process sequence, with respect to a detected sensor detected by the abnormality detection unit (14e).
This neutron capture therapy device comprises: a treatment unit having an irradiation unit that irradiates an object with neutron radiation; a simulation unit that simulates adjustment of the position of the irradiated object relative to the irradiation unit in the treatment unit; a first moving mechanism capable of moving the irradiated object in the treatment unit; a second moving mechanism capable of moving the irradiated object relative to the simulation unit; and a transfer mechanism capable of transferring the irradiated object from the second moving mechanism to the first moving mechanism, wherein the second moving mechanism moves the irradiated object so that the position of the irradiated object relative to the simulation unit is substantially the same as a predetermined position of the irradiated object relative to the irradiation unit in the treatment unit, and the first moving mechanism moves the irradiated object to the predetermined position of the irradiated object relative to the irradiation unit in the treatment unit.
This neutron capture therapy device comprises: an accelerator that generates particle beams; a target that generates neutron radiation by reacting with the particle beams; a collimator that has a hole penetrating in the neutron radiation irradiation direction and forms an irradiation field for the neutron radiation generated from the target; and a moderator that moderates the neutron radiation generated from the target, wherein a part of the moderator is located inside the hole of the collimator.
This power transmission device includes a first motion member that has an N count of first contact faces 42, and a second motion member that has a plurality of second contact faces 46 that come into contact with the first contact faces 42. When one of high-speed rotary motion and low-speed rotary motion about a different rotational center is input, the first motion member and the second motion member can perform conversion into the other thereof and perform output thereof, by contact of the first contact faces 42 and the second contact faces 46. The first contact faces 42 form as a whole an arc shape that is convex toward a radially outward side with respect to a line connecting adjacent vertices of an N-sided polygon. The second contact faces 46 form as a whole a rectilinear shape. With a contact position of the second contact faces 46 with a middle of the first contact faces 42 as a middle of the second contact faces 46, at least one of the first contact faces 42 and the second contact faces 46 includes a convex portion 80 provided at a position offset from the middle of itself.
F16H 13/08 - Gearing for conveying rotary motion with constant gear ratio by friction between rotary members with members having orbital motion with balls or with rollers acting in a similar manner
A friction transmission device 100 comprises: an input raceway ring 14; a planetary rolling element 20 placed around a rotation axis of the input raceway ring 14 and brought into contact with the input raceway ring 14; an output raceway ring 30 brought into contact with the planetary rolling element 20 and coupled to an output member 32; and a first support raceway ring 26 and a second support raceway ring 28 brought into contact with the planetary rolling element 20. At least one of the input raceway ring 14, the output raceway ring 30, the first support raceway ring 26, and the second support raceway ring 28 is a protrusion-recess contact raceway ring brought into contact with the planetary rolling element 20 through protrusions and recesses.
F16H 15/52 - Gearings providing a continuous range of gear ratios in which a member of uniform effective diameter mounted on a shaft may co-operate with different parts of another member
F16H 13/08 - Gearing for conveying rotary motion with constant gear ratio by friction between rotary members with members having orbital motion with balls or with rollers acting in a similar manner
The work machine according to an aspect of the present disclosure comprises a traveling body, a turning body rotatably mounted on the traveling body, an attachment attached to the turning body, and a control unit. The attachment has a hook for lifting a suspended load. When the suspended load is present in a forward position in a turning direction relative to the hook while the turning of the turning body is decelerated, the control unit performs vibration control to turn the turning body such that the hook is positioned directly above the center of gravity of the suspended load.
Provided is a technology that makes it possible to more appropriately operate a work machine. According to one embodiment of the present disclosure, a controller 30 comprises a work target shape acquisition unit 302B that acquires data about the shape of a work target in the surroundings of a shovel 100, an inference unit 302C that infers operations that are suited to the shape of the work target in the surroundings of the shovel 100 from among a plurality of candidate operations for the shovel 100 for prescribed work on the basis of the data about the shape of the work target in the surroundings of the shovel 100 using a trained model LM that has been trained by machine learning using training data about operations of the shovel 100 under operation by a relatively highly proficient operator as associated with the shapes of work targets, and a suggestion unit 302D that suggests one or more operations from among the plurality of candidate operations to a user on the basis of the inference results from the inference unit 302C.
The present invention addresses the problem of providing a carbon dioxide fixation method and a carbon dioxide fixation system which are capable of fixing carbon dioxide at high efficiency, low cost, and low energy. To resolve the problem, provided are a carbon dioxide fixation method and a carbon dioxide fixation system for a carbon dioxide fixation treatment using seawater, wherein an electrolysis unit in which a cation exchanger is arranged between electrodes is used, and electrolysis is performed after supplying carbon dioxide to the seawater introduced to the cathode side of the electrolysis unit. According to the present invention, it is possible to suppress magnesium hydroxide production reactions and make carbonate production reactions dominant, in addition to improving the carbonate production efficiency by means of the common ion effect. In addition, according to the present invention, efficient carbonation can be performed at a lower pH than conventional methods. This makes it possible to fix carbon dioxide at high efficiency, low cost, and low energy.
C02F 1/461 - Treatment of water, waste water, or sewage by electrochemical methods by electrolysis
C25B 9/00 - Cells or assemblies of cells; Constructional parts of cells; Assemblies of constructional parts, e.g. electrode-diaphragm assemblies; Process-related cell features
C25B 9/19 - Cells comprising dimensionally-stable non-movable electrodes; Assemblies of constructional parts thereof with diaphragms
C25B 15/08 - Supplying or removing reactants or electrolytes; Regeneration of electrolytes
A first wheel and a second wheel, which can adhere by suction to a contacting surface and can be switched between a suction state and a non-suction state, are attached to a vehicle body. A travel motor causes the first wheel and the second wheel to rotate. A control unit switches each of the first wheel and the second wheel between the suction state and the non-suction state and controls the rotation. The control unit causes the vehicle to travel in either a first travel mode, in which the vehicle travels on a first surface in a direction from the second wheel toward the first wheel, or a second travel mode, in which, with the second wheel in contact with the first surface, the first wheel is set to the non-suction state and the second wheel is set to the suction state, and with the first wheel lifted from the first surface, the second wheel is caused to rotate to so that the vehicle travels until the first wheel comes into contact with a second surface lifted from the first surface.
B62D 57/02 - Vehicles characterised by having other propulsion or other ground-engaging means than wheels or endless track, alone or in addition to wheels or endless track with ground-engaging propulsion means, e.g. walking members
B22F 12/50 - Means for feeding of material, e.g. heads
B23K 9/04 - Welding for other purposes than joining, e.g. built-up welding
B23K 9/12 - Automatic feeding or moving of electrodes or work for spot or seam welding or cutting
B33Y 30/00 - ADDITIVE MANUFACTURING, i.e. MANUFACTURING OF THREE-DIMENSIONAL [3D] OBJECTS BY ADDITIVE DEPOSITION, ADDITIVE AGGLOMERATION OR ADDITIVE LAYERING, e.g. BY 3D PRINTING, STEREOLITHOGRAPHY OR SELECTIVE LASER SINTERING - Details thereof or accessories therefor
B60B 19/00 - Wheels not otherwise provided for or having characteristics specified in one of the subgroups of this group
A forming apparatus includes a movable frame, a first arm that is supported by the movable frame to be capable of oscillating, a second arm that is supported by the first arm to be capable of oscillating, a holding unit that is capable of holding an object to be formed supported by the second arm, a first oscillating mechanism that applies an oscillating operation to the first arm, a second oscillating mechanism that applies an oscillating operation to the second arm, and a moving mechanism that applies a moving operation to the movable frame in at least one direction.
The present invention addresses the problem of providing a chemical heat storage reactor that has a simple structure and can efficiently cause a chemical heat storage material to react by moving the chemical heat storage material. A chemical heat storage device of the present invention for solving the above problem is characterized by a movement region in which the chemical heat storage material is moved by vibration and/or self-weight, and by the chemical heat storage material reacting while moving in the movement region. This chemical heat storage device has a simple structure given that the chemical heat storage material is moved by vibration and/or self-weight, and has an effect of being able to efficiently cause a chemical heat storage material in a heat storage vessel to react.
Provided is a regeneration method for a cryopump (10). The cryopump (10) comprises a cryopanel (18) and a cryopump container (16) accommodating the cryopanel (18). The method comprises raising the temperature of the cryopanel (18) from an extremely low temperature to a heating completion temperature, and completing regeneration of the cryopump (10) in a state in which the temperature of the cryopanel (18) has been raised to the heating completion temperature. Said completion comprises: repeatedly supplying a purge gas to the cryopump container (16), carrying out a rough evacuation of the cryopump container (16), and measuring the pressure increase rate inside the cryopump container (16) to obtain a history of the pressure increase rate; and determining whether to terminate the regeneration of the cryopump (10) on the basis of the obtained history of the pressure increase rate.
F04B 37/08 - Pumps specially adapted for elastic fluids and having pertinent characteristics not provided for in, or of interest apart from, groups for evacuating by thermal means by condensing or freezing, e.g. cryogenic pumps
94.
INFORMATION PROCESSING DEVICE AND METHOD, AND NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM
An information processing device includes a managing part. The managing part manages, based on a first sensing data group regarding a shape of a first structure and data of a three-dimensional shape of the first structure, a relation between the first sensing data group or the data of the three-dimensional shape of the first structure, and second sensing data regarding a shape of a second structure so that common sites of the first structure and the second structure can be compared with each other.
G06V 10/74 - Image or video pattern matching; Proximity measures in feature spaces
G06V 10/764 - Arrangements for image or video recognition or understanding using pattern recognition or machine learning using classification, e.g. of video objects
G06V 20/70 - Labelling scene content, e.g. deriving syntactic or semantic representations
CARTRIDGE TYPE CHEMICAL HEAT STORAGE REACTOR, CARTRIDGE TYPE CHEMICAL HEAT STORAGE REACTOR LINKAGE BODY, HEAT INSULATOR, HEAT EXCHANGE PIPE LINKAGE TOOL, AND CHEMICAL HEAT STORAGE METHOD
The present invention addresses the problem of providing a reusable and highly convenient chemical heat storage reactor that can be easily used at various heat source locations. The cartridge type chemical heat storage reactor according to the present invention for solving said problem is characterized by comprising: a container filled with a chemical heat storage material; and a heat exchange pipe. According to the cartridge type chemical heat storage reactor, it is possible to provide a reusable and highly convenient cartridge type chemical heat storage reactor that can be easily used at various heat source locations.
A drive mechanism according to the present disclosure comprises a drive portion A, a driven portion 52 configured to be capable of rotating about a first axis of rotation 21 on the basis of a driving force transmitted from the drive portion A, and an engagement structure 40 that engages the drive portion A and the driven portion 52 in such a way as to be capable of transmitting power, wherein the engagement structure 40 comprises an engaging portion 22 which is coupled to the drive portion A and which is configured to be capable of rotating about a second axis of rotation 31 extending parallel to the first axis of rotation 21, an engaged portion 41 which engages with the engaging portion 22, and resilient portions 42A, 42B which urge the engaged portion 41 toward the engaging portion 22, and wherein an engaging surface of the engaging portion 22 that engages with the engaged portion 41 includes: a first surface part 23Ba of which, when the engaging portion 22 is positioned in a first rotational position rotated a first amount of rotation relative to the driven portion 52 about the second axis of rotation 31, an amount of change of rotational torque acting on the drive portion A, based on a load acting on the engaging portion 41 from the engaged portion 23 with respect to a change in rotational position, is a first amount of change; and a second surface part 23Bb of which, when the engaging portion 22 is positioned in a second rotational position rotated a second amount of rotation, greater than the first amount of rotation, about the second axis of rotation 31, the amount of change of rotational torque acting on the drive portion A, based on the load acting on the engaging portion 41 from the engaged portion 23 with respect to a change in rotational position, is a second amount of change, smaller than the first amount of change.
Provided is a technique for enabling a work machine to be more appropriately operated by an instruction from outside the work machine. An operation assistance device 150 according to an embodiment of the present disclosure comprises: an operation instruction reception unit 301 that recognizes a gesture representing an instruction related to the operation of a shovel 100 from an instructing person around the shovel 100 on the basis of sensing information representing the surrounding situation of the shovel 100, and receives the instruction related to the operation of the shovel 100; and an operation instruction notification unit 302 that notifies a user of the instruction related to the operation of the shovel 100 received by the operation instruction reception unit 301.
An image inspection device 300 comprises: an inspection image acquisition unit 310 that acquires an inspection image which captures an inspection target illuminated by an illumination device 301; an illumination condition inference unit 320 that infers an illumination condition at the time of image capture on the basis of the inspection image; an image inspection model selection unit 340 that selects, from among a plurality of image inspection models 332 respectively corresponding to a prescribed plurality of illumination conditions, an image inspection model 332 which is suitable for the illumination condition inferred by the illumination condition inference unit 320; and an image inspection unit 350 that inspects the inspection image on the basis of the image inspection model 332 selected by the image inspection model selection unit 340.
An image inspecting device 300 comprises: an inspection image acquiring unit 310 for acquiring an inspection image obtained by imaging an inspection target object; a damage identifying unit 320 for identifying damage of the inspection target object in the inspection image; and a damage degree output unit 340 for outputting a degree of damage relating to the damage of the inspection target object, on the basis of a damage degree model 351 for outputting a degree of damage on the basis of an input image of damage. The machine learning device is provided with a machine learning unit 350 which employs machine learning to generate the damage degree model 351 for outputting the degree of damage relating to the damage included in the input inspection image, the machine learning being based on training data including sets comprising damage of the inspection target object, the damage being identified in the inspection image obtained by imaging the inspection target object, and the degree of damage assigned to the damage.
A work machine is provided that includes: an attachment attached on an upper rotating body and including at least a boom, an arm attached on an end of the boom, and an end attachment attached on an end of the arm; and a control device, wherein the control device compensates for a torque, which causes the boom to rotate, based on either or both of a centrifugal force on the arm and an inertial force on the arm, and calculates a weight of a conveyance object conveyed by the attachment based on the torque for which the compensation is performed.