This machine learning method for particulate matter discrimination includes: an area dividing step for marking the inside of a specific type of particulate matter in a learning image obtained by imaging a plurality of types of particulate matter, and dividing image elements other than the specific type of granular material into areas; an identification label assigning step for assigning an identification label to the specific type of particulate matter extracted by the area dividing step; a teacher data creating step for executing the area dividing step and the identification label assigning step for each type of particulate matter other than the specific type of particulate matter to create teacher data for the plurality of types of particulate matter; and a learning step for generating a learning model by performing machine learning of the teacher data.
This inspection device for inspecting the state of an object comprises: a transfer part configured to transfer the object; an area sensor configured to capture, at a frame rate that allows the same object to be captured a plurality of times, the object being transferred by an action of the transfer part; and a distinguishing part configured to distinguish the state of the object on the basis of the image acquired by the area sensor.
A piezoelectric valve includes: actuators having valve discs and configured to drive these valve discs individually; a valve seat plate having valve seats contacted with and separated from the valve discs individually and discharge paths; and a body case accommodating the valve seat plate, and each actuator is fixed to the side face of the valve seat plate so that the valve discs face the valve seats and can be attached to and detached from a fluidic device via a connector part provided to the front face of the body case. The valve seats are provided as a pair to both faces of the valve seat part, the discharge paths opened in the valve seats provided as a pair are formed in the valve seat plate, gas discharge ports are opened in a non-straight manner, and discharge ports of discharge passages are opened in a line.
F16K 31/00 - Moyens de fonctionnementDispositifs de retour à la position de repos
F16K 11/22 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont plusieurs éléments de fermeture ne se déplacent pas comme un tout actionnés par des organes de commande distincts chacun étant propre à une soupape, p. ex. conjugués pour former clapet à voies multiples
F16K 11/24 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont plusieurs éléments de fermeture ne se déplacent pas comme un tout actionnés par des organes de commande distincts à soupape électromagnétique, p. ex. pour machines à laver
F16K 27/04 - Structures des logementsMatériaux utilisés à cet effet des tiroirs
Provided is a grain milling device 100 comprising: a cylindrical casing 10 obtained by continuously providing a plurality of divided porous wall parts 11 so as to form a cylindrical shape; and a grain milling roll 30 rotatably arranged inside of the cylindrical casing 10, wherein a grain milling chamber 15 is formed between the inner peripheral surface of the cylindrical casing 10 and the outer peripheral surface of the grain milling roll 30. The inner peripheral surface of the cylindrical casing 10 is provided with a grinding part 13 that is contacted by grains, and the grinding part 13 includes a plurality of protrusions 1311 protruding toward the inner peripheral surface of the cylindrical casing 10. The protrusions 1311 are each configured such that a projecting member 1313 is attachable to/detachable from a fitting hole 1312 formed in the grinding part 13.
Controller of an optical sorter is configured to receive an input of a candidate for a target quality condition regarding an allowable mix rate of defective products in sorting targets discharged from the optical sorter as acceptable products, receive an input of quality information indicating a mix rate of the defective products regarding at least a part of the sorting targets, simulate, based on the information, a sorting result regarding a quantity and/or a yield of the sorting targets discharged as the acceptable products that is expected to be acquired when sorting is conducted by a sorting device to achieve the candidate for the target quality condition and output a result of the simulation, receive an input of a final target quality condition to be employed when conducting the sorting, and conduct the sorting based on a sorting control parameter that allows the final target quality condition to be achieved.
An optical sorter includes a transport means for transporting sorting targets, a discrimination means for optically discriminating the sorting targets, a sorting means for sorting the sorting targets based on the result of discrimination of the discrimination means, and a guide plate adapted to be contacted by the sorting targets thrown out from the transport means so as to guide the sorting targets to fall in a given falling direction, in which the guide plate includes a guide face and an opening, the guide face being capable of being contacted by the sorting targets, and the opening being provided to the guide face and penetrating the guide plate, the sorting means is arranged around the opening, and the position of the guide plate relative to the fall-down path of the sorting targets is adjustable together with the sorting means.
This measurement device for measuring the state of an object comprises: a transporting unit configured to transport the object; an electromagnetic wave irradiation source configured to irradiate the object, which is being transported by the action of the transporting unit, with electromagnetic waves; a line sensor; an area sensor; and an identification unit configured to identify the state of the object on the basis of a first image acquired by the line sensor and a second image acquired by the area sensor. The measurement device is configured such that a first detection region in which the line sensor detects the object overlaps, or is adjacent to, a second detection region in which the area sensor detects the object.
The present invention is characterized by having a rice milling unit 20 that polishes rice, and a rice milling tank 10 provided above the rice milling unit and in which rice can be stored. The present invention is also characterized in that the rice milling tank comprises: a flow rate control valve 11 that can adjust the amount of supply of rice to the rice milling unit by moving up and down inside the rice milling tank; and an optical flow rate detection unit 13 provided on a wall part of the rice milling tank, and which can detect the flow rate of rice between the wall part and the flow rate control valve.
A traceability system (1) provided in a distribution process for grain raw materials comprises: an optical sorting machine (7) for inspecting the grain raw materials and separating the same into items meeting a standard and items not meeting the standard; an imaging unit (11) for imaging the items classified as not meeting the standard to obtain a target image; and a first estimating unit (15a) for inputting the target image into an artificial intelligence (18) trained using first classification images and second classification images to estimate a type of the items classified as not meeting the standard.
Agricultural machines and agricultural implements, other
than hand-operated; harvesting machines and implements; rice
grain sorting machines; optical sorting machines for foods;
optical sorting machines for cereals, rice, corn, beans and
seeds; optical sorting machines for resin pellet, canned
goods and recycling plastic; optical sorting machines
(especially for the purpose of sorting recyclable materials)
for resin pellet and recycling plastic.
This measuring device for measuring a geometrical or dimensional feature of all and/or part of a target object comprises: a conveying unit configured to convey the target object; an electromagnetic wave emitting source configured to emit electromagnetic waves at the target object that is being conveyed by the action of the conveying unit; a line sensor which includes a plurality of electromagnetic wave detecting elements arranged linearly in a first direction intersecting a conveying direction of the target object, and which is configured to detect at least one of reflected electromagnetic waves that have been emitted from the electromagnetic wave emitting source and have been reflected by the target object, and transmitted electromagnetic waves that have been transmitted through the target object; a conveying speed detecting unit configured to detect a conveying speed, in a predetermined direction, of the target object that is being conveyed; and a feature determining unit configured to determine the feature of the target object on the basis of an image acquired by the line sensor and the conveying speed in the predetermined direction.
B07C 5/342 - Tri en fonction d'autres propriétés particulières selon les propriétés optiques, p. ex. la couleur
G01B 11/24 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes
G01B 11/30 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la rugosité ou l'irrégularité des surfaces
G01B 21/20 - Dispositions pour la mesure ou leurs détails, où la technique de mesure n'est pas couverte par les autres groupes de la présente sous-classe, est non spécifiée ou est non significative pour mesurer des contours ou des courbes, p. ex. pour déterminer un profil
This grain discrimination system comprises: an image-capturing means 1 that is capable of capturing an image of a grain 2 placed on a tray 50; a server that is capable of communicating with the image-capturing means 1, and is capable of discriminating the quality of the grain 2 by receiving the captured image of the grain 2 from the image-capturing means 1; and a terminal 60 that is capable of communicating with the server, and is capable of subjecting the imaging unit 1 to imaging control via the server and outputting a display of the discrimination result of the grain 2 received from the server.
A measurement device according to the present invention is for measuring the state of an object and comprises a transport unit that transports the object, an electromagnetic wave radiation source that radiates electromagnetic waves at the object as transported by the action of the transport unit, a sensor that detects at least one of reflected electromagnetic waves that have been radiated from the electromagnetic wave radiation source and reflected at the object and transmitted electromagnetic waves that have passed through the object, an identification unit that identifies the state of the object on the basis of a signal acquired by the sensor, and a radiation control unit that controls the radiation of the electromagnetic waves from the electromagnetic wave radiation source. The radiation control unit controls the electromagnetic wave radiation source such that there are a first radiation period during which electromagnetic waves are radiated at a first intensity and a second radiation period during which electromagnetic waves are radiated at a second intensity that is greater than the first intensity.
When a granular object is determined to have to be sorted out two or more times in two or more of sort-out necessity/unnecessity determination results determined by a determination portion, a sort-out signal setting portion of an optical sorting apparatus sets a sort-out actuation signal that contains information for actuating an ejector when the granular object advancing in the air passes through a sorting region based on a combination of the sort-out necessity/unnecessity determination results from a predetermined signal setting table.
A method for discriminating a sorting target includes transferring the sorting target, imaging the sorting target during the transferring, and discriminating the sorting target based on imaging information acquired in the imaging. The imaging information includes adjacency information between sorting targets, and classification information of the sorting target.
G06V 10/764 - Dispositions pour la reconnaissance ou la compréhension d’images ou de vidéos utilisant la reconnaissance de formes ou l’apprentissage automatique utilisant la classification, p. ex. des objets vidéo
B07C 5/34 - Tri en fonction d'autres propriétés particulières
B07C 5/342 - Tri en fonction d'autres propriétés particulières selon les propriétés optiques, p. ex. la couleur
This rice huller (1) comprises: a pair of a first husking roller (12) and a second husking roller (13); a first driven pulley (8) and a second driven pulley (9) that are provided to both of the rollers (12, 13) so as to rotate integrally therewith; and a control unit (20) that, when a first rotational frequency sensor (17) and a second rotational frequency sensor (18) detect that a flat belt (11) has slid with respect to the driven pulleys (8, 9), controls a gap adjusting mechanism (10) such that a gap GA between the rollers (12, 13) becomes bigger.
B02B 3/04 - ÉcossageÉpluchageDécorticagePolissageÉbarbageDégermage au moyen de cylindres
F16H 7/00 - Transmissions pour transmettre un mouvement rotatif par des organes flexibles sans fin
F16H 7/12 - Moyens pour faire varier la tension des courroies, des câbles ou des chaînes par réglage de la position de l'axe d'une poulie d'une poulie folle
18.
METHOD FOR LABELING PARTICULATE MATTER IN OPTICAL SORTER
The present invention is characterized by having: an imaging step in which an imaging means is used to capture an image of a plurality of particulate matter being transferred in an optical sorter; a labeling process step in which an image captured in the imaging step is subjected to a labeling process by means of a pipeline process using a line memory, one line image at a time; a feature amount calculation step in which a feature amount is calculated on the basis of data extracted in the labeling process step; and a quality assessment step for assessing whether the particulate matter is good or defective, on the basis of the calculation result in the feature amount calculation step.
A piezoelectric valve including actuators that are respectively adapted to drive valve elements, and a valve body including a gas inlet port, and a plurality of gas outlet ports, the piezoelectric valve is attachable to and detachable from a fluid device via a connector unit including an inlet passage that is communicable at one end with the gas inlet port, and is communicable at another end with an air supply passage of the fluid device, and a plurality of discharge passages that are respectively communicable at one end with the plurality of gas outlet ports, and are respectively communicable at another end with a plurality of gas outlet passages of the fluid device, and a pitch of openings of the plurality of discharge passages on the other end side is greater than a pitch of openings of the plurality of discharge passages on the one end side.
A piezoelectric valve including an actuator that drives a valve body; a valve seat plate including a valve seat that is adapted to be positioned in contact with and away from the valve body, and a discharge passage; and a body case that houses the valve seat plate, in which the actuator includes a proximal portion fixed to the valve seat plate, a piezoelectric element having one end portion connected to an attachment face of the proximal portion and extending in a first longitudinal direction, a support portion integrally formed with the proximal portion, the support portion being arranged side-by-side with the piezoelectric element and extending in a second longitudinal direction crossing the first longitudinal direction, an operating portion connected to another end portion of the piezoelectric element and to a distal end portion of the support portion.
This raw material transfer device comprises a guidance part 2 that guides a raw material supplied from a supply unit to a downflow surface 102a, a support part 3 that supports the guidance part 2 so as to enable the guidance part 2 to swing vertically, and a biasing part 4 that biases the guidance part 2 upward. The biasing force of the biasing part 4 is set such that at least a prescribed amount of the raw material on the guidance part 2 accumulates to thereby cause the guidance part 2 to swing downward, and such that a space S1 through which the raw material can pass is formed between the biasing part 4 and the downflow surface 102a.
In an optical sorter that includes an optical detection unit to detect a to-be-sorted material at a detection position, a determining unit to determine a to-be-sorted material to be removed, based on a detection result by the optical detection unit, and an air-jetting unit to blow off and remove the to-be-sorted material to be removed using jet air of a compressed gas, based on a determination result by the determining unit, the air-jetting unit includes a piezoelectric valve to perform valve opening and closing by driving a valve disc utilizing displacement of a piezoelectric element, and a valve driving unit to apply a drive voltage to the piezoelectric element, and the valve driving unit controls the drive voltage applied to the piezoelectric element in accordance with the to-be-sorted material to be removed to thus control a jet-air pressure of the compressed gas for removing the to-be-sorted material.
The present invention includes a conveyance step of conveying an object to be sorted, an image information acquisition step of, at least either during the conveyance step or after the conveyance step, acquiring image information on the object to be sorted, and dividing the image information into a plurality of pieces of cell data, and an identification step of identifying the object to be sorted based on the cell data and a learning model trained by inputting learning information concerning the object to be sorted, in which the learning information at least includes good part information, defective part information, and background information concerning the object to be sorted, and the good part information at least includes contour information on the object to be sorted.
B07C 5/10 - Séparation selon la dimension les mesures étant faites par des moyens photosensibles
G06V 10/26 - Segmentation de formes dans le champ d’imageDécoupage ou fusion d’éléments d’image visant à établir la région de motif, p. ex. techniques de regroupementDétection d’occlusion
G06V 10/77 - Traitement des caractéristiques d’images ou de vidéos dans les espaces de caractéristiquesDispositions pour la reconnaissance ou la compréhension d’images ou de vidéos utilisant la reconnaissance de formes ou l’apprentissage automatique utilisant l’intégration et la réduction de données, p. ex. analyse en composantes principales [PCA] ou analyse en composantes indépendantes [ ICA] ou cartes auto-organisatrices [SOM]Séparation aveugle de source
An optical sorter includes a light source configured to irradiate a sorting target in transit on a conveyance route with light, an optical sensor configured to detect light emitted from the light source and associated with the sorting target, a determination portion configured to determine whether the sorting target is a foreign object and/or a defective product based on a signal acquired by the optical sensor with respect to the light associated with the sorting target, and at least one intermediate member disposed at a position located between the light source and the conveyance route in a direction in which the sorting target is irradiated with the light from the light source and located in such a manner that the intermediate member does not affect the detection of the light associated with the sorting target. The at least one intermediate member includes a reflection region on which the light emitted from the light source is reflected. The optical sensor is further configured to detect the light emitted from the light source and reflected on the reflection region.
This detection device for detecting the wear status of a rotating component that is worn away with use is provided with a distance sensor configured so as to measure the distance to an edge section on the radial outside with respect to the rotational axis of the rotating component, and a detection unit configured so as to detect the wear status of the rotating component on the basis of a measurement result from the distance sensor.
G01B 21/00 - Dispositions pour la mesure ou leurs détails, où la technique de mesure n'est pas couverte par les autres groupes de la présente sous-classe, est non spécifiée ou est non significative
B02B 3/04 - ÉcossageÉpluchageDécorticagePolissageÉbarbageDégermage au moyen de cylindres
G01B 11/24 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes
This measuring device that is for measuring a condition of an object comprises: a transport unit that transports the object; an electromagnetic wave radiation source; a sensor that is configured so as to detect at least one of reflected electromagnetic waves reflected by the object and transmitted electromagnetic waves transmitted by the object; an identification unit that is configured so as to identify a condition of the object on the basis of a signal acquired by the sensor; and a radiation control unit that is configured so as to control the radiation of electromagnetic waves from the electromagnetic wave radiation source. The electromagnetic wave radiation source includes a first radiation source and a second radiation source that differ with regard to at least one of the wavelength range of electromagnetic waves radiated thereby and the positioning location thereof. The radiation control unit controls the electromagnetic wave radiation source such that first radiation periods, which are periods in which the first radiation source radiates electromagnetic waves, and second radiation periods, which are periods in which the second radiation source radiates electromagnetic waves, occur alternately without overlapping.
Provided is a huller having a first hulling roll that rotates around a first axis, a second hulling roll that rotates around a second axis parallel to the first axis, and a speed-changing mechanism that changes the rotation speed of at least one of the first hulling roll and the second hulling roll, the speed-changing mechanism increasing the peripheral speed difference rate between the first hulling roll and the second hulling roll at a second timing following a first timing to be greater than the peripheral speed difference rate at the first timing.
This device 1 for manufacturing no-wash rice comprises at least a grain milling part 3 for mixing/stirring rice grains and water and performing underwater milling, wherein: the grain milling part 3 includes, from the upstream side of the grain milling part 3, a first added water conveying part, a first rice washing part, a suction dewatering part, a second added water conveying part, and a second rice washing part; and the second added water conveying part is supplied with bubble water.
A wash-free rice production device 1 comprising at least a polishing section 3 for mixing and stirring rice grains and water and polishing the rice grains in the water, wherein the polishing section 3 is configured from a first water-adding and conveying section, a first rice-washing section, a suction and water-removing section, a second water-adding and conveying section, and a second rice-washing section, in order from the upstream side of the polishing section 3.
A piezoelectric valve (1) comprises a plurality of actuators (3) having a plurality of valve bodies (35) and individually driving the valve bodies, a valve seat plate (4) having a plurality of valve seats (42) and discharge channels (45) individually contacting and separating from the valve bodies, and a main body case (2) housing the valve seat plate, the actuators being fixed to a side surface of the valve seat plate so that the valve bodies face the valve seats, and the actuators being attachable to and detachable from a fluid device via a connector (5) provided to the front surface of the main body case. The valve seats are provided as pairs on both sides of a valve seat section (41) so as to overlap in the width direction, discharge passages opening to the paired valve seats are formed in the valve seat plate so as to overlap in the width direction at least partially, a plurality of gas discharge ports (22) are opened not in a row in the width direction in the front surface of the main body case, and discharge ports (52) of the plurality of discharge passages are opened in a row in the width direction in the front surface of the connector.
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
An optical sorting machine according to the present invention includes a light source configured to radiate light onto a sorting target that is being conveyed, an optical sensor configured to detect light that is radiated from the light source and correlated with the sorting target, and a sorting device that has a nozzle for spraying a fluid. The sorting device is configured to spray the fluid from the nozzle to a particular sorting target decided on the basis of a signal acquired by the optical sensor, so as to sort the sorting target. The optical sorting machine has N-order (where N is an integer of 2 or greater) sorting systems, each configured to be able to perform optical sorting by the light source, the optical sensor, and the sorting device. At least two sorting systems of the N-order sorting systems are configured to be operable to have different settings from each other with regard to effects of spraying range of the fluid as to the particular sorting target by the sorting device.
An optical sorter includes a light source, a color sensor, a determination part configured to determine a foreign object and/or a defective product, a color shift amount calculation part configured to calculate, based on a color image acquired by the color sensor, an amount of a color shift that occurs due to the fact that at least two element groups out of an R element group, a G element group, and a B element group are spaced apart from each other in a transit direction of a sorting target, a speed calculation part configured to calculate a transit speed of the sorting target based on a separation distance between the at least two element groups in the transit direction, the color shift amount, and a scan time, which is a time required for the color sensor to scan the sorting target once, and a sorting device configured to perform a trajectory change operation for changing a trajectory of a specific sorting target determined based on a result of the determination by the determination part at a timing determined based on the transit speed calculated by the speed calculation part.
B07C 5/342 - Tri en fonction d'autres propriétés particulières selon les propriétés optiques, p. ex. la couleur
G01N 21/25 - CouleurPropriétés spectrales, c.-à-d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes
G01P 3/38 - Dispositifs caractérisés par l'emploi de moyens optiques, p. ex. en utilisant la lumière infrarouge, visible ou ultraviolette en utilisant des moyens photographiques
G01N 21/85 - Analyse des fluides ou solides granulés en mouvement
An inspection unit for performing an optical inspection on a grain to be transferred by transfer means includes a visible light source, a near-infrared light source, a visible light detection unit, and a near-infrared light detection unit. A determination unit plots wavelength components of red (R), green (G), and blue (B), and a near-infrared light component in a three-dimensional space, to create a three-dimensional optical correlation diagram, for a plurality of good product samples and defective product samples, and sets a threshold value, in which: the wavelength components are detected by the visible light detection unit; and the near-infrared light component is detected by the near-infrared light detection unit.
B07C 5/342 - Tri en fonction d'autres propriétés particulières selon les propriétés optiques, p. ex. la couleur
G01N 21/3563 - CouleurPropriétés spectrales, c.-à-d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes en recherchant l'effet relatif du matériau pour les longueurs d'ondes caractéristiques d'éléments ou de molécules spécifiques, p. ex. spectrométrie d'absorption atomique en utilisant la lumière infrarouge pour l'analyse de solidesPréparation des échantillons à cet effet
G01N 21/359 - CouleurPropriétés spectrales, c.-à-d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes en recherchant l'effet relatif du matériau pour les longueurs d'ondes caractéristiques d'éléments ou de molécules spécifiques, p. ex. spectrométrie d'absorption atomique en utilisant la lumière infrarouge en utilisant la lumière de l'infrarouge proche
A piezoelectric valve comprising an actuator that has a valve body and that drives the valve body, a valve seat plate that has a discharge path and a valve seat which makes contact with and separates from the valve body, and that fixes the actuator, and a main body case that accommodates the valve seat plate, the valve body provided to the actuator making contact with and separating from the valve seat provided to the valve seat plate, wherein: the valve seat has a valve seat face in which one end of the discharge path is open at each of one or more annular protruding parts; in the one or more annular protruding parts, one end of the discharge path is open at each of one or more frustum top faces; and the valve body makes contact with and separates from the one or more annular protruding parts of the valve seat face.
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
F16K 1/18 - Soupapes ou clapets, c.-à-d. dispositifs obturateurs dont l'élément de fermeture possède au moins une composante du mouvement d'ouverture ou de fermeture perpendiculaire à la surface d'obturation à éléments de fermeture articulés à pivot comportant disque ou volet pivotant
A displacement magnifying mechanism, polishing device, actuator, electronic component processing apparatus, dispenser, and air valve which can easily control a drive system. The displacement magnifying mechanism includes a base; a piezoelectric element of which an end is attached to a mounting surface of the base, the piezoelectric element extending along a first longitudinal direction; a support member of which an end is attached to the mounting surface side by side with the piezoelectric element, the support member extending along a second longitudinal direction which intersects with the first longitudinal direction; an operating portion attached to each of other ends of the piezoelectric element and the support member to allow the operating portion to be displaced, in response to an expansion/contraction of the piezoelectric element, along a displacement direction; and a compression member attached to the base and the operating portion so as to compress the piezoelectric element.
H02N 2/02 - Machines électriques en général utilisant l'effet piézo-électrique, l'électrostriction ou la magnétostriction produisant un mouvement linéaire, p. ex. actionneursPositionneurs linéaires
F16K 31/00 - Moyens de fonctionnementDispositifs de retour à la position de repos
B24B 31/00 - Machines ou dispositifs pour polir ou travailler par abrasion des surfaces "au tonneau", ou au moyen d'autres appareils, dans lesquels les pièces à travailler ou les produits abrasifs sont libresAccessoires à cet effet
Included are a chute arranged in an inclined manner to allow sorting targets to flow downward, optical detection means for detecting the sorting targets at a detection position, and ejector means for sorting and removing the sorting targets based on a result of detection of the optical detection means. The chute is provided with an optical detection slit in a direction orthogonal to a flow-down direction of the sorting targets, a slit width of the optical detection slit is adjustable, and the optical detection means images the sorting targets flowing downward on the chute with the imaging means at a position where the optical detection slit is provided as the detection position.
A piezoelectric valve comprising an actuator which has a valve body and which drives the valve body, a valve seat plate which has a valve seat that comes in contact with and separates from the valve body and a discharge path and which fixes the actuator, and a main body case which receives the valve seat plate, wherein the actuator comprises a piezoelectric element which generates, as a displacement, a driving force required for operating the valve body and a displacement enlarging mechanism which enlarges the displacement of the piezoelectric element to cause the displacement to act on the valve body, wherein the main body case comprises a gas supply port to which a compressed gas is supplied and a gas discharge port from which the compressed gas supplied from the gas supply port is discharged through the discharge path of the valve seat plate as a result of the separation between the valve body and the valve seat, and wherein the valve seat plate is fixed to the main body case at a forward portion on a side having the discharge path and a backward portion on a side for fixing the actuator.
F16K 27/02 - Structures des logementsMatériaux utilisés à cet effet des soupapes de levage
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
Provided is an optical sorting device including a chute having an optical detection slit and a sorting and removal slit arranged on a downstream side of the optical detection slit, an object to be sorted flowing down on a front surface of the chute. A rear-side illuminating portion of an optical inspection unit and an ejector nozzle are attached to a rear-side housing. The rear-side housing is installed on a rear surface side of the chute such that the rear-side illuminating portion faces the optical detection slit, and a leading end of the ejector nozzle faces the sorting and removal slit.
A rice milling machine provided with a control part for controlling a milling degree adjustment means such that the milling degree of a rice grain coincides with a prescribed quality, the rice milling machine including a detection means capable of detecting the milling degree of a rice grain, wherein the control part controls the milling degree adjustment means such that the milling degree of a rice grain detected by the detection means corresponds to the target milling degree. The rice milling machine comprises a storage means that can store and register, in association with raw material information on raw material brown rice together with the target milling degree, control information for when the milling degree adjustment means is controlled by the control part, and milling processing of raw material brown rice can be started on the basis of the control information that is stored and registered in the storage means and specified by the raw material information on the raw material brown rice and the target milling degree.
An optical sorter includes an intermittent light source configured to intermittently emit light toward a plurality of sorting targets in transit, an optical sensor configured to detect the light associated with one sorting target among the plurality of sorting targets in transit during a plurality of intermittent light scan periods, a determination part configured to determine a foreign object and/or a defective product with respect to the one sorting target based on a signal acquired by the optical sensor, and a light source control part configured to control the intermittent light source. The light source control part is configured to control the intermittent light source in such a manner that, in a case where the intermittent light source is turned on during at least one intermittent light scan period among the plurality of intermittent light scan periods, a lighting period during which the intermittent light source is on and a non-lighting period during which the intermittent light source is off are provided and the lighting period is started at a timing delayed behind a start of the at least one intermittent light scan period in each of the at least one intermittent light scan period.
Provided is a method for detecting objects to be sorted with an optical sorter that can detect lateral portions of objects to be sorted with a flat shape.
Provided is a method for detecting objects to be sorted with an optical sorter that can detect lateral portions of objects to be sorted with a flat shape.
A chute is provided with a plurality of parallel longitudinal grooves formed in the longitudinal direction by a plurality of elongated protruding walls, and objects to be sorted with a flat shape are allowed to flow downward on the surface of the chute such that substantially flat faces of the objects to be sorted touch the elongated protruding walls in the longitudinal grooves, and lateral portions of the objects to be sorted face the front-rear direction of the chute so that the optical detection unit detects the lateral portions of the objects to be sorted at the detection position. Preferably, the objects to be sorted with the flat shape are rice grains, and the optical detection unit detects bran remaining on back strings of the rice grains at the detection position.
This sorting machine is for sorting to-be-sorted items each including an opaque bag and granular bodies housed inside the bag, and comprises: an electromagnetic wave source configured to irradiate a to-be-sorted item with electromagnetic waves; a sensor which is configured to detect electromagnetic waves that have been emitted from the electromagnetic wave source and associated with the to-be-sorted item; a determination unit which is configured to determine a defective product on the basis of characteristics of a bag region that is either a region where granular bodies are not present inside the bag or a region where normal granular bodies are not present inside the bag, in an image based on a signal acquired by the sensor; and a sorting device which is configured to sort out a to-be-sorted item that has been determined to be a defective product.
G01N 23/04 - Recherche ou analyse des matériaux par l'utilisation de rayonnement [ondes ou particules], p. ex. rayons X ou neutrons, non couvertes par les groupes , ou en transmettant la radiation à travers le matériau et formant des images des matériaux
G01N 23/12 - Recherche ou analyse des matériaux par l'utilisation de rayonnement [ondes ou particules], p. ex. rayons X ou neutrons, non couvertes par les groupes , ou en transmettant la radiation à travers le matériau et mesurant l'absorption le matériau étant un fluide ou un solide granulé en écoulement
This optical sorting machine comprises a transfer means 3 that transfers an object 2 to be sorted, an identification means 4 that optically identifies the object to be sorted, a sorting means 6 that sorts the object to be sorted on the basis of an identification result from the identification means, and a guide plate 5 with which the object to be sorted discharged from the transfer means is brought into contact to guide the falling direction of the object to be sorted. The optical sorting machine is characterized in that: the guide plate has a guide surface with which the object to be sorted can be brought into contact, and an opening part 51 formed in the guide plate and penetrating the guide plate; the sorting means, which is capable of sorting the object to be sorted passing in front of the guide plate, is located at the opening part; and the guide plate, together with the sorting means, can change the relative position with respect to the falling trajectory of the object to be sorted.
A controller of this optical sorting machine is configured to: receive input of a target quality condition candidate regarding an acceptable mixture rate of low-quality commodities in commodities to be sorted, which are discharged as high-quality commodities from the optical sorting machine; receive input of quality information indicating the mixture rate of the low-quality commodities regarding at least a part of the commodities to be sorted; perform simulation, on the basis of the quality information, of a sorting result regarding the amount and/or yield of the commodities to be sorted, which are discharged as high-quality commodities obtained in the case where sorting has been performed by a sorting device such that the target quality condition candidate can be achieved; output a simulation result; receive input of a final target quality condition to be employed when sorting is performed by the sorting device; and execute sorting on the basis of a sorting control parameter for allowing the final target quality condition to be achieved.
A grain preparing facility comprising a plurality of hulling means and a single management control means capable of transmitting and receiving data to and from the plurality of hulling means, wherein the management control means receives flow rate data of hulled rice or mixed rice discharged from each discharge part of the plurality of hulling means, and controls, on the basis of the flow rate data of the hulled rice or mixed rice, the supply flow rate of raw material unhulled rice supplied from a supplying part of the plurality of hulling means.
An optical sorter includes a first light source disposed on a first side, a second light source disposed on a second side, an optical sensor configured to detect light during a plurality of scan periods including a first scan period and a second scan period, a determination part configured to determine a foreign object and/or a defective product, and a light source control part. The light source control part is configured to control the first light source and the second light source during the first scan period so as to turn on the first light source and/or the second light source in a first lighting pattern, which is a lighting pattern arbitrarily selected from a lighting pattern in which the first light source and the second light source are at least partially on, a lighting pattern in which only one of the first light source and the second light source is at least partially on, and a lighting pattern in which only the other of the first light source and the second light source is at least partially on, and is also configured to control the first light source and the second light source during the second scan period so as to turn on the first light source and/or the second light source in a second lighting pattern, which is a lighting pattern selected arbitrarily except for the first lighting pattern.
This method for producing pregelatinized rice includes a pressurizing and steaming step for pressurizing and steaming a starting rice material 1. This method for producing pregelatinized rice also includes a cooking step for steam-cooking the rice material having been pressurized and steamed in the pressurizing and steaming step. This method for producing pregelatinized rice also includes a swelling step for swelling the rice material, which has been cooked in the cooking step, by sprinkling water. This method for producing pregelatinized rice also includes a drying step for drying the rice material having been swollen in the swelling step.
A piezoelectric valve includes: a valve main part including a gas pressure chamber receiving compressed gas supplied from outside; a plate inside the valve main part, and an actuator fixed to the plate and inside the valve main part, which is a case with an opening on a front surface. The plate includes a gas discharge path and a valve seat coming into contact with a valve element of the actuator opening and closing the gas discharge path. A lid member that closes the opening of the case has a gas discharge opening communicating with the gas discharge path of the plate; is welded and fixed to a front surface of the plate, where the gas discharge path opens, on an annular welded part surrounding the gas discharge opening; and is welded and fixed to an end surface of the case on an annular welded part on the outer peripheral part.
A piezoelectric valve 1 comprises: an actuator 3 for driving a valve element 35; a valve seat plate 4 for fixing the actuator 3; and a body case for housing the valve seat plate 4. The actuator 3 is provided with: a base 31 fixed to the valve seat plate 4; a piezoelectric element 32 that has one end connected to a mounting surface of the base 31 and that extends in a first longitudinal direction; a support section 33 that is provided integrally to the base 31 and extends in a second longitudinal direction intersecting with the first longitudinal direction alongside the piezoelectric element 32; an action unit 34 that is connected to another end of the piezoelectric element 32 and a distal end of the support section 33, and is displaced in a direction different from the first longitudinal direction and from the second longitudinal direction with expansion and contraction of the piezoelectric element 32; and the valve element 35, which is provided to the side of the direction in which the action unit 34 is displaced. The support section 33 has a constricted section 331 at an intermediate portion extending in the second longitudinal direction. The support section is fixed to the valve seat plate 4 further to the side of the base 31 than the constricted section 331.
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
A hulling machine configured to perform hulling through a husking roll, a hulled-rice discrimination machine capable of examining hulled rice discharged from the hulling machine, and a hulling control unit capable of controlling the hulling machine in accordance with a result of the examination of the hulled rice at the hulled-rice discrimination machine are provided, and the hulling control unit includes a rotational speed change means configured to change a rotational speed of the husking roll in the hulling machine in accordance with the result of the examination of the hulled rice.
This roll abrasion detection unit comprises a first rotation shaft. The roll abrasion detection unit also comprises a second rotation shaft provided in parallel with the first rotation shaft and displaceable in each of the centripetal direction and the centrifugal direction of the first rotation shaft. The roll abrasion detection unit also comprises an arm part including a body part having a longitudinal shaft, a first joint forming one end part of the body part and connected to the second rotation shaft, and a second joint forming another end part of the body part and fixed to the inside of a rice huller. The roll abrasion detection unit also comprises a drive mechanism which is engaged in power transmission of the first rotation shaft and the second rotation shaft. The roll abrasion detection unit 1 also comprises a sensor unit that measures displacement information of the arm part or the second rotation shaft.
Provided is a piezoelectric actuator that can reduce a risk of air leakage due to weakening of pressing force of a valve element against a valve seat surface and airtightness. The piezoelectric actuator is used for a piezoelectric valve that opens and closes a valve utilizing displacement of a laminated piezoelectric element. The piezoelectric actuator includes: a valve element; a laminated piezoelectric element that generates a driving force, required for operation of the valve element, as a displacement; and a displacement enlargement mechanism that enlarges a displacement of a laminated piezoelectric element and causes the enlarged displacement to act on the valve element. In the piezoelectric actuator, a surface of the valve element to be in contact with a valve seat of the piezoelectric valve is made flat and smooth in a state in which a tensile load is applied to the laminated piezoelectric element.
H10N 30/20 - Dispositifs piézo-électriques ou électrostrictifs à entrée électrique et sortie mécanique, p. ex. fonctionnant comme actionneurs ou comme vibrateurs
To provide an optical grain sorter that can reduce the proportion of non-defective grains blown off collaterally, and even in a case in which a plurality of defective grains or the like fall down in a state overlapping each other, can blow off all the defective grains or the like.
The optical granular matter sorter includes a control unit configured to control an ejection time of a compressed gas from an air ejecting unit based on a result of detection obtained by an optical detecting unit, in which the control unit has a comparing unit configured to compare a defect detection time for an object to be sorted by the optical detecting unit and a single-granular matter passage set time set in advance, and a calculating unit configured to multiply the defect detection time by a predetermined coefficient based on a result of comparison obtained by the comparing unit to calculate the ejection time, and in a case in which the defect detection time is less than or equal to the single-granular matter passage set time as the result of comparison obtained by the comparing unit, the calculating unit multiplies the defect detection time by a small coefficient as compared to a case in which the defect detection time exceeds the single-granular matter passage set time to calculate the ejection time, and controls the ejection time of the compressed gas from the air ejecting unit based on a result of calculation.
A retrofit control means (40) of this rice grain whiteness adjustment device (1), upon comparing measured whiteness values obtained by a first whiteness measuring instrument (12A), a second whiteness measuring instrument (12B), and a third whiteness measuring instrument (12C) with a target set value and assessing that rice grains are not in a target milled state, controls a first milling adjustment mechanism (11A), a second milling adjustment mechanism (11B), and a third milling adjustment mechanism (11C) so as to change the resistance applied to the rice grains.
A resistance plate (71) provided in a polishing chamber (S1) formed between a polishing roll (63) and a bran removing cylindrical body (64) imparts resistance to grain (M1) by blocking movement of the grain (M1) from which bran has been removed from the surface thereof while co-rotating in conjunction with the rotation of the polishing roll (63). A lateral side of the resistance plate (71) is provided with a rotary drive shaft (72) extending along a center line (C1) of the polishing roll (63). An operation conversion mechanism (10) advances and retracts the resistance plate (71) with respect to the polishing chamber (S1) in conjunction with a forward rotation operation and a reverse rotation operation of the rotary drive shaft (72), respectively.
An inspection apparatus includes a stirring/mixing means for stirring and mixing a sample solution in a batch-type sample container, an excitation light source including a light source that irradiates an irradiation plane of the sample container in the vertical direction, a light-receiving means arranged on the lateral face side of the sample container, and a control means for calculating the number of microorganisms contained in a sample in the sample solution.
An endless first flat belt (B1) is wound around a first drive pulley (4b), a first tension pulley (6a), a second driven pulley (3B), and a first driven pulley (2A), and said belt turns due to the rotating action of the first drive pulley (4b), causing a first husking roll (R1) and a second husking roll (R2) to rotate. Between the first tension pulley (6a) and the first drive pulley (4b), a first serpentine movement control pulley (8), which is free to swing about a swing axis (C3) extending in the thickness direction of an area adjacent to the first flat belt (B1), guides the first flat belt (B1).
This granular material bounce detection device comprises: a conveying means for conveying granular materials; an imaging means capable of capturing images of the granular materials being conveyed by the conveying means; and a bounce determining means capable of determining, on the basis of data acquired by the imaging means, whether or not the granular materials being conveyed on the conveying means are bouncing.
This optical sorting machine comprises a light source, an optical sensor configured so as to detect light associated with objects being sorted, a detection unit configured so as to detect defective portions of the objects being sorted on the basis of a signal acquired by the optical sensor, a sorting unit configured so as to jet air toward the defective portions and sort out the objects being sorted that have the defective portions, and a jetting control unit configured so as to control the jetting of the air. The jetting control unit is configured so as to execute a jetting region control in which air is jetted in a first jetting region with respect to the objects being sorted when a dimension value of the defective portions is equal to a first value, and in which air is jetted in a second jetting region with respect to the objects being sorted when a prescribed condition is satisfied. The second jetting region is larger than the first jetting region. The prescribed condition includes that the dimension value is equal to a second value smaller than the first value.
30 - Aliments de base, thé, café, pâtisseries et confiseries
33 - Boissons alcoolisées à l'exception des bières
35 - Publicité; Affaires commerciales
07 - Machines et machines-outils
Produits et services
Rice; processed rice; miso; soy sauce [soya sauce]; mirin flavored condiment; vinegar Japanese sake (Nihonshu); shochu (spirits); Japanese Shochu-based beverages (Chuhai); Japanese sweet rice-based mixed liquor (Shiro-zake); Naoshi (Japanese liquor); Japanese Shochu-based mixed liquor (Mirin); low alcoholic beverages containing amazake * ; none of the aforesaid goods being, or consisting of, gin or gin-based products * Retail store services and wholesale store services for rice, processed rice, miso, soy sauce (soya sauce), mirin flavored condiment, vinegar, amazake (sweet drink made from fermented rice), Japanese sake (Nihonshu), shochu (spirits), Japanese Shochu-based beverages (Chuhai), sake substitutes, Japanese sweet rice-based mixed liquor (Shiro-zake), Naoshi (Japanese liquor) and Japanese Shochu-based mixed liquor (Mirin); import-export agencies; sales promotion for others; marketing services; provision of an online marketplace for buyers and sellers of goods and services; targeted marketing; telemarketing services * ; none of the aforesaid services being for, or pertaining to, gin and gin-based products * Food processing machines and apparatus namely rice polishing machines and rice milling machines
61.
Piezoelectric valve and method of manufacturing the piezoelectric valve
Provided is a piezoelectric valve in which the valve is opened/closed utilizing a displacement of a laminated piezoelectric element, including: a valve main body having a gas pressure chamber that receives compressed gas supplied externally; and an actuator having a valving element, the laminated piezoelectric element that generates a driving force required for operating the valving element as the displacement, and a displacement enlarging mechanism that enlarges the displacement of the laminated piezoelectric element to be acted on the valving element, the actuator being disposed in the valve main body, in which a surface of the laminated piezoelectric element is coated with silicone in a state in which the laminated piezoelectric element is integrated into the actuator.
F16K 31/00 - Moyens de fonctionnementDispositifs de retour à la position de repos
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
H10N 30/20 - Dispositifs piézo-électriques ou électrostrictifs à entrée électrique et sortie mécanique, p. ex. fonctionnant comme actionneurs ou comme vibrateurs
H10N 30/50 - Dispositifs piézo-électriques ou électrostrictifs avec une structure empilée ou multicouche
A paddy discriminator includes a downflow gutter in which mixed grains including paddy and brown rice are aligned and flow down, a light emission source that irradiates the mixed grains discharged from the downflow gutter with light, and light receiving means capable of receiving reflected light and transmitted light from the mixed grains irradiated with light by the light emission source, wherein the light emission source includes first illumination means that is provided on a light receiving means side of the mixed grains and is capable of irradiating the mixed grains with light of a red component, and second illumination means that is provided on a side away from the light receiving means of the mixed grains and is capable of irradiating the mixed grains with light of a green component.
This grain discerning device is capable of discerning the quality of grain placed on a transparent tray. The grain discerning device comprises an upper camera that is disposed above the grain and is capable of imaging the upper surface of the grain, a lower camera that is disposed below the grain and is capable of imaging the lower surface of the grain, an upper light source that is disposed above the grain and is capable of illuminating the upper surface of the grain, and a first lower light source that is disposed below the grain and is capable of illuminating the lower surface of the grain.
The present invention provides a method for identifying objects to be sorted, the method comprising a transporting step for transporting the objects to be sorted, an imaging step for capturing an image of the objects to be sorted during the transporting step, and an identifying step for identifying the objects to be sorted on the basis of imaging information obtained in the imaging step. The imaging information includes adjacency information about objects to be sorted which are adjacent to each other, and classification information about the objects to be sorted.
G01N 23/04 - Recherche ou analyse des matériaux par l'utilisation de rayonnement [ondes ou particules], p. ex. rayons X ou neutrons, non couvertes par les groupes , ou en transmettant la radiation à travers le matériau et formant des images des matériaux
G01N 23/18 - Recherche de la présence de défauts ou de matériaux étrangers
H04N 1/387 - Composition, repositionnement ou autre modification des originaux
G01N 21/85 - Analyse des fluides ou solides granulés en mouvement
In this optical sorting device (1), when there are two or more results, among sorting necessity assessment results (R1) to (R4) produced by an assessment unit (91), indicating that sorting is assessed to be necessary, a sorting signal setting unit (93) sets a sorting operation signal (X), which includes information (I) for causing an ejector (61) to operate when granules (G) advancing through the air pass through a sorting region (P), on the basis of a combination of the sorting necessity assessment results (R1) to (R4) from a predetermined signal setting table (T).
B07C 5/342 - Tri en fonction d'autres propriétés particulières selon les propriétés optiques, p. ex. la couleur
B07C 5/346 - Tri en fonction d'autres propriétés particulières selon les propriétés radioactives
G01N 23/04 - Recherche ou analyse des matériaux par l'utilisation de rayonnement [ondes ou particules], p. ex. rayons X ou neutrons, non couvertes par les groupes , ou en transmettant la radiation à travers le matériau et formant des images des matériaux
G01N 21/85 - Analyse des fluides ou solides granulés en mouvement
66.
X-RAY SHIELDING STRUCTURE FOR DEVICE INCLUDING X-RAY IRRADIATION UNIT
A shielding cover (8) surrounding a transport unit (3) and an X-ray irradiation unit (41) has a loading opening (82d) and an unloading opening (84g) formed therein. A guiding passage unit (25) of a loading slider (21) guides granules (G1) into the transport unit (3). A defective product guiding passage unit (72a) and a non-defective product guiding passage unit (73a) of a discharge chute (71) guide the granules (G1) out of the transport unit (3). The guiding passage unit (25) of the loading slider (21) is inclined with respect to the loading opening (82d). The discharge chute (71) is inclined with respect to the unloading opening (84g).
G21F 7/047 - Passages blindésMoyens d'obturation ou de transfert entre boîtes à gants
G01N 23/04 - Recherche ou analyse des matériaux par l'utilisation de rayonnement [ondes ou particules], p. ex. rayons X ou neutrons, non couvertes par les groupes , ou en transmettant la radiation à travers le matériau et formant des images des matériaux
In the present invention, a reference member comprising a correction region for correcting an image obtained by a grain discrimination device is inserted into the grain discrimination device from the outside and set in an installation position for a sample plate.
Provided is a monitoring system for a milling facility, which includes a plurality of grinders including roll mills for grinding a material to be milled and sifting machines for sifting, according to grain size, the material to be milled as ground by the roll mills; and a plurality of pulverizers including roll mills for pulverizing the material to be milled and sifting machines for sifting, according to grain size, the material to be milled as pulverized by the roll mills. The material to be milled is milled by each of the grinders and pulverizers. A plurality of flow rate measuring devices are provided on respective flow paths for product flours discharged from the respective sifting machines in the respective grinders and pulverizers, and a monitoring device capable of monitoring presence or absence of an abnormality based on measurement results on respective flow rates of the product flours is provided.
B23K 11/30 - Caractéristiques relatives aux électrodes
G01F 1/28 - Mesure du débit volumétrique ou du débit massique d'un fluide ou d'un matériau solide fluent, dans laquelle le fluide passe à travers un compteur par un écoulement continu en utilisant des effets mécaniques par détection des effets dynamiques de l’écoulement par débitmètre à force d'entraînement, p. ex. du type à palette ou à poussée
This piezoelectric valve: comprises actuators that drive a valve body by using the displacement of a piezoelectric element, and a valve main body for accommodating the plurality of actuators therein; has, on the front surface of the valve main body, a gas intake port that draws compressed gas into the interior thereof, and a plurality of gas exhaust ports that exhaust the drawn-in compressed gas by driving open the plurality of valve bodies; and is detachable from a fluid apparatus by using a connector part provided to the front surface of the valve main body. The connector part includes: an intake passage of which the end on one side thereof communicates with the gas intake port, and the end on the other side thereof is capable of communicating with a gas supply passage of the fluid apparatus; a plurality of exhaust passages of which the ends on one side thereof communicate with the plurality of gas exhaust ports, and the ends on the other side thereof are capable of communicating with the plurality of exhaust passages of the fluid apparatus. The opening pitch on the other side of the plurality of exhaust passages is greater than the opening pitch on the one side.
F16K 27/00 - Structures des logementsMatériaux utilisés à cet effet
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
This device for killing bugs and microbes is provided with a water-adding part capable of housing grains and water. The device for killing bugs and microbes is additionally provided with a heating part which is connected to the water-adding part and which jets out steam to at least a portion of water provided to the grains. The device for killing bugs and microbes is further provided with a drying part that blows air toward at least one of steam, water, and grain transported from the heating part.
A61L 2/07 - Procédés ou appareils de désinfection ou de stérilisation de matériaux ou d'objets autres que les denrées alimentaires ou les lentilles de contactAccessoires à cet effet utilisant des phénomènes physiques de la chaleur des gaz chauds de la vapeur
A sieving device includes a mount, and a vibration unit configured to perform reciprocating vibration relative to the mount in one direction in plan view and including a sieve frame. The vibration unit includes a first sensor unit and a vibration state measurement unit. The first sensor unit includes a vibration-unit acceleration sensing unit capable of sensing acceleration of the vibration unit, and a vibration-unit angular velocity sensing unit capable of sensing angular velocity of the vibration unit. The vibration state measurement unit measures a vibration state of the vibration unit based on the acceleration and the angular velocity of the vibration unit, which are sensed by the first sensor unit.
B07B 1/00 - Criblage, tamisage ou triage des matériaux solides au moyen de treillis, grilles ou systèmes analogues
B07B 1/28 - Tamis mobiles non prévus ailleurs, p. ex. à oscillations, à mouvement alternatif, à balancement, à basculement ou à vacillement
B07B 1/42 - Mécanismes d'entraînement, dispositifs de régulation ou de commande, ou dispositifs d'équilibrage, spécialement adaptés aux tamis
G01H 1/00 - Mesure des vibrations dans des solides en utilisant la conduction directe au détecteur
G01H 17/00 - Mesure des vibrations mécaniques ou des ondes ultrasonores, sonores ou infrasonores non prévue dans les autres groupes de la présente sous-classe
H02P 29/024 - Détection d’un défaut, p. ex. court circuit, rotor bloqué, circuit ouvert ou perte de charge
72.
OBJECT-TO-BE-SORTED IDENTIFICATION METHOD, SORTING METHOD AND SORTING DEVICE
The present invention is characterized by comprising: a transfer step for transferring an object to be sorted; an image information acquisition step for acquiring image information about the object to be sorted and dividing the image information into a plurality of pieces of cell data at least during the transfer step or after the transfer step; and an identification step for identifying the object to be sorted on the basis of a trained model trained by inputting cell data and training information about the object to be sorted, wherein the training information includes at least defectless part information, defective part information, and background information about the object to be sorted, and the defectless part information includes at least contour information about the object to be sorted.
Provided is an optical sorting machine comprising: an optical detection means for detecting, at a detection position, objects to be sorted; a discrimination means for discriminating, on the basis of the detection results from the optical detection means, an object that should be removed from among the objects to be sorted; and a jetting means that, on the basis of the discrimination results of the discrimination means, uses jetting of a compressed gas to blow off and remove the object that should be removed from among the objects to be sorted. The jetting means comprises a piezoelectric valve in which displacement of a piezoelectric element is used to drive a valve body and open and close the valve, and a valve driving means for applying a drive voltage to the piezoelectric element. In accordance with the object that should be removed from among the objects to be sorted, the valve driving means controls the drive voltage to be applied to the piezoelectric element, and controls the jetting pressure of the compressed gas for removing the objects to be sorted.
Provided is a technique with which it is possible to assist in determining the mesh size of a sieve to be used in selecting grain size as a step prior to polishing of grains. This method for determining the mesh size of a sieve to be used in selecting the grain size of grains comprises: a step for measuring, for each grain, the characteristics of a sample of the grains, the characteristics including at least grain size, by using an optical grain appearance measurement device; a step for acquiring, on the basis of the characteristics of the sample, a first index value relating to grains affected by the mesh size, the first index value being associated with a plurality of first mesh size candidate values; and a step for determining the mesh size, on the basis of the first index value, from among the plurality of first mesh size candidate values.
This optical sorting machine comprises: a light source configured to irradiate, with light, a to-be-sorted object being transferred on a transfer path; an optical sensor configured to detect the light irradiated from the light source and associated with the to-be-sorted object; a determination unit configured to determine foreign matter and/or defective products for the to-be-sorted object on the basis of a signal obtained by the optical sensor with respect to the light associated with the to-be-sorted object; and an intermediate member that is placed at a position between the light source and the transfer path in a light irradiation direction from the light source to the to-be-sorted object, and at a position in which the detection of the light associated with the to-be-sorted object is not affected, the intermediate member having a marking. The optical sensor is further configured to detect a marking-related light irradiated from the light source and obtained through the marking.
This method is characterized by comprising: a protein content prediction step for acquiring a protein content prediction value for a cereal that is in a mature stage by remote sensing; a protein content actual measurement step for acquiring a protein content actual measurement value for the cereal from a sample of the cereal that is in a stage immediately before harvest by ground truth; and a protein content correction step for correcting the protein content prediction value using the protein content actual measurement value to acquire a protein content corrected prediction value for the cereal.
G01N 21/27 - CouleurPropriétés spectrales, c.-à-d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes en utilisant la détection photo-électrique
The present invention is directed to setting an operation parameter of a grain milling machine appropriately according to the characteristics of grain targeted for processing. An operation aid apparatus for a grain milling facility including a grain milling machine and a color sorter includes a first acquisition portion configured to acquire first information regarding characteristics of grain that should be processed in the grain milling facility, and a second acquisition portion configured to acquire second information regarding an evaluation of a sorting result acquired by milling first grain by the grain milling machine and sorting them by the color sorter after that. The second information is associated with the first information regarding the first grain. The operation aid apparatus further includes a setting portion configured to determine an operation parameter for processing second grain by the grain milling machine based on the first information regarding the second grain that should be newly processed in the grain milling facility and the second information associated with the first information regarding the first grain.
A piezoelectric valve comprising: an actuator that drives a valve body; a valve seat plate having a valve seat that separates from the valve body, and a discharge path; and a main body case that accommodates the valve seat plate. The actuator is provided with: a base part fixed to the valve seat plate; a piezoelectric element, one end of which is connected to an attachment surface of the base part, the piezoelectric element extending in a first length direction; a support part formed integrally with the base part and extending in a second length direction that is aligned with the piezoelectric element and intersects with the first length direction; an acting part that is connected to the other end part of the piezoelectric element and the tip end part of the support part, the acting part being displaced in accordance with the expansion and contraction of the piezoelectric element in a direction differing from both the first length direction and the second length direction; and a valve body driven by the displacement of the acting part. The main body case is provided with a gas supply opening through which a compressed gas is supplied, and a gas discharge opening through which the compressed gas supplied through the gas supply opening is discharged via the discharge path of the valve seat plate by the separating of the valve body and the valve seat.
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
This optical sorter is provided with: a light source configured to irradiate, with light, an object to be sorted that is being transferred on a transfer path; an optical sensor configured to detect the light irradiated from the light source and associated with the object to be sorted; a determination part configured to perform a foreign matter determination and/or a defective product determination with respect to the object to be sorted on the basis of a signal which is acquired by the optical sensor for the light associated with the object to be sorted; and at least one intermediate member which is disposed at a position that is between the transfer path and the light source in the irradiation direction of the light from the light source to the object to be sorted and does not affect the detection of the light associated with the object to be sorted, the member having a reflection region for reflecting the light irradiated from the light source. The optical sensor also is configured to detect the light irradiated from the light source and reflected in the reflection region.
A purifier, according to the present invention, comprises: a sieving part having a sieving screen and configured so as to sift a processing object while feeding the processing object in a prescribed direction; a plurality of rectifying chambers which are disposed above the sieving part in communication with the interior of the sieving unit and divided so as to be arranged in a prescribed direction; a plurality of air speed adjustment valves provided inside the plurality of rectifying chambers and configured so as to adjust the speed of air flowing through the sieving screen and upward through the corresponding rectifying chambers; a plurality of motors configured so as to drive the plurality of air speed adjustment valves and control the aperture of the air speed adjustment valves; and a control device configured so as to control the plurality of motors.
B07B 4/08 - Séparation des solides, obtenue en soumettant leur mélange à des courants de gaz pendant que le mélange est supporté par des cribles, des tamis ou des éléments mécaniques analogues
This rice-polishing apparatus for use in brewing rice wine at least comprises: a retainer tank capable of retaining rice grains therein; a plurality of grinding rolls; a polishing unit which, upon receipt of rice grains from the retainer tank, performs polishing on the rice grains with the grinding rolls; and a grain lifting unit which is capable of lifting the polished rice grains discharged from the polishing unit and delivering same to the retainer tank. The rice-polishing apparatus also allows rice grains to pass multiple times through the polishing unit. The rice-polishing apparatus further includes a control unit capable of selecting a prescribed shape of polished grains from among multiple shapes of polished grains, and, according to the prescribed polished grain shape thus selected, the control unit causes the polishing unit to perform polishing on rice grains using one of the plurality of grinding rolls.
The present invention is characterized in having an inspection unit for optically inspecting granules transported by a transportation means, an assessment unit for assessing whether the granules are non-defective granules or defective granules on the basis of the optical inspection carried out by the inspection unit, an ejector control unit that has a plurality of ejector nozzles and that blows compressed air from the ejector nozzles onto the defective granules and sorts the non-defective granules and the defective granules from each other, and a sorting strength setting unit capable of setting the sorting strength of the ejector control unit, the sorting strength being constituted from a plurality of sorting strength levels, and the sorting strength setting unit enabling presetting of a plurality of types of operation setting parameters for controlling the operation of the ejector nozzle for each sorting strength level.
Provided is a compact measurement device capable of measuring whiteness and glossiness easily in a short period of time. The present invention includes: a table 20 for placing thereon a sample plate 10 on which rice grains are placed; a glossiness measuring instrument 30 which radiates glossiness measuring light onto the surfaces of the rice grains on the sample plate on the table and which receives the reflected light to measure the glossiness of the rice grains; and a whiteness measuring instrument 40 which radiates whiteness measuring light also onto the sample plate on the table and which receives, through the sampling plate, the reflected light from the rice grains on the sample plate to measure the whiteness of the rice grains.
Sorting equipment for removing undesirable or desirable material from a high volume stream of fungible material according to its physical characteristics, namely, sorting machines for separating foodstuffs, for separating plastic pellets, and for separating fungible pulverized materials; optical sorting machines for food products, namely, cereal grains, seeds, peanuts, tree nuts, corn, beans; optical sorting machines for resin pellets; optical sorting machines for plastics, namely, recyclable plastics, recycled plastics flakes and industrial plastics regrinds
Agricultural machines and agricultural implements, other
than hand-operated; harvesting machines and implements;
sorting machines, other than for money; rice grain sorting
machines; waste disposal units; optical sorting machines for
foods; optical sorting machines for cereals, rice, corn,
beans and seeds; optical sorting machines for resin pellet,
canned goods and recycling plastic; optical sorting machines
(especially for the purpose of sorting recyclable materials)
for resin pellet and recycling plastic.
An optical sorting machine, provided with: a light source; a color sensor; an assessment unit for assessing foreign matter and/or defective items; a color shift amount calculation unit for calculating the amount of color shift produced due to separation, in the direction of transportation of an object subject to sorting, between at least two element groups from among an R element group, a G element group, and a B element group, with regard to a color image obtained by the color sensor; a speed calculation unit for calculating the speed of transportation of the object subject to sorting, on the basis of the transportation-direction separation distance between at least two element groups, the amount of color shift, and a scan time, which is the time required for the color sensor to perform a single scan; and a sorting device for performing a trajectory-changing operation for changing the trajectory of a specific object subject to sorting, determined on the basis of the result of assessment by the assessment unit, at a timing determined on the basis of the transportation speed calculated by the speed calculation unit.
Provided is a valve device with which a drive system can be controlled in a simple manner and the change in a flow rate characteristic is small even when there has been a temperature change in a valve device body. The valve device comprises an actuator, a valve function module, and a housing. The actuator is provided with: a base section serving as a foundation; a piezoelectric element of which one end is connected to an attachment surface of the base section and which extends in a first longitudinal direction; a support member of which one end is attached to the attachment surface alongside the piezoelectric element and which extends in a second longitudinal direction intersecting the first longitudinal direction; and an actuating section that is connected to the other ends of both the piezoelectric element and the support member and that is displaced in a displacement direction, which is different from both the first longitudinal direction and the second longitudinal direction, in association with expansion and contraction of the piezoelectric element, to drive a valve section. The housing is provided with a supply port to which a fluid is supplied, a discharge port that discharges the fluid supplied from the supply port due to separation of the valve section and a valve seat, and a holding section that ensures a gap between the valve function module and the housing to hold the valve function module.
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
H01L 41/053 - Montures, supports, enveloppes ou boîtiers
H01L 41/083 - Eléments piézo-électriques ou électrostrictifs avec une structure empilée ou multicouche
H01L 41/09 - Eléments piézo-électriques ou électrostrictifs à entrée électrique et sortie mécanique
H02N 2/10 - Machines électriques en général utilisant l'effet piézo-électrique, l'électrostriction ou la magnétostriction produisant un mouvement rotatif, p. ex. moteurs rotatifs
A cereal grain identifier 1 comprises a light source 7, a lens which focuses light emitted by the light source 7, a reflection unit 6 which reflects the light focused by the lens 5, and a plate member 3 which has optical transparency and receives light reflected by the reflection unit 6 on a bottom surface.
The present invention is characterized in that: an inspecting unit for optically inspecting granular material being transferred by a transfer means includes a visible light source, a near-infrared light source, a visible light detecting unit, and a near-infrared light detecting unit; and, with respect to a plurality of non-defective product samples and defective product samples, a determining unit plots red (R), green (G), and blue (B) wavelength components, each detected by the visible light detecting unit, and a near-infrared light component, detected by the near-infrared light detecting unit, in three-dimensional space to create a three-dimensional optical correlation diagram, and sets a threshold.
B07C 5/342 - Tri en fonction d'autres propriétés particulières selon les propriétés optiques, p. ex. la couleur
G01N 21/3563 - CouleurPropriétés spectrales, c.-à-d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes en recherchant l'effet relatif du matériau pour les longueurs d'ondes caractéristiques d'éléments ou de molécules spécifiques, p. ex. spectrométrie d'absorption atomique en utilisant la lumière infrarouge pour l'analyse de solidesPréparation des échantillons à cet effet
G01N 21/359 - CouleurPropriétés spectrales, c.-à-d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes en recherchant l'effet relatif du matériau pour les longueurs d'ondes caractéristiques d'éléments ou de molécules spécifiques, p. ex. spectrométrie d'absorption atomique en utilisant la lumière infrarouge en utilisant la lumière de l'infrarouge proche
G01N 21/85 - Analyse des fluides ou solides granulés en mouvement
An optical sorting machine equipped with a chute which is angled in order for a sorting target to flow downward along said chute, an optical detection means for detecting the sorting target at a detection position, and an ejector means for sorting and removing the sorting target on the basis of the detection results from the optical detection means, the optical sorting machine being characterized in that the chute is provided with an optical detection slit which is perpendicular to the direction of downward flow of the sorting target, the width of the optical detection slit is adjustable, and the optical detection means images the sorting target flowing downward along the chute by using an imaging means, with the detection position being the position at which the optical detection slit is provided.
Rice grain sorting machines; waste disposal units; optical sorting machines for foods; optical sorting machines for cereals, rice, corn, beans and seeds; optical sorting machines for resin pellet, canned goods and recycling plastic; optical sorting machines for the purpose of sorting recyclable materials for resin pellet and recycling plastic
This optical sorting device is provided with a chute which has an optical detection slit and a sorting removal slit disposed downstream of the optical detection slit, and down the top surface of which objects to be sorted flow, wherein: a rear-side illuminating unit of an optical inspecting unit, and an ejector nozzle are attached to a rear-side housing; and the rear-side housing is installed on the back surface side of the chute in such a way that the rear-side illuminating unit faces the optical detection slit, and the distal end of the ejector nozzle faces the sorting removal slit.
Provided is a grain gloss measurement apparatus capable of accurately measuring gloss of grain. A grain gloss measurement apparatus includes a light source to emit light to a measurement region for grain in an oblique direction, a light receiver to receive the light reflected from the measurement region, and a gloss value calculation device to calculate a gloss value of the grain based on the reflected light received by the light receiver. The light source includes a first light source to emit light to the measurement region from one side and a second light source to emit light from another side that is opposite to the first light source across the measurement region. The light emitted from the first light source and the light emitted from the second light source have different wavelengths. The light receiver is disposed on the same side as the second light source, and the gloss value calculation device includes an image processing unit to identify a grain zone in the measurement region based on the light of the second light source that is reflected off the grain and received by the light receiver.
Provided is a method for detecting an object to be sorted, in an optical sorting device that can detect a side portion of a planar object to be sorted. The present invention is characterized in that: the chute is provided with a plurality of parallel longitudinal grooves formed in the longitudinal direction by a plurality of protruding walls; and a planar object to be sorted is made to flow down on the surface of the chute while a substantially flat surface of the planar object abuts the protruding walls to orient a side portion thereof in the front-rear direction of the chute, so that an optical detection unit can detect, at a detection position, the side portion of the object to be sorted. The planar object to be sorted is a rice grain, and it is preferable that the optical detection unit detects, at a detection position, the rice bran that remains on the spine of the rice grain.
This optical sorting machine is provided with a first light source disposed on a first side, a second light source disposed on a second side, an optical sensor configured to detect light in a plurality of scanning periods including a first scanning period and a second scanning period, a determination unit configured to make a determination of foreign matter and/or a defective product, and a light source control unit. The light source control unit is configured to control the first light source and the second light source such that lighting in the first scanning period has a first lighting pattern that is a lighting pattern freely selected from among a lighting pattern in which the first light source and the second light source are on, a lighting pattern in which only one of the first light source and the second light source is on, and a lighting pattern in which only the other of the first light source and the second light source is on, and that lighting in the second scanning period has a second lighting pattern that is a lighting pattern freely selected from among the lighting patterns other than the first lighting pattern.
This optical sorting machine is provided with: an intermittent light source that intermittently emits light toward a plurality of objects to be sorted being conveyed; an optical sensor that detects, in a plurality of intermittent light scanning periods, light associated with one of the plurality of objects to be sorted being conveyed; a determination unit that makes a determination concerning foreign matter and/or a defective product with respect to the one object to be sorted; and a light source control unit that controls the intermittent light source. When the intermittent light source is turned on in at least one of the plurality of intermittent light scanning periods, the light source control unit is configured to control the intermittent light source such that each of the at least one intermittent light scanning period has a lighting period in which the intermittent light source is on and a light-out period in which the intermittent light source is off, and such that the lighting period starts at a timing later than the start of the at least one intermittent light scanning period.
Agricultural machines and agricultural implements, other
than hand-operated; harvesting machines and implements;
sorting machines; rice grain sorting machines; waste
disposal units; optical sorting machines for foods; optical
sorting machines for cereals, rice, corn, beans and seeds;
optical sorting machines for resin pellet, canned goods and
recycling plastic; optical sorting machines (especially for
the purpose of sorting recyclable materials) for resin
pellet and recycling plastic.
This optical sorting machine is provided with a first optical sensor including an R element, a G element, and a B element. The R element, the G element, and the B element each have a spectral sensitivity peak in the visible wavelength region. At least two elements among the R element, the G element, and the B element have a non-zero spectral sensitivity in a prescribed wavelength region within the invisible wavelength regions. The optical sorting machine is additionally provided with: a first light source which emits first light having a wavelength in a prescribed wavelength region toward an object being selected; an integrating unit which integrates at least a portion of a signal acquired by means of at two elements, or at least a portion of a gradation value corresponding to said signal, when the first light is emitted by the first light source; and a first assessing unit which assesses a foreign body and/or a defective product on the basis of the signal or the gradation value integrated by the integrating unit.
