A vapor chamber 1, which is one embodiment of a heat diffusing device, comprises: a housing 10 which has a first inner surface 11a and a second inner surface 12a that face one another in a thickness direction Z and which is provided with an internal space; an operating medium 20 sealed in the internal space of the housing 10; and a sheet-shaped wick 30 disposed in the internal space of the housing 10. The wick 30 includes first through-holes 61 penetrating in the thickness direction Z, and second through-holes 62 penetrating in the thickness direction Z. A peripheral edge of each first through-hole 61 is provided with a first projecting portion 71 protruding in a direction approaching the first inner surface 11a. A peripheral edge of each second through-hole 62 is provided with a second projecting portion 72 protruding in a direction approaching the second inner surface 12a.
F28D 15/04 - Appareils échangeurs de chaleur dans lesquels l'agent intermédiaire de transfert de chaleur en tubes fermés passe dans ou à travers les parois des canalisations dans lesquels l'agent se condense et s'évapore, p. ex. tubes caloporteurs avec des tubes ayant une structure capillaire
F28D 15/02 - Appareils échangeurs de chaleur dans lesquels l'agent intermédiaire de transfert de chaleur en tubes fermés passe dans ou à travers les parois des canalisations dans lesquels l'agent se condense et s'évapore, p. ex. tubes caloporteurs
H01L 23/427 - Refroidissement par changement d'état, p. ex. caloducs
H05K 7/20 - Modifications en vue de faciliter la réfrigération, l'aération ou le chauffage
2.
SURFACE TREATMENT METHOD AND SURFACE TREATMENT DEVICE
The present invention involves: arranging a working electrode (30), which is formed in a circular shape in a plan view and which has an outer diameter larger than that of a workpiece, above the workpiece so as to partially overlap the workpiece in a plan view; rotating the workpiece about a first central axis (X1); rotating the working electrode (30) about a second central axis (X2); and generating an electric discharge between the working electrode (30) and the workpiece while the workpiece and the working electrode (30) are both being rotated.
B23H 1/04 - Électrodes spécialement adaptées à cet effet ou leur fabrication
B23H 9/00 - Usinage spécialement conçu pour le traitement d'objets métalliques particuliers ou pour obtenir des effets ou des résultats particuliers sur des objets métalliques
H01L 21/304 - Traitement mécanique, p. ex. meulage, polissage, coupe
This electrode plate processing apparatus comprises: a plurality of processing rollers (32) that each have a width narrower than the width of an electrode plate (100) and that form hole portions (103) in a processing surface of the electrode plate (100); and a plurality of support mechanisms (34) each independently supporting each of the processing rollers (32). Each of the processing rollers (32) comprises a metal plate (33) that is affixed to the surface of a cylindrical roller body (32a), and that has a plurality of projections (33a). Only one metal plate (33) is provided in the axial direction of each processing roller (32). The processing rollers (32) that are adjacent to each other in the width direction of the electrode plate (100) are displaced from each other in the circumferential direction of a back-up roller (40).
B21D 22/02 - Estampage utilisant des dispositifs ou outils rigides
B21D 53/00 - Fabrication d'autres objets particuliers
B26F 1/20 - Perforation par fentes, c.-à-d. en formant des entailles fermées à leurs extrémités sans enlèvement de matière avec des outils supportés par un tambour rotatif ou un support similaire
H01G 13/00 - Appareils spécialement adaptés à la fabrication de condensateursProcédés spécialement adaptés à la fabrication de condensateurs non prévus dans les groupes
This electrode plate processing apparatus comprises: a plurality of die devices (31) each having a processing roller (32) for forming holes (103) in a work surface of an electrode plate (100); and a back-up roller (40) for holding the electrode plate (100) between itself and each processing roller (32). A single metal plate (33) having a plurality of projections (33a) has been affixed to the processing roller (32) along the axial direction of the processing roller (32). Each die device (31) includes a die-processing cylinder (38) from which the processing roller (32) is suspended and which pushes the processing roller (32) against the back-up roller (40) independently of the other die devices (31).
B21D 22/02 - Estampage utilisant des dispositifs ou outils rigides
B21D 53/00 - Fabrication d'autres objets particuliers
B26F 1/20 - Perforation par fentes, c.-à-d. en formant des entailles fermées à leurs extrémités sans enlèvement de matière avec des outils supportés par un tambour rotatif ou un support similaire
H01G 13/00 - Appareils spécialement adaptés à la fabrication de condensateursProcédés spécialement adaptés à la fabrication de condensateurs non prévus dans les groupes
5.
WIRE ELECTRIC DISCHARGE MACHINING DEVICE AND SHEET USED IN WIRE ELECTRIC DISCHARGE MACHINING DEVICE
Provided is a wire electric discharge machining device which machines a workpiece by electric discharge between a wire and the workpiece, the wire electric discharge machining device includes a jig holding the workpiece, and a cover layer disposed in a fixing part of the jig that faces the workpiece, the cover layer corresponds to a sheet having conductivity and also having an adhesive property to adhere to the workpiece and the jig, and the sheet includes a conductive layer formed of a copper foil, and a conductive adhesive layer combined with this conductive layer.
A fracture surface inspection device for inspecting a first fracture surface and a second fracture surface that are generated through fracture splitting, which is provided with a data acquisition unit configured to acquire two-dimensional data and three-dimensional data on each of the fracture surfaces, a contour extraction unit configured to extract, from the two-dimensional data, a first contour of the first fracture surface and a second contour of the second fracture surface, a transformation amount calculation unit configured to calculate a transformation amount X(affine) when the second contour is affine-transformed to the first contour, a distortion correction unit configured to calculate distortion correction data by affine-transforming the three-dimensional data on the second fracture surface with the transformation amount X(affine), and a comparison unit configured to compare the three-dimensional data on the first fracture surface and the distortion correction data.
G01B 11/25 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes en projetant un motif, p. ex. des franges de moiré, sur l'objet
G01M 5/00 - Examen de l'élasticité des structures ou ouvrages, p. ex. fléchissement de ponts ou d'ailes d'avions
In the present invention, an image of a workpiece W irradiated with light is acquired. A first image which is a monochromatic-light image having a first color and a second image which is a monochromatic-light image having a second color that differs from the first color are acquired from the acquired image of the workpiece W. An image based on the first image and an image based on the second image are combined by summing the gradation values for the plurality of pixels constituting the images. A portion where gradation values are within a prescribed range is extracted from the obtained composite image. The presence/absence of a defect C is determined on the basis of the extracted portion.
A machining device 2 comprises a main roller 6 on which a large number of grooves 26 for winding wires 1 are formed in spiral shapes along the circumferential direction and at predetermined intervals P in the axial direction X. The main roller 6 includes: a shaft portion 20; a resin layer 22 which covers an outer peripheral surface 20a of the shaft portion 20 and on which the large number of grooves 26 are formed; and holding portions 24 which hold the resin layer 22 in the axial direction X. Formation of a large number of reformed grooves 26 on the resin layer 22 is allowed for a groove reformation means 30 through separation of a surface layer of the resin layer 22 along the outer periphery thereof. A groove formation width L1 of the resin layer 22 in the axial direction X for forming the large number of grooves 26 and the reformed grooves 26 is narrower than a resin formation width L of the resin layer 22 in the axial direction X.
In the inspection method and the inspection device for a connecting rod according to the present invention, an image for inspection (P) of a predetermined portion located on a major diameter pin hole (102a) side, including a joining portion (105), and viewed from the hole axial direction of the major diameter pin hole (102a) is acquired, a rod-side approximate circle (C1) conforming to a rod-side pin hole (102d) being a portion on a rod side in the major diameter pin hole (102a) is calculated from the image for inspection (P), a cap-side approximate circle (C2) conforming to a cap-side pin hole (102e) being a portion on a cap side in the major diameter pin hole (102a) is calculated from the image (P) for inspection, and the rod-side approximate circle (C1) and the cap-side approximate circle (C2) are used to determine whether or not the amount of a step of the joining portion (105) is larger than or equal to a predetermined threshold value.
A disposer includes: a housing with an inlet portion in an upper part thereof through which kitchen waste is thrown in, and an outlet portion on a lower lateral face thereof through which the kitchen waste is discharged together with water; a rotating plate provided in a rotatable manner to separate an inner space of the housing into a pulverization chamber positioned on a side of the inlet portion, and a discharging chamber positioned on a side of the outlet portion; a hammer on the rotating plate; and an annular fixed blade that is provided on an inner lateral face of the housing to surround the rotating plate with an interval, and pulverizes the kitchen waste in cooperation with the hammer, in which a visor portion that regulates communication in a vertical direction toward a gap between the rotating plate and the fixed blade is formed above the outlet portion.
B02C 23/36 - Addition de fluide, dans un but autre que celui de broyer ou de désagréger par l'énergie du fluide la zone de broyage ou de désagrégation étant immergée dans un liquide
E03C 1/266 - Aménagements des appareils de désagrégation dans les canalisations d'évacuation des eaux usées ou les orifices d'écoulementAppareils de désagrégation spécialement adaptés pour être installés dans les tuyaux d'évacuation ou les orifices d'écoulement
11.
FRACTURE SURFACE INSPECTION METHOD AND FRACTURE SURFACE INSPECTION DEVICE
The respective image data of a first contour (rod-side contour (31)), which is a contour of a first fracture surface, and a second contour (cap-side contour (32)), which is a contour of a second fracture surface, are obtained from respective two-dimensional image data of each fracture surface, correction amounts for correcting the respective image data of the first and second contours are calculated such that the respective image data of the first and second contours match image data of a prescribed base contour, and on the basis of the respective correction amounts, the respective three-dimensional image data of each fracture surface are corrected, first and second corrected image data (rod-side and cap-side corrected images (41, 42)) are acquired, and the first corrected image data and the second corrected image data are compared to determine whether each fracture surface is of good quality.
G01B 11/25 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes en projetant un motif, p. ex. des franges de moiré, sur l'objet
12.
FRACTURE SURFACE PROCESSING METHOD FOR DUCTILE METAL COMPONENT AND FRACTURE SURFACE PROCESSING DEVICE OF SAME
A fracture surface processing method includes holding fractured components (rod side large end portion (102b), cap side large end portion (102c)) divided by fracturing a ductile metal component (connecting rod (100)) in a fractured direction with entire fractured surfaces (rod side fractured surface (102d), cap side fractured surface (102e)) opened, and irradiating the fractured surfaces of the held fractured components with laser light, respectively.
The present invention comprises: a camera (10) that acquires a plurality of images of the same inspection region; and a controller (100) that has a defect candidate extraction unit (105) which extracts a defect candidate region from each of the plurality of images and a feature amount calculation unit (106) which, for at least two images among the plurality of images, calculates a feature amount of each region corresponding to a defect candidate region in the entirety of each image, wherein the plurality of images include image of differing lighting conditions, and, when acquiring the plurality of images, the camera (10) is fixed so as not to move relative to a workpiece (W) until all images are acquired.
A wire electric discharge machining device 2 machines a workpiece 80 using the electric discharge between a wire 16 and the workpiece 80. The wire electric discharge machining device 2 comprises: a jig 54 that retains the workpiece 80; and a cover layer 64 that is provided to a fixing section 56 of the jig 54 that faces the workpiece 80. The cover layer 64 is electrically conductive and is a sheet 53 having an adhesive property by which the sheet adheres to the workpiece 80 and the jig 54. The sheet 53 comprises: an electrically conductive layer formed from a copper foil 66; and an electrically conductive bonding layer 68 that is combined with this electrically conductive layer.
A fracture surface inspection device 10 inspects a first fracture surface FS1 and a second fracture surface FS2 that are generated through fracture splitting, the device comprising: a data acquisition unit 20 that acquires respective two-dimensional data and three-dimensional data of each fracture surface; a contour extraction unit 51 that extracts, from the two-dimensional data, a first contour of the first fracture surface FS1 and a second contour of the second fracture surface FS2; a transformation amount calculation unit 52 that calculates an (affine) transformation amount X when the second contour is transformed to the first contour by an affine transformation; a strain correction unit 53 that calculates strain correction data by using the (affine) transformation amount X to apply an affine transformation to the three-dimensional data of the second fracture surface FS2; and a comparison unit 56 that compares the three-dimensional data of the first fracture surface FS1 with the strain correction data.
G01B 11/25 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes en projetant un motif, p. ex. des franges de moiré, sur l'objet
16.
THREE-DIMENSIONAL MEASURING DEVICE AND THREE-DIMENSIONAL MEASURING METHOD
According to the present invention, a three-dimensional measuring device (1) that measures the three-dimensional shape of an object to be measured by using a phase shift method, comprises: a first projection device (11) which is capable of projecting a first light pattern having a striped light intensity distribution onto a measurement object from a first position; a second projection device (12) which is capable of projecting a second light pattern, that has a striped light intensity distribution and is different from the first light pattern, onto the measurement object from a second position different from the first position; an image-capturing device (20) which generates a plurality of images for generating three-dimensional information by shifting the phases of the first light pattern and the second light pattern and capturing an image of a measurement object on which the first light pattern and the second light pattern are simultaneously projected; an image processing device (120) which generates three-dimensional information indicating the three-dimensional shape of the measurement object, on the basis of a plurality of images for generating three-dimensional information generated by the image-capturing device.
G01B 11/25 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes en projetant un motif, p. ex. des franges de moiré, sur l'objet
A thermoelectric conversion device (1) according to the present invention is provided with: a heat dissipation substrate (2); a resin substrate (3) which is arranged on the heat dissipation substrate (2); thermoelectric conversion modules (20) which are arranged on the resin substrate (3) and are connected in series with each other; a hermetic case (30) which is bonded onto the resin substrate (3), with a bonding layer (40) being interposed therebetween, so as to form a hermetic space around the thermoelectric conversion modules (20); and an external terminal (60) which is electrically connected to the thermoelectric conversion modules (20), while being exposed to the outside of the hermetic case (30) by penetrating through the bonding layer (40). A portion of the bonding layer (40) between the hermetic case (30) and the external terminal (60) has a thickness not less than a predetermined thickness.
In order to provide a device and method for breaking a connecting rod, the device and method making it possible to form regulated breakage surfaces at an excellent yield rate when breaking a large-diameter section of a connecting rod in two, the present invention: comprises clampers 510, 520 for pressing bolt seat surfaces 921, 922 of a large-diameter section 920 of a connecting rod 900 before the large-diameter section is broken, the connecting rod being mounted in a breaking device, and for restricting movement of the large-diameter section in a direction orthogonal to the center-axis direction, the large-diameter section being broken in two during breaking; and additionally comprises a clamper pressing position regulation mechanism 600 that, in a state in which the connecting rod is attached to the device for breaking a connecting rod, restricts movement of the clampers so that the position at which the clampers press the large-diameter section remains at a position that conforms to a nominal value of manufacturing tolerance of the connecting rod before breaking of the large-diameter section.
B23P 13/00 - Fabrication d'objets métalliques par des opérations impliquant un usinage à la machine, mais non couvertes par une seule autre sous-classe
F16C 7/02 - Structure des bielles de longueur fixe
19.
FRACTURING DEVICE AND FRACTURING METHOD FOR CONNECTING ROD, AND MANUFACTURING METHOD FOR CONNECTING ROD
In the present invention, in order to provide a fracturing device and a fracturing method for a connecting rod that enable a prescribed fracture surface to be formed with excellent yield when a large-diameter section of the connecting rod is fractured in two: clampers 510, 520 are provided for pressing bolt seat surfaces 921, 922 of a large-diameter section 920 of a connecting rod 900 before fracturing the large-diameter section and for restricting the large-diameter section, which is to be fractured in two at the time of fracture, so as to not move in a direction orthogonal to the center axis direction of the large-diameter section; and clamper position-fixing movement-restricting parts 610, 620 are further included so as to keep pressing forces of the clampers with respect to the bolt seat surfaces of the large-diameter section within a predetermined prescribed range before the connecting rod fractures, and to prevent the clampers from moving in the direction orthogonal to the center axis direction of the large-diameter section of the connecting rod due to the fracturing force that the large-diameter section receives at the time of fracture.
B23P 13/00 - Fabrication d'objets métalliques par des opérations impliquant un usinage à la machine, mais non couvertes par une seule autre sous-classe
F16C 7/02 - Structure des bielles de longueur fixe
A wire electric discharge machining device 2 for machining a workpiece W by electric discharge between a wire 16 and the workpiece W includes main rollers 12, 12, a first guide roller 20, and a second guide roller 24 between which the wire 16 is stretched. The main rollers 12, 12, the first guide roller 20, and the second guide roller 24 respectively include surface parts 28, 32, and 36 with grooves for inserting the wire 16. The surface parts 28, 32, and 36 are formed of a material containing a molecule without a polar functional group.
B23H 7/10 - Support, enroulage ou connexion électrique du fil-électrode
21.
METAL PART FRACTURE MACHINE, CONNECTING ROD FRACTURE MACHINE, METAL PART FRACTURE METHOD, CONNECTING ROD FRACTURE METHOD, METHOD FOR MANUFACTURING METAL PART, AND METHOD FOR MANUFACTURING CONNECTING ROD
Using, as a half-split type mandrel 27 to be inserted into a through-hole 5a of a metal part and a connecting rod B, a semi-circular first mandrel 27a that comes into contact with a side surface of the through-hole having rigidity on the lower side and corresponds to the diameter of the through-hole and a semi-circular second mandrel 27b that comes into contact with a side surface of the though-hole having rigidity on the higher side and that has a radial dimension smaller than the first mandrel member, a correction for making the rigidity close to isotropic is performed and a crack that occurs in the metal part and the connecting rod is propagated along a target fracture surface α during fracturing.
F16C 7/00 - Bielles ou organes de liaisons similaires pivotant aux deux extrémitésStructure des pieds de bielles
B23P 13/00 - Fabrication d'objets métalliques par des opérations impliquant un usinage à la machine, mais non couvertes par une seule autre sous-classe
B02C 18/00 - Désagrégation par couteaux ou autres organes coupants ou déchirants qui transforment le matériau en fragmentsHachoirs ou appareils similaires utilisant des vis ou analogue
METHOD FOR PROCESSING FRACTURE SURFACE OF DUCTILE METAL COMPONENT, DEVICE FOR PROCESSING FRACTURE SURFACE, AND METHOD FOR MANUFACTURING DUCTILE METAL COMPONENT
A method for processing fracture surfaces of a ductile metal component by processing fracture surfaces (51a and 52a) of fracture components (51 and 52) into which the ductile metal component (50) is divided by fracturing the ductile metal component (50) in a fracture direction includes: a holding step of holding the fracture components in a state in which the fracture surfaces of the fracture components are separated from each other; a vibration step of imparting predetermined vibration to at least either one of the fracture components being held in the holding step in a direction intersecting the fracture direction; a pressing step of pressing the fracture surfaces of the fracture components against each other by a specified pressing force in a state in which the vibration is imparted by the vibration step; and a separation step of separating the fracture surfaces of the fracture components from each other after the pressing step in the state in which the vibration is imparted by the vibration step.
B24B 1/04 - Procédés de meulage ou de polissageUtilisation d'équipements auxiliaires en relation avec ces procédés en soumettant les outils de meulage ou de polissage, les produits de meulage ou de polissage ou les pièces à des vibrations, p. ex. meulage en fréquence ultrasonore
B24B 41/06 - Supports de pièces, p. ex. lunettes réglables
B24B 55/06 - Équipement d'enlèvement des poussières sur les machines à meuler ou à polir
INOUTININ); a pulverizing mechanism (30) that pulverizes the kitchen waste inside the casing (10); and a water supply part (50) that supplies water, to the inside of the casing (10) and above the grinding mechanism (30). The water supply unit (50) has a water supply path (51) that forms an upward gradient toward an opening (O) that opens to the inside of the casing (10).
B02C 18/00 - Désagrégation par couteaux ou autres organes coupants ou déchirants qui transforment le matériau en fragmentsHachoirs ou appareils similaires utilisant des vis ou analogue
25.
CONNECTING ROD PROCESSING DEVICE AND CONNECTING ROD MANUFACTURING METHOD
According to the present invention, an NC machine tool is used which has: a first rotary cutting tool 14 that is inserted into a large end hole 23 formed in a large end section 22 of a connecting rod 20 and rotationally cuts the inner side surface of the large end section 22; a second rotary cutting tool 15 which is inserted into a small end hole 25 formed in a small end section 24 of the connecting rod 20 and rotationally cuts the inner side surface of the small end section 24; and a lower saddle 4 that supports the first rotary cutting tool 14; and an upper saddle 5 that supports the second rotary cutting tool, wherein the lower saddle 4 and the upper saddle 5 are vertically operated to make the gap between the first rotary cutting tool 14 and the second rotary cutting tool 15 variable. Thus, final processing is performed on the large end hole 23 and the small end hole 25 of the connecting rod 20.
B23B 35/00 - Méthodes d'alésage ou de perçage ou autres méthodes de travail impliquant l'utilisation de machines à aléser ou à percerUtilisation d'équipements auxiliaires en relation avec ces méthodes
B23B 41/04 - Machines ou dispositifs à aléser ou à percer spécialement adaptés à un travail particulierAccessoires spécialement conçus à cet effet pour aléser des trous polygonaux ou d'autres trous non circulaires
B23B 41/12 - Machines ou dispositifs à aléser ou à percer spécialement adaptés à un travail particulierAccessoires spécialement conçus à cet effet pour former les surfaces de travail des cylindres, des paliers, p. ex. dans les têtes de bielles motrices, ou autres pièces de moteurs
B23Q 17/00 - Agencements sur les machines-outils pour indiquer ou mesurer
F16C 7/02 - Structure des bielles de longueur fixe
According to the present invention, an NC machine tool 1 is used which has: a first rotary cutting tool 14 that is inserted into a large end hole 23 formed in a large end section 22 of a connecting rod 20 and rotationally cuts the inner side surface of the large end section 22; a second rotary cutting tool 15 which is inserted into a small end hole 25 formed in a small end section 24 of the connecting rod 20 and rotationally cuts the inner side surface of the small end section 24; and a column 3 that integrally moves the first rotary cutting tool 14 and the second rotary cutting tool 15 relative to the connecting rod 20. The first rotary cutting tool 14 passes through the large end hole 23 in a state of being parallel to the large end hole 23, the second rotary cutting tool 15 passes through the small end hole 25 in a state of being inclined relative to the small end hole 25, and final processing is performed on the connecting rod 20 by rotationally cutting the large end hole 23 and the small end hole 25.
B23B 35/00 - Méthodes d'alésage ou de perçage ou autres méthodes de travail impliquant l'utilisation de machines à aléser ou à percerUtilisation d'équipements auxiliaires en relation avec ces méthodes
B23B 41/04 - Machines ou dispositifs à aléser ou à percer spécialement adaptés à un travail particulierAccessoires spécialement conçus à cet effet pour aléser des trous polygonaux ou d'autres trous non circulaires
B23B 41/12 - Machines ou dispositifs à aléser ou à percer spécialement adaptés à un travail particulierAccessoires spécialement conçus à cet effet pour former les surfaces de travail des cylindres, des paliers, p. ex. dans les têtes de bielles motrices, ou autres pièces de moteurs
F16C 7/02 - Structure des bielles de longueur fixe
The present invention relates to a method for fracturing a metal component 1, B which has a prescribed through hole 5a, and which has a groove portion 17 formed continuously from a first open end of the through hole to a second open end thereof, in a position corresponding to an inner circumferential surface of the through hole, the method enabling the metal component to fracture from the groove portion, and including: identifying a position δ, δ1, δ2 in the groove portion of the metal component at which stress is to be caused to concentrate when the metal component starts to fracture; forming a stress concentration portion 19 in a position in a bottom portion of the groove portion corresponding the identified position in the groove portion, in order for the identified position to become a failure starting point; and causing a crack S1 to be generated from the stress concentration portion 19 on the groove portion earlier than at each portion of the groove portion when the metal component begins to fracture, thereby causing a crack S2 to develop from each portion of the groove portion.
H01L 35/08 - Jonctions non amovibles, p.ex. obtenues par cémentation, frittage, soudage
H01L 35/14 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques
H02N 11/00 - Générateurs ou moteurs non prévus ailleursMouvements dits perpétuels obtenus par des moyens électriques ou magnétiques
29.
METHOD FOR PROCESSING FRACTURE SURFACE OF DUCTILE METAL COMPONENT, DEVICE FOR PROCESSING FRACTURE SURFACE, AND METHOD FOR MANUFACTURING DUCTILE METAL COMPONENT
This ductile metal component fracture surface processing method for processing each of fracture surfaces (51a, 52a) of fractured components (51, 52) divided by fracturing a ductile metal component in a fracture direction includes: a holding step for holding each of the fractured components so that the fractured surfaces thereof are spaced apart from each other; a vibration step for applying a predetermined vibration in a direction crossing the fracture direction to at least one of the fractured components held in the holding step; a pressing step for pressing the fractured components against each other with a specified pressing force while applying the vibration by means of the vibration step; and a separation step for separating the fractured surfaces of the fractured components from each other after the pressing step while applying the vibration by means of the vibration step.
B23P 13/00 - Fabrication d'objets métalliques par des opérations impliquant un usinage à la machine, mais non couvertes par une seule autre sous-classe
B26D 7/18 - Moyens d'enlèvement des matériaux découpés ou des chutes
The present invention is provided with: a housing which has, in an upper portion thereof, an introduction part for introducing kitchen garbage and water, and also has, on a lower surface thereof, a discharge part for discharging the kitchen garbage and water; a rotation plate which partitions the inner space of the housing into a crushing chamber located on the introduction part side and a discharge chamber located on the discharge part side; a drive part which transmits rotational driving power to the rotation plate; a hammer provided on a first surface of the rotation plate, the first surface being located on the crushing chamber side; an impeller provided on a second surface of the rotation plate, the second surface being located, on the discharge chamber side, on the side opposite the first surface; annular fixed teeth provided on an inner side surface of the housing so as to surround the rotation plate while spaced apart therefrom; and a valve which is provided to the discharge part and controls the amount of water stored in the discharge chamber and the amount of water that is discharged from the discharge chamber.
B02C 18/00 - Désagrégation par couteaux ou autres organes coupants ou déchirants qui transforment le matériau en fragmentsHachoirs ou appareils similaires utilisant des vis ou analogue
B02C 18/16 - Désagrégation par couteaux ou autres organes coupants ou déchirants qui transforment le matériau en fragmentsHachoirs ou appareils similaires utilisant des vis ou analogue à couteaux rotatifs Parties constitutives
E03C 1/266 - Aménagements des appareils de désagrégation dans les canalisations d'évacuation des eaux usées ou les orifices d'écoulementAppareils de désagrégation spécialement adaptés pour être installés dans les tuyaux d'évacuation ou les orifices d'écoulement
This mold, for forming multiple through-holes in a 5-40μm thick metal foil, comprises a flat plate part formed from a metal with a hardness less than or equal to HV 650, and multiple frustum-shape projections made from the same metal as the material of the flat plate part and integrally formed so as to project from the surface of the flat plate part, wherein each of the multiple projections has an inclined side surface inclined no less than 5° to the direction orthogonal to the surface of the flat plate part, and the surface area of the top surface located at the tip is greater than or equal to 20 μm2.
This mold, for forming multiple through-holes in a 5-40μm thick metal foil, comprises a flat plate part formed from a metal with a hardness less than or equal to HV 650, multiple frustum-shape projections made from the same metal as the material of the flat plate part and integrally formed so as to project from the surface of the flat plate part, and a cover layer which covers the surface of the projections and which is made from an alloy that has a hardness greater than that of the material of the projections, wherein the main material of the alloy is the same metal as the material of the projections.
This mold, for forming multiple openings in an active substance layer of a battery electrode, comprises a flat plate part formed from a metal with a hardness less than or equal to HV 650, and multiple frustum-shape projections made from the same metal as the material of the flat plate part and integrally formed so as to project from the surface of the flat plate part, wherein each of the multiple projections has an inclined side surface inclined 5-20° to the direction orthogonal to the surface of the flat plate part, and the surface area of the top surface located at the tip is greater than or equal to 20 μm2.
The silicide-based thermoelectric power generation element (2) of the present invention comprises a thermoelectric converter (20) made from silicide, which is a compound of a metal element and Si, and a diffusion prevention layer (26) that is formed on part of the surface of the thermoelectric converter (20). The diffusion prevention layer (26) is a compound of an M1 element (where the M1 element is one or more elements selected from the group consisting of Ti, Cr, Ta, Mo, Al, V, Zr, Nb, Hf and W), and an M2 element (where the M2 element is one element selected from the group consisting of N, B and C).
H01L 35/08 - Jonctions non amovibles, p.ex. obtenues par cémentation, frittage, soudage
H01L 35/14 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques
H01L 35/34 - Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives
H02N 3/00 - Générateurs dans lesquels l'énergie thermique ou cinétique est convertie en énergie électrique par ionisation d'un fluide et enlèvement de sa charge
35.
Method of forming fracture start portion of connecting rod and forming device
A method of forming a fracture start portion of a con rod for forming fracture start portions of a con rod at opposing positions in an inner peripheral surface of a large end of the con rod made of metal, includes a first step of forming a groove portion at a position corresponding to the fracture start portion by using a first insert tip with a large tip end and a second step of forming the fracture start portion, which has become a V-shaped groove, by machining a bottom portion of the groove portion smaller by using a second insert tip having a tip end smaller than the first insert tip.
B23D 31/00 - Machines à cisailler ou dispositifs de cisaillage couverts par aucun ou par plusieurs des groupes Combinaisons de machines à cisailler
B23P 15/00 - Fabrication d'objets déterminés par des opérations non couvertes par une seule autre sous-classe ou un groupe de la présente sous-classe
B23D 3/02 - Machines à raboter ou à mortaiser taillant par déplacement relatif de l'outil et de la pièce à usiner selon une direction verticale ou oblique pour tailler des rainures
B23D 13/00 - Outils ou porte-outils spécialement conçus pour les machines à raboter ou à mortaiser
B26D 3/14 - Formation d'encoches dans le pourtour de la pièce par coupe
36.
Mg—Si system thermoelectric conversion material, method for producing same, sintered body for thermoelectric conversion, thermoelectric conversion element, and thermoelectric conversion module
Provided are: an Mg—Si system thermoelectric conversion material which exhibits stably high thermoelectric conversion performance; a sintered body for thermoelectric conversion, which uses this Mg—Si system thermoelectric conversion material; a thermoelectric conversion element having excellent durability; and a thermoelectric conversion module. A method for producing an Mg—Si system thermoelectric conversion material according to the present invention comprises a step for heating and melting a starting material composition that contains Mg, Si, Sb and Zn. It is preferable that the contents of Sb and Zn in the starting material composition are respectively 0.1-3.0 at % in terms of atomic weight ratio.
H01L 35/18 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques comprenant de l'arsenic, de l'antimoine, ou du bismuth
H01L 35/14 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques
H01L 35/34 - Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives
H01L 35/22 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques comprenant des composés contenant du bore, du carbone, de l'oxygène ou de l'azote
37.
FIXED-ABRASIVE-GRAIN WIRE SAW DEVICE, AND WAFER PRODUCTION METHOD USING SAME
The present invention is provided with: a first reel (31) around which a pre-usage wire is wound; and a second reel (32) around which a post-usage wire is wound and retrieved. When workpiece processing is performed on a first occasion, wire having a length obtained by adding, to a stroke amount, a usage amount required for the second reel from the first reel to perform the workpiece processing on the first occasion, is unwound to the second reel, and the wire is subsequently supplied from the second reel to a processing part of a workpiece to perform the workpiece processing on the first occasion. Furthermore, when workpiece processing is performed on a second occasion and occasions thereafter, for each of said occasions, wire having a length corresponding to 1.5 to 2.5 times the usage amount used in the previous workpiece processing is unwound to the second reel, and the wire is subsequently supplied from the second reel to the processing part to perform the workpiece processing.
B28D 5/04 - Travail mécanique des pierres fines, pierres précieuses, cristaux, p. ex. des matériaux pour semi-conducteursAppareillages ou dispositifs à cet effet par outils autres que ceux du type rotatif, p. ex. par des outils animés d'un mouvement alternatif
H01L 21/304 - Traitement mécanique, p. ex. meulage, polissage, coupe
38.
ELECTRODE FOR NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY, AND MANUFACTURING METHOD OF ELECTRODE FOR NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY
This electrode for a non-aqueous electrolyte secondary battery is provided with a current collector metal foil (110) having multiple projections (111) on at least one surface, and with an active material layer (120) which is formed on the surface of the current collector metal foil so as to embed the current collector metal foil, wherein openings (112) are formed in the tips of the projections, and grooves (121) around the projections are formed in the active substance layer.
A method for forming a breakage-starting section of a connecting rod in which breakage-starting sections of a connecting rod (1) made of a metal are formed at facing positions on the inner circumferential surface of a large end section of the connecting rod (1), the method being characterized in having a first step for using a first insert tip having a large tip curvature to form a groove (11) at a position corresponding to the breakage-starting section, and a second step for using a second insert tip having a tip curvature smaller than that of the first insert tip to machine the bottom part of the groove so as to reduce the curvature and form a breakage-starting section shaped as a V-shaped groove (12).
B23D 3/02 - Machines à raboter ou à mortaiser taillant par déplacement relatif de l'outil et de la pièce à usiner selon une direction verticale ou oblique pour tailler des rainures
B23P 13/00 - Fabrication d'objets métalliques par des opérations impliquant un usinage à la machine, mais non couvertes par une seule autre sous-classe
40.
Mg-Si THERMOELECTRIC CONVERSION MATERIAL, METHOD FOR PRODUCING SAME, SINTERED BODY FOR THERMOELECTRIC CONVERSION, THERMOELECTRIC CONVERSION ELEMENT, AND THERMOELECTRIC CONVERSION MODULE
Provided is a production method with high productivity, which is not susceptible to the occurrence of cracks and thus has high yield when a sintered body of a thermoelectric conversion material is produced or when a sintered body for a thermoelectric conversion part of a predetermined size is cut out of a sintered body, and which is capable of cutting a plurality of sintered bodies for thermoelectric conversion parts out of one sintered body in cases where the sintered body is large in size. Also provided are: an Mg-Si thermoelectric conversion material which exhibits stably high thermoelectric conversion performance; a sintered body for thermoelectric conversion, which uses this Mg-Si thermoelectric conversion material; a thermoelectric conversion element having excellent durability; and a thermoelectric conversion module. A method for producing an Mg-Si thermoelectric conversion material according to the present invention comprises a step for heating and melting a composition starting material that contains Mg, Si, Sb and Zn. It is preferable that the contents of Sb and Zn in the composition starting material are respectively 0.1-3.0 at% in terms of atomic weight ratio, and it is also preferable that the total content of elements other than Mg and Si is 0.2-5.0 at% in terms of atomic weight ratio.
H01L 35/18 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques comprenant de l'arsenic, de l'antimoine, ou du bismuth
C22C 1/02 - Fabrication des alliages non ferreux par fusion
The present invention is equipped with: a fine division step wherein a cutting or grinding device (1) equipped with a fixed abrasive grain wire (2) to which abrasive grains are adhered, a support unit (8) that supports an material (10) to be processed, and a coolant liquid supply unit (9) that supplies a coolant liquid, is used to cut or to grind the material (10) to be processed by relatively moving the fixed abrasive grain wire (2) or the material (10) to be processed in a reciprocating motion or a rotating motion while the coolant liquid is supplied; a recovery step wherein fine particles (11) are formed by the cutting or grinding of the material (10) to be processed, and the fine particles together with the coolant liquid are recovered as a slurry; and an extraction step wherein fine particles having a normal distribution for which the average grain diameter is a submicron value are extracted from this slurry.
B24B 55/12 - Dispositifs d'évacuation du nuage d'huile ou de l'agent de refroidissementDispositifs pour collecter ou récupérer des matériaux issus du meulage ou du polissage, p. ex. métaux précieux, pierres précieuses, diamants ou similaires
B28D 5/04 - Travail mécanique des pierres fines, pierres précieuses, cristaux, p. ex. des matériaux pour semi-conducteursAppareillages ou dispositifs à cet effet par outils autres que ceux du type rotatif, p. ex. par des outils animés d'un mouvement alternatif
This invention is provided with: a liquid flow injection nozzle (50) for laterally injecting a liquid flow towards a wafer group (W) comprising multiple wafers loaded horizontally as layers in a liquid tank and obtained by cutting a silicon ingot; and a bubble discharge device (60) for discharging bubbles below the liquid flow injection nozzle and between the liquid flow injection nozzle and the wafer group (W), and causing the bubbles to rise.
H01L 21/304 - Traitement mécanique, p. ex. meulage, polissage, coupe
H01L 21/677 - Appareils spécialement adaptés pour la manipulation des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide pendant leur fabrication ou leur traitementAppareils spécialement adaptés pour la manipulation des plaquettes pendant la fabrication ou le traitement des dispositifs à semi-conducteurs ou des dispositifs électriques à l'état solide ou de leurs composants pour le transport, p. ex. entre différents postes de travail
43.
LIQUID CIRCULATION DEVICE AND HYDROPONIC DEVICE FOR HOME USE USING SAME
A liquid circulation device is provided with: a container (2) for containing liquid (6); a circulation path (3) having an inlet opening (3a) and an outlet opening (3b), which are open in the liquid, and circulating the liquid (6); an air supply pipe (4) connected to the circulation path (3) through an air supply opening (4a) and sucking the liquid (6) from the inlet opening (3a) to cause the liquid (6) to flow in one direction and to deliver the liquid (6) from the outlet opening (3b); and an air pump (5) connected to the air supply pipe (4). One or both of the inlet opening (3a) and the outlet opening (3b) of the circulation path (3) are open near the inner wall surface of the container (2) so as to be directed along the inner wall surface. The air supply opening (4a) is provided to the circulation path (3) at a portion thereof which ascends in the direction of flow of the liquid (6).
F04F 1/18 - Pompes utilisant un fluide intermédiaire, en surpression ou en sous-pression, agissant directement sur le liquide à pomper le fluide intermédiaire étant mélangé au liquide à pomper ou fabriqué à partir de celui-ci
44.
METHOD FOR FORMING BREAKAGE START SECTION OF METALLIC PART
A method for forming a breakage start section of a metallic part, provided with a first step for forming by machining a groove (11) in a portion of the metallic part (1), said portion corresponding to the breakage start section, and also with a second step for forming recesses (12) in the bottom portion of the groove (11) in such a manner that the recesses (12) are separated from each other at predetermined intervals. The breakage start section of the metallic part, said breakage start section having a stable breakage surface after breakage, can be formed at low cost by the method, and the method can manufacture a connecting rod having uniform breakage surfaces which can be obtained by impact energy significantly lower than that conventionally required. High-quality connecting rods can be obtained while satisfying the demand for energy saving.
B23P 13/00 - Fabrication d'objets métalliques par des opérations impliquant un usinage à la machine, mais non couvertes par une seule autre sous-classe
F16C 7/02 - Structure des bielles de longueur fixe
A slurry regenerating device provided with a centrifugal separator (2) for allowing waste slurry to be inserted therein, a discharge opening (12) for discharging a primarily separated substance and a secondarily separated substance from the centrifugal separator (2), a first collecting vessel (3) communicating with the discharge opening (12) through a route (8a) for the primarily separated substance, a second collecting vessel (4) communicating with the discharge opening (12) through a route (8b) for the secondarily separated substance, a liquid discharge opening (13) for discharging dispersed soot or a mixed liquid of the dispersed soot and the secondarily separated substance, a third collecting vessel (5) and a fourth collecting vessel (6) which communicate with the liquid discharge opening (13), a blending vessel (7) for generating regenerated slurry, and a switching means (9) for connecting either the route (8a) for the primarily separated substance or the route (8b) for the secondarily separated substance to the discharge opening (12).
B24B 57/02 - Dispositifs pour l'alimentation, l'application, le triage ou la récupération de produits de meulage, polissage ou rodage pour l'alimentation en produits de meulage, polissage ou rodage à l'état fluide, vaporisés, pulvérisés ou liquéfiés
H01L 21/304 - Traitement mécanique, p. ex. meulage, polissage, coupe
brevets
