Provided is a fuel cell separator manufacturing method and a fuel cell separator with which a reduction in sealing performance can be suppressed. The present invention is characterized by comprising: a layering step in which a first metal separator (21) and a second metal separator (22) are layered, each metal separator comprising a flat section (30) and bead sections (31) protruding from the flat section (30); and a welding step in which the layered flat sections (30) are welded to each other along the bead sections (31). The present invention is also characterized in that in the welding step, a welding merge section (Z) in which the welded sections merge with each other is formed at a position, on a welding route, which becomes a high rigidity section (U) where the rigidity is high, and/or at a position which is separated from the bead sections (31).
H01M 8/0258 - Collecteurs; Séparateurs, p.ex. séparateurs bipolaires; Interconnecteurs caractérisés par la configuration des canaux, p.ex. par le champ d’écoulement du réactif ou du réfrigérant
H01M 8/0276 - Moyens d’étanchéité caractérisés par leur forme
H01M 8/0286 - Procédés de formation des joints d’étanchéité
A motorized leg (1) is provided with a lower knee member (110), an upper knee member (120), a knee joint mechanism (130) coupling the lower knee member (110) and the upper knee member (120) such that the angle therebetween can be changed, and an extendable device (140) capable of changing the angle between the lower knee member (110) and the upper knee member (120) by extending and contracting. The extendable device (140) comprises a motor (M) and a transmission (T) that transmits power from the motor (M). The transmission (T) comprises a first transmission mechanism (T1) that transmits power from the motor (M) at a first gear ratio, and a second transmission mechanism (T2) that transmits power from the motor (M) at a second gear ratio different from the first gear ratio.
Provided is a laser machining method with which strain occurring in a workpiece can be reduced even when a large number of through-holes are formed. The laser machining method includes: a gas supply step (S3) for making a gas pressure on the back-surface side of a workpiece 1 greater than a gas pressure on the front-surface side thereof; a deep hole step (S5) for irradiating the workpiece 1 from the front-surface side with a pulsed laser having a first repetition frequency f1, thereby forming a through-hole A in the workpiece 1; and a finishing step (S7) for irradiating the inner surface of the through-hole A with a pulsed laser having a second repetition frequency f2 that is less than the first repetition frequency f1.
In a tool holding portion (40a) of a machining tool (10), a cartridge (48) is provided so as to be movable forward and backward. A cam (50) accommodated inside a cam accommodation portion (40b) rotates while the cam (50) is in abutment against the cartridge (48) to thereby move the cartridge (48) forward and backward. A rod (54) which moves forward and backward inside a tool body (40) along an axis (a) is provided with an abutment portion (54a). The abutment portion (54a) abuts against an abutment position (51) of the cam (50) according to the forward and backward movement of the rod (54) to thereby rotate the cam (50). A restriction mechanism (56) is capable of adjusting the phase of the cam (50) when the abutment portion (54a) is apart from the abutment position (51) so that a reference position is reached where the abutment position (51) faces the abutment portion (54a).
B23B 29/034 - Têtes d'alésage à outils à mouvement radial, p.ex. pour chanfreiner ou creuser
B23B 41/00 - Machines ou dispositifs à aléser ou à percer spécialement adaptés à un travail particulier; Accessoires spécialement conçus à cet effet
B23B 41/12 - Machines ou dispositifs à aléser ou à percer spécialement adaptés à un travail particulier; Accessoires 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
B23B 51/08 - Forets combinés à d'autres outils ou parties d'outils pour effectuer un travail additionnel
ABSTRACT OF THE DISCLOSURE A first display unit and a second display unit are arranged at an upper part of a side surface of a vehicle body so as to be separated from each other in a longitudinal direction of an opening. The first display unit and second display unit each include a first luminous display surface and a second luminous display surface on a pedestal. Meanwhile, a first corner of a first transparent part and a second corner of a second transparent part are arranged in the first sliding door and second sliding door at parts thereof to cross over the first display unit and second display unit, respectively, when the opening is open. Date Recue/Date Received 2020-12-30
G09F 21/04 - Publicité visuelle mobile par des véhicules terrestres
B60R 13/00 - Eléments pour habiller la carrosserie, l'identifier ou la décorer; Aménagements ou adaptations pour la publicité
G09F 9/30 - Dispositifs d'affichage d'information variable, dans lesquels l'information est formée sur un support, par sélection ou combinaison d'éléments individuels dans lesquels le ou les caractères désirés sont formés par une combinaison d'éléments individuels
6.
METHOD OF SETTING TAPPET CLEARANCE AND DEVICE THEREFOR
Even in the case where, due to distortion (undulation) or the like of an end surface of an adjusting screw abutting on a valve stem end, there exists a non-linear undulation movement amount in a movement amount of the end surface with respect to a rotation return angle of the adjusting screw, the undulation movement amount is continuously measured, and a screw return movement amount based on a screw pitch and on the rotation return angle is continuously calculated, and, when a total movement amount of the undulation movement amount and the screw return movement amount has attained a prescribed clearance, return rotation is ended.
Provided are a housing and a handling method for a processing device that can prevent the adherence of dust particles and the like on a sensor. A housing accommodates a sensor that detects an energy beam. The housing comprises: a chamber provided with a transparent member through which the energy beam can pass; and a supply port for supplying gas into the chamber. The sensor detects an energy beam incident thereon via the transparent member.
Provided is a method for determining a laser irradiation state whereby the output of a laser can be acquired with high accuracy. This method for determining a laser irradiation state determines the irradiation state of a laser irradiated by a laser irradiation device and includes: an output stabilization time acquisition step for acquiring, as an output stabilization time, the time from the start of laser irradiation by the laser irradiation device until the stabilization of the output of the laser; an energy acquisition step for acquiring, after the output stabilization time or longer has elapsed from the start of the laser irradiation by the laser irradiation device, the energy of the laser irradiated by the laser irradiation device in a pre-set prescribed period; a conversion step for converting the acquired energy to the output of the laser irradiated by the laser irradiation device; and a state determination step for determining the irradiation state of the laser on the basis of the converted output of the laser.
Provided is a press molding method in which a plate material is molded into a target molded body including a ridge section, said method including: a first step for molding an intermediate molded body; and a second step for forming the target molded body from the intermediate molded body. The target molded body and the intermediate molded body have coincident regions where the cross-sectional shapes coincide on both sides of an intermediate ridge section, and an intermediate region where the cross- sectional shapes do not coincide. The intermediate region includes: an outer region in which the intermediate molded body protrudes outward of an edge radius with respect to the target molded body; and an inner region in which the intermediate molded body is curved inward of the edge radius with respect to the target molded body.
This press forming method includes a first drawing step for forming a first drawn step portion, a second drawing step for forming a second drawn step portion, and a finishing step for completing a stepped portion. In the first drawing step, a first outside curved portion is formed to the outside of a second outside curved portion with respect to an extension region of a character line, and a first parallel portion is formed to the same depth as the drawn depth of a second parallel portion. In the second drawing step, a second inside curved portion having a greater curvature than a first inside curved portion is formed.
The present invention pertains to a brazing method and a brazing apparatus (10, 54, 56). This brazing method comprises: a brazing material supply step for supplying a brazing material (12) to a to-be-welded part (16); and a laser irradiation step for irradiating the brazing material (12) having been supplied to the to-be-welded part (16) with a laser beam while moving the laser beam along a brazing direction to form a welding bead (18). In the laser irradiation step, a gas is injected toward an area (46) to be injected with gas, which is an area encompassing the welding bead (18) located rearward of a laser-irradiated portion (44) of the brazing material (12) in the brazing direction, from above said area (46) or from a front side of said area (46) in the brazing direction.
Provided are a vehicle diagnosis method, vehicle diagnosis system, and external diagnosis device capable of optimizing the amount of fuel supplied to a vehicle throughout a factory. This vehicle diagnosis method for using an external diagnosis device that communicates with an engine ECU to determine the suitability of the fuel consumption amount of a vehicle comprises: a step for calculating and storing the fuel consumption amount; a step for acquiring the fuel consumption amount from the engine ECU; a step for determining whether the fuel consumption amount is less than or equal to a threshold; and a step for permitting the shifting of the vehicle to the next step if the fuel consumption amount has been determined to be less than or equal to the threshold and instructing that fuel be supplied if the fuel consumption amount has been determined to be greater than the threshold.
The present application relates to verification of operation of a vehicle diagnosis device. A diagnosis device verification system and method are disclosed. The system may include a memory configured to store information of a diagnosis result screen displayed on a display unit and checked by a verification worker as to whether it is displayed normally. The system may further include a result acquisition unit configured to acquire information of the diagnosis result screen displayed on the display unit. The system may further include a comparison unit configured to compare the information of the diagnosis result screen acquired by the result acquisition unit and the information of the diagnosis result screen stored in the memory. With the system, it may be possible to accurately verify all diagnosis items including existing items while reducing the burden on the verification worker required to verify the diagnosis program.
A device (10) determines storage positions for a plurality of types of components to be assembled to workpieces corresponding to a plurality of types of products to be produced in a predetermined period according to a production plan, in an accommodation unit (20) that has a plurality of rows of accommodation spaces facing a passage. The device (10) comprises: a memory (12) that stores the correspondence relationship between the types of the workpieces corresponding to the products to be produced in the predetermined period and the types of components to be assembled for each of the types of the workpieces; a group determination unit (14) that determines storage positions for the plurality of types of components in the accommodation unit (20) on the basis of the correspondence relationship; a layout determination unit (15) and an optimum position determination unit (16) (CPU (11)); and an output unit (17) (CPU (11)) that outputs the storage positions. The storage positions for the plurality of types of components in the accommodation unit (20) are determined so that the plurality of types of components corresponding to the workpieces are distributed and arranged in all of the plurality of rows of the accommodation unit (20).
B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
G05B 19/418 - Commande totale d'usine, c.à d. commande centralisée de plusieurs machines, p.ex. commande numérique directe ou distribuée (DNC), systèmes d'ateliers flexibles (FMS), systèmes de fabrication intégrés (IMS), productique (CIM)
A processing machine is provided with: at least one dolly on which a workpiece (vehicle body floor) is placed; and a robot that is placed on the dolly and performs a predeter- mined process (re-spot welding) using a processing tool (welding gun), on the workpiece while the dolly is moving.
B23K 37/02 - Chariots pour supporter l'outillage pour souder ou découper
B23K 11/00 - Soudage par résistance; Sectionnement par chauffage par résistance
B23P 19/00 - Machines effectuant simplement l'assemblage ou la séparation de pièces ou d'objets métalliques entre eux ou des pièces métalliques avec des pièces non métalliques, que cela entraîne ou non une certaine déformation; Outils ou dispositifs à cet effet dans la mesure où ils ne sont pas prévus dans d'autres classes
B23P 21/00 - Machines pour l'assemblage de nombreuses pièces différentes destinées à composer des ensembles, avec ou sans usinage de ces pièces avant ou après leur assemblage, p.ex. à commande programmée
B23Q 41/00 - Combinaisons ou associations de machines pour le travail des métaux ne visant pas un travail particulier relevant des classes , ou
The present invention relates to a resistance welding device, a hollow arm, and a method of manufacturing a hollow arm. A welding gun is provided with the hollow arm for holding a movable electrode. The hollow arm includes an arm body having a cavity portion that is opened on one side, and a cover attached to an opening end surface of the arm body so as to cover an opening of the cavity portion. The arm body and the cover are secured by a friction stir welding portion extending along a peripheral part of the cover.
B23K 20/12 - Soudage non électrique par percussion ou par une autre forme de pression, avec ou sans chauffage, p.ex. revêtement ou placage la chaleur étant produite par friction; Soudage par friction
Provided is a vehicle inspection system with which an inspection of various functions of a vehicle can be conducted in a small space on the basis of image information of a plurality of cameras. The present invention is a vehicle inspection system (10) for inspecting a vehicle (200) in which a travel control is executed on the basis of external environment information in a prescribed direction detected by a first single-lens camera (204L) and a second single-lens camera (204R), wherein said vehicle inspection system (10) comprises a 3-D display device (90) which shows a first image imitating an external environment to the first single-lens camera (204L) and also shows a second image imitating the external environment to the second single-lens camera (204R), and furthermore, shows the first image and the second image on the same screen.
This vehicle inspection system (10) comprises: a monitor (52) that displays a simulated image captured by a camera (204) and imitating external environment information; a target device (54) that returns an irradiation wave from an electromagnetic sensor (201) as a reflected wave; a simulator device (20) that changes the external environment information by changing the simulated image or the reflected wave; and an inspection device (90) that inspects actuators (218, 220, 222) of a vehicle (200) to be inspected on the basis of the changed external environment information.
B60W 30/09 - Entreprenant une action automatiquement pour éviter la collision, p.ex. en freinant ou tournant
B60W 30/16 - Contrôle de la distance entre les véhicules, p.ex. pour maintenir la distance avec le véhicule qui précède
B60W 40/02 - Calcul ou estimation des paramètres de fonctionnement pour les systèmes d'aide à la conduite de véhicules routiers qui ne sont pas liés à la commande d'un sous-ensemble particulier liés aux conditions ambiantes
19.
VEHICLE INSPECTION SYSTEM AND VEHICLE INSPECTION METHOD
Provided are a vehicle inspection system and a vehicle inspection method that can align a vehicle with a constant location of a bench testing machine. The present invention comprises: a bench testing machine (20) that rotatably supports wheels (220) of a vehicle (200), using rollers (42) that are provided for each of the wheels (220); and a monitor device (90) that is positioned in a fixed location with regard to the bench testing machine (20) and displays, toward a camera (204), an image resembling an exterior environment, wherein the bench testing machine (20) has a location adjustment device (turning mechanism (40), test bench control device (34)) that adjusts the location of the vehicle (200) in the vehicle width direction such that the relative location of the camera (204) in the vehicle width direction with regard to the monitor device (90) is constant.
Provided is a vehicle inspection system (10) that enables inspection of an inspection vehicle (200) provided with electromagnetic sensors (206, 208) having different wavelengths. A first absorption member (150) and a second absorption member (154) are provided to non-overlapping positions in front of a position (163) at which the radiation range (152) of radiated waves from the first electromagnetic sensor (206) and the radiation range (156) of radiated waves from the second electromagnetic sensor (208) overlap.
G01S 13/93 - Radar ou systèmes analogues, spécialement adaptés pour des applications spécifiques pour prévenir les collisions
G01S 17/93 - Systèmes lidar, spécialement adaptés pour des applications spécifiques pour prévenir les collisions
G01V 3/12 - Prospection ou détection électrique ou magnétique; Mesure des caractéristiques du champ magnétique de la terre, p.ex. de la déclinaison ou de la déviation fonctionnant par ondes électromagnétiques
Provided is a simulator device allowing simplification and cost minimization. A simulator device (10) that generates and emits, to a LiDAR (92) shining a laser light (L) at a plurality of scanning locations, a false light (F) corresponding to said laser light (L), and comprises: a light focusing unit (20) that focuses the laser light (L) shined at the plurality of scanning locations; and a simulator (14) that, in accordance with the laser light (L) focused by the light focusing unit (20), generates the false light (F) resembling scattered light that is produced in a prescribed location, and emits the false light (F) to the LiDAR (90) via the light focusing unit (20).
This spot welding method is a method for joining workpieces being a layered body of three or more metal sheets by supplying welding current. The welding current has a pulse-like waveform wherein a peak state in which the current reaches or is maintained to be within a set peak current range and a non-peak state in which the current is lowered from the peak current range to a set bottom current, and is then increased toward the peak current range again are alternately achieved. In the non-peak state, in the case where an effective value Irms of the welding current is lowered, and reaches a predetermined effective value target range, a current control process for increasing the welding current toward the peak current range is started.
A machining tool (10) forms a first relief surface (14), a valve seat surface (16), and a second relief surface (18) by cutting the inner periphery of a valve seat blank (12) having an opening (12a). The machining tool (10) is provided with: a tool body (40) rotationally driven about an axis (a); a plurality of cutting tools (42, 44, 46) rotating with the tool body (40); a cartridge (48) mounted to the tool body (40) so as to be capable of moving forward and backward along the axis (a); and a cam (50) in contact with the base end surface (70d) of the cartridge (48) and moving the cartridge (48) forward and backward. At least one of the plurality of cutting tools (42, 44, 46) is mounted to the cartridge (48).
B23B 41/00 - Machines ou dispositifs à aléser ou à percer spécialement adaptés à un travail particulier; Accessoires spécialement conçus à cet effet
B23B 29/034 - Têtes d'alésage à outils à mouvement radial, p.ex. pour chanfreiner ou creuser
B23B 39/00 - Machines ou dispositifs d'utilisation générale, pour l'alésage ou le perçage; Ensemble machines à aléser ou à percer
B23B 41/12 - Machines ou dispositifs à aléser ou à percer spécialement adaptés à un travail particulier; Accessoires 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
B23B 51/08 - Forets combinés à d'autres outils ou parties d'outils pour effectuer un travail additionnel
B23D 77/14 - Alésoirs pour travaux particuliers, p.ex. pour usiner des stries de cylindres
24.
METHOD FOR CLEANING OPTICAL COMPONENT AND CLEANING APPARATUS
To provide a cleaning apparatus capable of efficiently removing organic matters adhering to the surface of an optical component by UV ashing, regardless of the humidity of outside air. In the method for cleaning optical components by UV ashing according to the present embodiment, while supplying humidity-controlled humidified gas, ultraviolet rays are radiated to the surface of the protective glass 44 to remove organic matters on the surface of the protective glass 44. Further, in the cleaning method of the present embodiment, the humidified gas is supplied so that the humidity in the laser head 40 during cleaning becomes 30% to 90%.
B08B 7/00 - Nettoyage par des procédés non prévus dans une seule autre sous-classe ou un seul groupe de la présente sous-classe
B08B 11/00 - Nettoyage d'objets flexibles ou fragiles par des procédés ou avec un appareillage spécialement adaptés à cet effet
B23K 26/352 - Travail par rayon laser, p.ex. soudage, découpage ou perçage pour le traitement de surface
B23K 26/402 - Enlèvement de matière en tenant compte des propriétés du matériau à enlever en faisant intervenir des matériaux non métalliques, p.ex. des isolants
H01S 3/00 - Lasers, c. à d. dispositifs utilisant l'émission stimulée de rayonnement électromagnétique dans la gamme de l’infrarouge, du visible ou de l’ultraviolet
Provided are a cleaning method and a device for a coating nozzle with which it is possible to cleanly remove a coating agent that has become attached to the coating nozzle. The cleaning device 1 for a coating nozzle N cleans the tip of a translatable coating nozzle N. The cleaning device 1 for the coating nozzle N is provided with a cleaning pad 20 having grooves 21a, 21b, 22a, 22b configured to sandwich the coating nozzle N. The grooves 21a, 21b, 22a, 22b comprise first grooves 21a, 21b extending in a first direction D1, and second grooves 22a, 22b extending in a second direction D2 facing a direction substantially at right angle to the first direction D1.
B05C 11/10 - Stockage, débit ou réglage du liquide ou d'un autre matériau fluide; Récupération de l'excès de liquide ou d'un autre matériau fluide
B05C 5/00 - Appareillages dans lesquels un liquide ou autre matériau fluide est projeté, versé ou répandu sur la surface de l'ouvrage
B05D 1/26 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces par application de liquides ou d'autres matériaux fluides, à partir d'un orifice en contact ou presque en contact avec la surface
A connector includes a first connector body with an attachment hole and a second connector body provided with a shaft portion. A keyway is formed in a sidewall of the shaft portion. Moreover, the first connector body includes a pivoting member pivoting by being pressed by the shaft portion rotating inside the attachment hole and an elastic member for returning the pivoting member that has pivoted to an original position. The pivoting member is provided with an engaging portion engaging with the keyway.
F16B 37/14 - Ecrous-chapeaux; Chapeaux d'écrous ou de boulons
F16B 21/02 - Dispositifs de fixation largables verrouillant par rotation
F16B 21/04 - Dispositifs de fixation largables verrouillant par rotation à baïonnette
F16B 21/06 - Dispositifs de fixation largables à action rapide
F16B 41/00 - Dispositions contre la perte des boulons, écrous, broches ou goupilles; Dispositions interdisant toute action non autorisée sur les boulons, écrous, broches ou goupilles
A snow removal machine has: a storage unit that stores a vehicle speed coefficient map indicating the relationship between an incline angle and a vehicle speed coefficient for decreasing an instructed vehicle speed; a vehicle speed coefficient setting unit that sets the vehicle speed coefficient on the basis of a detected incline angle and the vehicle speed coefficient map; and a vehicle speed setting unit that sets the vehicle speed of a traveling unit by way of multiplying the instructed vehicle speed by the set vehicle speed coefficient. The vehicle speed coefficient map sets the vehicle speed coefficient so same is smaller for larger incline angles when at least the traveling unit is going forward on an upslope. A travel control unit controls a drive source so that the traveling unit travels at the set vehicle speed set by the vehicle speed setting unit.
E01H 5/08 - Enlèvement de la neige ou de la glace des routes ou surfaces analogues; Aménagement de la pente ou de la rugosité de la neige ou de la glace par traction à bras et entraînement des éléments de détachage ou de transport, p.ex. de transport au moyen d'air comprimé le détachage étant essentiellement effectué par éléments entraînés
E01H 5/04 - Enlèvement de la neige ou de la glace des routes ou surfaces analogues; Aménagement de la pente ou de la rugosité de la neige ou de la glace par traction à bras et entraînement des éléments de détachage ou de transport, p.ex. de transport au moyen d'air comprimé
The present invention is a press forming method for obtaining a target formed article (that has an edge-shaped ridge section and that has a negative surface on one side and a positive surface on the other side with respect to the ridge section as a border, said press forming method including: a first step for forming an intermediate formed article having an intermediate ridge section having a larger radius than the edge radius of the ridge section; and a second step for forming the target formed article from the intermediate formed article. The intermediate formed article has a first intermediate positive surface that corresponds to the site extending from the ridge section to the negative surface of the target formed article and also has a second intermediate positive surface that corresponds to the site extending from the ridge section to the positive surface of the target formed article and that continues from the first intermediate positive surface and an intermediate negative surface continuing from the second intermediate positive surface.
Described are various embodiments of a support assembly, comprising an arm structure configured to be secured in a manner to extend into an item-locating region, the arm structure defining an item support surface to support and/or locate one or more items thereon, the arm structure including a pair of telescopingly engaged arm sections which are configured for relative travel between retracted and length-extended configurations, to adjust an effective length of the item support surface, and a rotational telescoping interface operative between the telescopingly engaged arm sections, to impart sufficient relative rotational motion about a rotational telescoping axis during at least part of the relative travel wherein, without the relative rotational motion, binding would occur between the telescopingly engaged arm sections.
B65G 1/10 - Dispositifs d'emmagasinage mécaniques avec supports relativement mobiles pour faciliter l'insertion ou l'enlèvement des objets
B62B 3/10 - Voitures à bras ayant plus d'un essieu portant les roues servant au déplacement; Dispositifs de direction à cet effet; Appareillage à cet effet caractérisées par des supports spécialement adaptés à des objets de forme définie
B62D 65/18 - Systèmes de transport, de convoyage ou de traction spécialement adaptés aux lignes d'assemblage des véhicules à moteurs ou des remorques
A base station distributed unit receives information elements (IEs) from a base station central unit. The IEs comprise: at least one bearer configuration information element indicating that PDCP packet duplication is configured for at least one first bearer of a wireless device; and at least one information element indicating activation of the PDCP packet duplication of the at least one first bearer. The base station distributed unit transmits a medium access control control element indicating the activation of the PDCP packet duplication of the at least one first bearer to the wireless device in response to the at least one information element indicating the activation of the PDCP packet duplication. Based on the medium access control control element, the base station distributed unit receives: PDCP packets of the at least one first bearer; and duplicated PDCP packets of the at least one first bearer.
This mold device has a rotary core that rotates about a shaft member as a rotation center by being provided with a rotational driving force directly from a rotation driving means. A restriction core is interposed between the rotary core and a mold body to restrict the rotation of the rotary core. That is, the rotary core becomes rotatable when the restriction core is withdrawn from between the rotary core and the mold body.
B29C 33/44 - Moules ou noyaux; Leurs détails ou accessoires comportant des moyens ou conçus spécialement pour faciliter le démoulage d'objets, p.ex. des objets à contre-dépouille
B29C 45/44 - Démoulage ou éjection des objets formés d'objets à contre-dépouille
WO 2019/067970 PCT/US2018/053533 ABSTRACT A base station distributed unit receives information elements (IEs) from a base station central unit. The IEs comprise: at least one bearer configuration information element indicating that PDCP packet duplication is configured for at least one first bearer of a wireless device; and at least one information element indicating activation of the PDCP packet duplication of the at least one first bearer. The base station distributed unit transmits a medium access control control element indicating the activation of the PDCP packet duplication of the at least one first bearer to the wireless device in response to the at least one information element indicating the activation of the PDCP packet duplication. Based on the medium access control control element, the base station distributed unit receives: PDCP packets of the at least one first bearer; and duplicated PDCP packets of the at least one first bearer. 64 Date Recue/Date Received 2021-03-01
A resistance welding method according to the present invention includes a current control step of sequentially performing a first control for maintaining a welding current being a direct current at a current value I1 (first target value) or in the vicinity of the current value I1, a second control for raising the welding current from the current value I1 to a current value I2 (second target value, I2 > I1) and for subsequently maintaining the welding current at the current value I2 or in the vicinity of the current value I2, and a third control for lowering the welding current from the current value I2 to a value smaller than the current value I1, and the resistance welding method further comprises an energization step of applying the welding current while repeating the current control step plural times until a predetermined energization period of time elapses.
A door structure for a vehicle, comprising: a latch connected to a cable portion extending from an inner handle and configured to fix a door to a vehicle body; and a bracket attached to a door inner panel, wherein at least a part of the bracket overlaps the latch in a vehicle width direction and is located toward the outside of the vehicle with respect to the latch.
The present invention provides a position estimation method capable of quickly estimating a position of an end of a cylindrical object while utilizing existing facilities. A holding-robot controller includes a correction control amount computation part configured to output a correction control amount of a position and a posture of a holding tool so as to reduce the chuck width when receiving the chuck width. The position estimation method includes: an initial temporary holding step (S2) of causing a pair of clamping claws to approach each other in a reference position and a reference posture to temporarily hold an engine damper; a position/posture correction step (S3) of correcting the position and the posture of the holding tool using a correction control amount obtained by inputting the chuck width at the time of the temporary holding into a correction control amount computation part; a temporary re-holding step (S4) of causing the pair of clamping claws to approach each other in the position and the posture after the position/posture correction step to temporarily re-hold the engine damper; and an end position estimation step of estimating end position coordinates of the engine damper using a deviation of the position and the posture of the holding tool when the chuck width is equal to or less than a threshold value after the position/posture correction step and the temporary re-holding step are repeated from the reference position and the reference posture.
B23Q 17/22 - Agencements sur les machines-outils pour indiquer ou mesurer pour indiquer ou mesurer la position réelle ou désirée de l'outil ou de la pièce
A hydrostatic transmission for a working machine having a frame, an engine on the frame, and at least one wheel driven by the hydrostatic transmission is disclosed. The hydrostatic transmission includes a housing, a hydraulic pump, the hydraulic pump driven by an output shaft from the engine, a hydraulic motor for driving an output shaft connected to the at least one wheel, a first fluid line fillable with hydraulic fluid to be maintained under a first pressure, a second fluid line fillable with hydraulic fluid to be maintained under a second pressure, a first check valve for allowing hydraulic fluid to enter the first fluid line, a second check valve for allowing hydraulic fluid to enter the second fluid line, and an entrained air deflector for preventing hydraulic fluid entrained with air from entering the first check valve and the second check valve.
F16H 39/04 - Transmissions rotatives à fluide utilisant des pompes et des moteurs du type volumétrique, c. à d. débitant un volume prédéterminé de fluide à chaque révolution le moteur et la pompe à liquide formant un ensemble unique
F15B 21/04 - Mesures particulières prises en rapport avec les propriétés du fluide
Provided is an accommodation device for accommodating a storage battery having a first connector. The accommodation device is preferably provided with: a storage battery holding section for holding a storage battery; and a driving unit for (i) moving a second connector, which is to be connected to the first connector of the storage battery, towards the first connector, and/or (ii) moving the second connector connected to the first connector of the storage battery in a direction away from the first connector.
H01M 50/244 - Boîtiers secondaires; Bâtis; Dispositifs de suspension; Dispositifs de manutention; Supports caractérisés par leur procédé de montage
H01M 50/289 - Montures; Boîtiers secondaires ou cadres; Bâtis, modules ou blocs; Dispositifs de suspension; Amortisseurs; Dispositifs de transport ou de manutention; Supports caractérisés par des éléments d’espacement ou des moyens de positionnement dans les racks, les cadres ou les blocs
H01M 10/46 - Accumulateurs combinés par structure avec un appareil de charge
H01R 13/629 - Moyens additionnels pour faciliter l'engagement ou la séparation des pièces de couplage, p.ex. moyens pour aligner ou guider, leviers, pression de gaz
H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
H05K 5/02 - Enveloppes, coffrets ou tiroirs pour appareils électriques - Détails
A discharge device is equipped with a housing having a flow passage for enabling a coating material to flow and a plurality of discharge ports arrayed on a distal end surface of the housing in a width direction for discharging the coating material toward an object. The plurality of discharge ports are each formed in a non-perfect circular shape having a peripheral length being longer than an imaginary perfect circular shape which has the same area as the non-perfect circular shape. Further, a plurality of discharge flow passages are perpendicular to the discharge ports when viewed in a longitudinal sectional view, are the same shape as the discharge ports, and extend linearly.
B05B 12/16 - Aménagements de commande de la distribution; Aménagements de réglage de l’aire de pulvérisation pour régler l’aire de pulvérisation
B05B 1/14 - Buses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage avec des filtres placés dans ou à l'extérieur de l'orifice de sortie
39.
APPARATUS, SYSTEM, AND METHOD FOR MANIPULATION OF NESTED STAMPED PARTS
An apparatus for rotating an inner stamped part with respect to an outer stamped part is provided. The inner stamped part is nested within an aperture formed within the outer stamped part. The apparatus includes a plurality of grippers that include at least a first gripper positioned at a first edge of the inner stamped part and a second gripper positioned at a second edge of the inner stamped part opposite to the first edge. The plurality of grippers is configured to grip the inner stamped part at the first edge and the second edge, respectively. The plurality of grippers is further configured to rotate the gripped inner stamped part about an axis of rotation. The axis of rotation intersects the first gripper and the second gripper. The plurality of grippers is also configured to open to release the inner stamped part.
B21D 43/00 - Dispositifs d'alimentation, de positionnement ou de stockage combinés à des appareils pour travailler ou traiter les tôles, tubes ou profilés, disposés dans ces appareils ou spécialement adaptés pour être utilisés en association avec ces appareils; Association de dispositifs de coupe avec ces appareils
B21D 22/02 - Estampage utilisant des dispositifs ou outils rigides
B21D 45/00 - Dispositifs d'éjection ou d'arrachage prévus dans les machines ou outils traités dans la présente sous-classe
40.
A METHOD AND PROCESSING DEVICE FOR MANUFACTURING A FUEL CELL WITH ELECTRODE INTERCONNECTOR PART FORMED BY LOCAL HEATING AND CARBONIZATION OF A PROTON CONDUCTIVE RESIN OF AN ELECTROLYTE MEMBRANE
Provided is a fuel cell manufacturing method which makes it possible to easily form an inter-connector portion electrically connecting adjacent unit cells in a planar arrangement-type fuel cell. An inter-connector portion (30) is formed through a localized heating process in which an electrolyte film (12) is locally heated to carbonize a proton-conducting resin. The localized heating process includes a first heating step of heating a part of the electrolyte film (12) to a temperature not higher than a first temperature at a first temperature-increase rate or smaller, and a second heating step, after the first heating step, of heating the part of the electrolyte film (12) to not less than a second temperature higher than the first temperature, at a temperature-increase rate greater than the first temperature-increase rate.
H01M 8/2418 - Groupement en arrangeant les éléments élémentaires dans un plan
H01M 8/0213 - Matériaux imperméables aux gaz contenant du carbone
H01M 8/10 - PROCÉDÉS OU MOYENS POUR LA CONVERSION DIRECTE DE L'ÉNERGIE CHIMIQUE EN ÉNERGIE ÉLECTRIQUE, p.ex. BATTERIES Éléments à combustible; Leur fabrication Éléments à combustible avec électrolytes solides
41.
RESIN COMPONENT, AND MOLDING METHOD AND MOLDING DEVICE FOR SAME
An instrument panel 10 comprises a base material part 20 made from a base material M1, and a different material part 30 having a different heating shrinkage from the base material M1, the base material part 20 and different material part 30 being connected in such a manner that at least part of the two materials do not overlap.
CA 03038924 2019-03-29 85182662 Abstract Provided is a seam welding device capable of seam welding various shapes of objects to be welded. A seam welding device which performs seam welding by causing electricity to be conducted between a first electrode wheel and a second electrode wheel comprises a first motor which drives the first electrode wheel, a second motor which drives the second electrode wheel, and a first belt provided between the first electrode wheel and the first motor. If a direction joining the axes of the first electrode wheel and the second electrode wheel is defined as a vertical direction, the direction from the first electrode wheel toward the second electrode wheel is upward, and the direction from the second electrode wheel toward the first electrode wheel is downward, then the first motor is disposed further upward than a point of contact of the first electrode wheel and the second electrode wheel.
An instrument panel 10 is obtained by bonding a base material part 20 made from a base material M1 and a different material part 30 made from a different material M2. The different material part 30 is inserted into the base material 20, and this insertion part 33 has a plurality of discontinuous recesses.
B60R 21/215 - Dispositions pour ranger les éléments gonflables non utilisés ou à l'état dégonflé; Agencement ou montage des composants ou modules des coussins gonflables caractérisés par le couvercle de l'élément gonflable
A sealing agent 25 fed from a nozzle tube 36 to a nozzle body 37 is fed to a chamber 37e through a body flow path part 37a, a connection part 37c, a first flow path part 37b, and a plurality of second flow path parts 37d, and is discharged outside from a nozzle opening 37f. Each second flow path part 37d is smaller than the downstream end of the first flow path part 37b, and thus, the sealing agent 25 inside the first flow path part 37b is fed with great force to the chamber 37e and is discharged outside from the nozzle opening 37f. Thus, substantially the same amount of sealing agent 25 is discharged over the entire range of the chamber 37e.
An application unit 13 comprises a rotation unit 26 and a support unit 27. The rotation unit 26 includes a nozzle unit 28, a nozzle support part 29, a main body base 30, a first supply part 31, a second supply part 32, a third supply part 33, a valve 34, and a motor 35. The nozzle support part 29 rotatably supports the nozzle unit 28 such that the central axis of the nozzle unit 28 is inclined with respect to the rotation axis of the rotation unit 26.
B05C 5/02 - Appareillages dans lesquels un liquide ou autre matériau fluide est projeté, versé ou répandu sur la surface de l'ouvrage à partir d'un dispositif de sortie en contact, ou presque en contact, avec l'ouvrage
B05C 11/10 - Stockage, débit ou réglage du liquide ou d'un autre matériau fluide; Récupération de l'excès de liquide ou d'un autre matériau fluide
B05B 12/00 - Aménagements de commande de la distribution; Aménagements de réglage de l’aire de pulvérisation
46.
DISCONTINUOUS RECEPTION IN A WIRELESS DEVICE AND WIRELESS NETWORK
A wireless device receives a first downlink control information (DCI). The first DCI comprises: a first trigger field indicating that the first DCI is triggered in response to a second DCI indicating a second trigger; and a field indicating a validation duration for receiving the second DCI via a cell. A discontinuous reception (DRX) process determines that a medium access control (MAC) entity is not in an Active Time. The MAC entity, during at least a portion of the validation duration, monitors a control channel for the second trigger on the cell even if the MAC entity is not in the Active Time.
A dissimilar material joined body is obtained by subjecting to electrical energizing under pressure and joining with electrodes a laminated member, which is of a structure in which a first plate-shaped part and a second plate-shaped part having a higher melting point than that of the first plate-shaped part are superimposed on each other. A concave portion having a shape corresponding to the outer shape of an electrode is formed on the surface of the first plate-shaped part on a side thereof opposite to the second plate-shaped part. The first plate-shaped part includes protrusions, which are inserted into through holes formed in the second plate-shaped part. A method of joining dissimilar materials includes a hole forming step, a stacking step, a pressure energizing step, and a solidification step.
An assembly apparatus is constituted to include positioning mechanisms for aligning the positions of side panels and a roof panel. For example, a front positioning mechanism includes a first base portion disposed on a first distal end arm of a front side robot, roof positioning members and side panel positioning members supported displaceably by the first base portion, a right front beam member and a left front beam member extending along a vehicle widthwise direction from the first base portion, a first left marking member and a first right marking member disposed at respective distal ends of the beam members, and a left visual sensor and a right visual sensor for detecting positions of each of the first left marking member and the first right marking member.
B62D 65/02 - Assemblage de sous-ensembles ou de composants avec la caisse ou entre eux, ou positionnement de sous-ensembles ou de composants par rapport à la caisse ou à d'autres sous-ensembles ou d'autres composants
In an electrode chip attachment device 1, a guide member 20 which is formed such that the guide member 20 can be divided into a first half member 31 and a second half member 32 with a division surface 100 that is passed though the communication hole 33 and that is parallel to the axial direction and a coupling shaft 35 serving as a separate mechanism which separates the first half member 31 and the second half member 32 from each other when the chip holder 50 is pushed into the first tapered portion 310 and the second tapered portion 320 from the opposite side of the electrode chip 90 and which passes the chip holder 50 to the side of the electrode chip 90.
This robot control device is provided with: a storage unit (21) that stores relations between a plurality of first component incomplete assembling states acquired in advance by reinforcement learning and optimal behaviors, of a robot (1), that provide the highest rewards to the respective incomplete assembling states; a force detector (15) that detects the first component incomplete assembling state; and a normal control unit (24) that specifies, on the basis of the relations stored in the storage unit (21), the optimal behavior, of the robot (1), corresponding to the incomplete assembling state detected by the force detector (15) and controls a servo motor (13) in accordance with the optimal behavior. According to the present invention, when reinforcement learning is used, even if there is a misalignment, etc., between the first component and a second component, the first component can be easily assembled with the second component by driving of a hand of the robot.
B23P 19/04 - Machines effectuant simplement l'assemblage ou la séparation de pièces ou d'objets métalliques entre eux ou des pièces métalliques avec des pièces non métalliques, que cela entraîne ou non une certaine déformation; Outils ou dispositifs à cet effet dans la mesure où ils ne sont pas prévus dans d'autres classes pour assembler ou séparer des pièces
51.
METHOD AND APPARATUS FOR MOUNTING FRONT END MODULE
Sensing units, nut runners, and position adjusting members are provided for respective front end arms of a first position adjusting robot and a second position adjusting robot. First, the position of a vehicle body is determined by the sensing units of the first position adjusting robot and the second position adjusting robot. The first position adjusting robot and the second position adjusting robot move a front end module by the position adjusting members to a position where the front end module can move into an opening in a front part of the vehicle body, based on the positional information of the vehicle body.
In the production of ethyl alcohol by taking advantage of autofermentation of a microalga, a step for concentrating or recovering alga cells by centrifugation, filtration, etc. is omitted or simplified so as to save labor and facility required therefor. The microalga, which belongs to the genus Chlamydomonas sp., is a variant that is able to produce ethyl alcohol under anaerobic and dark conditions and has acquired an ability to grow in an aggregate state. In the ethyl alcohol production method, the microalga is grown and maintained under anaerobic and dark conditions to thereby allow the microalga to produce ethyl alcohol.
Slit light is irradiated onto an object to be photographed (for example, an automobile body) in order to obtain a source image. Next, either one of a maximum value filtering process or a minimum value filtering process is performed on the source image to thereby obtain a first filter-processed image. Furthermore, after obtaining a second filter-processed image by carrying out a remaining one of the minimum value filtering process or the maximum value filtering process with respect to the first filter- processed image, a difference is determined between the second filter-processed image and the source image, and a difference image is obtained. Thereafter, a binarization process is implemented with respect to the difference image.
The present invention is a laser processing device wherein adhesion of fumes to a lens can be effectively avoided. The laser processing device is provided with a laser scanner provided with protective glass on a laser output opening, and a cylindrical member having a through path through which the laser output via the protective glass passes formed on the center side in the direction of the radius. A cylindrically shaped filter is disposed on an inside wall part of the cylindrical member facing the through path. The cylindrical member discharges a gas into the through path from the filter.
B23K 26/142 - Travail par rayon laser, p.ex. soudage, découpage ou perçage en utilisant un écoulement de fluide, p.ex. un jet de gaz, associé au faisceau laser; Buses à cet effet pour l'enlèvement de résidus
Provided is a coating device for applying a coating of a liquid mixture including at least a first liquid agent and a second liquid agent, wherein mixing properties of the first liquid agent and the second liquid agent are enhanced. An electrostatic coating device 1 is provided with a rotary atomizing head, a first supply pipe 130 for supplying a main agent L1, a second supply pipe 140 for supplying a curing agent L2, a first mixing part 150 for merging the first supply pipe 130 and the second supply pipe 140 and causing the main agent L1 and the curing agent L2 to mix, and a liquid mixture supply pipe 160 for supplying a mixed liquid agent to the rotary atomizing head 22. The first mixing part 150 is provided with: an outer pipe part 151 connected to the second supply pipe 140 and formed so as to surround the external periphery of a distal-end part 130a of the first supply pipe 130; and a merging part 152 for merging the main agent L1 and the curing agent L2 so that the curing agent L2 supplied from the outer pipe part 151 surrounds the external periphery of the main agent L1 supplied from the first supply pipe 130, the merging part 152 being formed in the vicinity of the distal- end part 130a of the first supply pipe 130.
B05B 5/16 - Dispositions pour l'alimentation en liquides ou en autres matériaux fluides
B05D 1/04 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces réalisés par pulvérisation comportant l'emploi d'un champ électrostatique
56.
SOUNDING REFERENCE SIGNAL TRANSMISSION IN A WIRELESS NETWORK
A wireless device receives a downlink control information (DCI) indicating uplink resources in one or more subframes. The DCI comprises a field indicating a position of a subframe in the one or more subframes for transmission of a sounding reference signal (SRS). The wireless device transmits the SRS in the subframe.
An instrument panel forming method is provided with: a first supply step for supplying a base material 103 that will form the base material part and the different material 303 that will form the different material part into the cavity; and a second supply step for opening, with the pressure applied on the different material 303 maintained to be greater than the pressure applied on the base material 103, the frame-shaped core 215 to bring the base material 103 into contact with the different material 303 and cause the different material 303 to protrude into the base material 103 in the central section of the boundary between the base material 103 and the different material 303 in the thickness direction of the base material 103 and the different material 303 where solidification of the base material 103 and the different material 303 is delayed.
B29C 39/10 - Moulage par coulée, c. à d. en introduisant la matière à mouler dans un moule ou entre des surfaces enveloppantes sans pression significative de moulage; Appareils à cet effet pour la fabrication d'objets de longueur définie, c. à d. d'objets séparés en incorporant des parties ou des couches préformées, p.ex. coulée autour d'inserts ou sur des objets à recouvrir
58.
INJECTION MOLD, INJECTION MOLDING METHOD, AND MOLDED ARTICLE
Provided are an injection mold and an injection molding method by which a boundary line between a first material and a second material curved so as to be sharply bent like a round chamfered shape can be formed reliably in a desired position, and a molded article molded using the injection mold and the injection molding method. The sum of a length w of an inclined-part forming part 51a and a length y of a thinned-part forming part 51b in a width direction of a linear part or a width direction of a curved part is at least equal to a prescribed value, and the thinned-part forming part 51b forming the curved part has a second length y longer than a first length in the width direction of the curved part.
B29C 45/16 - Fabrication d'objets multicouches ou polychromes
B29C 45/56 - Moyens pour plastifier ou homogénéiser la matière à mouler ou pour la forcer dans le moule utilisant des éléments de moules mobiles pendant ou après l'injection, p.ex. pour le moulage par injection-pressage
59.
SOUNDING REFERENCE SIGNAL TRANSMISSION IN A WIRELESS NETWORK
A wireless device receives a downlink control information (DCI) indicating uplink resources in one or more subframes. The DCI comprises a field indicating a position of a subframe in the one or more subframes for transmission of a sounding reference signal (SRS). The wireless device transmits the SRS in the subframe.
Provided are a seam welding method and a seam welding device that, even when emergency suspension of seam welding is executed because a problem such as power outage occurs in a facility, enables seam welding to be performed without leaving any unwelded spots, and without the need to separately execute spot welding after the seam welding is finished. According to the present invention, seam welding of a laminate (24) formed by stacking a plurality of workpieces (26, 28) is performed by pinching the laminate (24) by a pair of roller electrodes (23) while moving the laminate (24) relative to the pair of roller electrodes (23) and serially repeating turning on and off electric conduction between the roller electrodes (23). When the seam welding is to be resumed after being suspended following a cut-off of electric conduction to the pair of roller electrodes (23), the laminate (24) is moved by a prescribed distance in a direction opposite to the direction of the relative movement during the seam welding, spot welding is performed on the laminate (24), and then seam welding is resumed.
Provided is an injection molding machine nozzle capable of suppressing stringiness caused by unsolidified resin where a mold is released in a short period of time and reducing a cycle time. An injection molding machine nozzle 10 has a nozzle hole to eject molten resin from a hot runner 12. The injection molding machine nozzle 10 is provided with: a nozzle chip 16 made of material having higher heat conductivity than that of the hot runner 12 and having a nozzle hole 16B communicating with a most downstream side of a resin flow path of the hot runner 12. The nozzle chip 16 is joined to the hot runner 12 via a heat insulation member 14.
A machining swarf removing apparatus (7) includes a left and a right machining swarf removing units (25)(26). When removing machining swarf adhered to a recovery box (6), the left machining swarf removing unit (25) is placed in removal starting position. A brush (32) enters an insertion-ready state in which transverse direction thereof is oriented in a second direction D2. The brush (32) is moved to an insertion position for insertion into the recovery box (6), then the brush (32) is rotated to enter a machining swarf removal-ready state in which a longitudinal direction thereof is oriented in the second direction D2. The left machining swarf removing unit (25) is moved to remove the machining swarf adhered to the recovery box (6) by the brush (32), while a left rod vibrating device (43) is driven to vibrate a rod (33), vibrating the brush (32) attached to the rod (33).
B23K 26/00 - Travail par rayon laser, p.ex. soudage, découpage ou perçage
B23K 26/38 - Enlèvement de matière par perçage ou découpage
B23Q 11/00 - Accessoires montés sur les machines-outils pour maintenir les outils ou les organes de la machine dans de bonnes conditions de travail ou pour refroidir les pièces travaillées; Dispositifs de sécurité spécialement combinés aux machines-outils, disposés dans ces machines ou spécialement conçus pour être utilisés en relation avec ces machines
63.
METHOD OF INSPECTING A FUEL CELL SYSTEM, AND THE FUEL CELL SYSTEM
In a fuel cell system, an adhesion detection apparatus for detecting adhesion of a second switching valve for a sub tank is provided. The adhesion detection apparatus opens a first switching valve and a second switching valve for switching to a double switching valve open state where a fuel cell performs power generation, and thereafter, closes the first switching valve and opens the second switching valve for switching to a second switching valve open state where the fuel cell performs power generation, and detects adhesion of the second switching valve based on a change of a detection value of a pressure sensor in the second switching valve open state.
B60L 50/70 - Propulsion électrique par source d'énergie intérieure au véhicule utilisant de la puissance de propulsion fournie par des batteries ou des piles à combustible utilisant de l'énergie fournie par des piles à combustible
B60K 15/07 - Montage des réservoirs des réservoirs à gaz
B60S 5/00 - Maintenance, entretien, réparation ou révision des véhicules
Disclosed is a fastener for locking engagement with a threaded member. A body with a first passage extends between two opposed outer surfaces to receive a threaded member therein. The first passage is bordered by a threaded peripheral region which is configured to threadably engage the threaded member. At least one arc portion of the threaded peripheral region is segmented from the body to form at least one locking structure. The locking structure has a first end region integrally formed with the body and a free second end region. The locking structure is configured to bias the threaded member, under the action of a lateral locking force, thereby to fix the position of the fastener thereon, At least one second passage extends laterally through the body to receive a set screw to deliver the lateral locking force to the locking structure, wherein the second passage is configured to direct the locking force toward the first end region and between the first and second end regions.
F16B 39/28 - Blocage des vis, boulons ou écrous dans lequel le verrouillage se fait en même temps que le vissage ou le serrage par organes particuliers portés par l'écrou ou le boulon ou par la forme particulière de ceux-ci
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
F16B 35/00 - Boulons filetés; Boulons d'ancrage; Goujons filetés; Vis; Vis de pression
The present invention has an object to provide a coating device which can reduce variation in the amount of discharge in the discharge nozzle group. A coating device 1 includes: a first supply unit 40 and a second supply unit 50 which can supply a viscous material N to the discharge nozzle group 10; and a control portion 100 which stops, at the timing at which a first time zone is switched to a second time zone, the supply in the first supply unit 40, which makes the second supply unit 50 start the supply of the viscous material N to the discharge nozzle group 10 at a second flow rate and which makes, in a second time zone, the first supply unit 40 start the preparation of the viscous material necessary in any one of a third time zone and the subsequent time zones.
B05B 1/14 - Buses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage avec des filtres placés dans ou à l'extérieur de l'orifice de sortie
66.
HYBRID AUTOMATIC REPEAT REQUESTS IN A WIRELESS DEVICE AND WIRELESS NETWORK
A wireless device receives a grant for one or more subframes. The grant comprises a hybrid automatic repeat request process number (HARQ ID). The wireless device transmits a transport block in a subframe of the one or more subframes employing a first HARQ ID being calculated based on the HARQ ID and a position of the subframe in the one or more subframes.
H04W 52/28 - Commande de puissance d'émission [TPC Transmission power control] le TPC étant effectué selon des paramètres spécifiques utilisant le profil utilisateur, p.ex. la vitesse, la priorité ou l'état du réseau, p.ex. en attente, libre ou absence de transmission
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
An object of the present invention is to provide a coating nozzle which has a plurality of discharge holes and which can reduce variations in the discharge of a coating material from the discharge holes. A coating nozzle (10) includes: a plurality of supply holes (40a to 40t) which are formed in a supply surface (35) so as to be aligned on a circle (D) with a first position (45) in the center; a plurality of discharge holes (50a to 50t) which are formed in a discharge surface (20) so as to be aligned on a straight line (L); and a plurality of communication hole paths (60a to 60t) which make the supply holes (40a to 40t) linearly communicate with the discharge holes (50a to 50t), respectively and in which the communication distances thereof are substantially equal to each other.
B05B 1/14 - Buses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage avec des filtres placés dans ou à l'extérieur de l'orifice de sortie
A cooling apparatus (1) includes: a cooling circuit (100) that includes three flow passages intersecting at an intersection point and allows a cooling liquid to circulate therethrough; a three-way valve (8) that is disposed at the intersection point and is switchable such that any two of the three flow passages communicate with each other; and a controller (9) that controls switching of the three-way valve (8). The controller includes an intermediate fixation determination unit. The intermediate fixation determination unit determines that the three-way valve is in an intermediate fixation state in which the three flow passages simultaneously communicate with one another, when a cooling liquid temperature difference between one of the two flow passages that are controlled to communicate with each other, and a remaining flow passage of the three flow passages that is not controlled to communicate, is smaller than a predetermined value.
H05K 7/20 - Modifications en vue de faciliter la réfrigération, l'aération ou le chauffage
B60K 6/22 - Agencement ou montage de plusieurs moteurs primaires différents pour une propulsion réciproque ou commune, p.ex. systèmes de propulsion hybrides comportant des moteurs électriques et des moteurs à combustion interne les moteurs primaires étant constitués de moteurs électriques et de moteurs à combustion interne, p.ex. des VEH caractérisés par des appareils, des organes ou des moyens spécialement adaptés aux VEH
H01M 10/613 - Refroidissement ou maintien du froid
B60L 58/26 - Procédés ou agencements de circuits pour surveiller ou commander des batteries ou des piles à combustible, spécialement adaptés pour des véhicules électriques pour la surveillance et la commande des batteries pour la commande de la température des batteries par refroidissement
B60K 11/04 - Disposition ou montage des radiateurs, volets de radiateurs ou écrans de radiateurs
In a parking lock system, a link member that swings due to sliding of an operating shaft so as to make a perking lock operate and release the operation includes a counterweight for canceling out axial inertial force of the operating shaft. Therefore, even if the operating shaft attempts to slide in an axial direction with respect to a transmission case due to inertial force when a vehicle experiences sudden deceleration due to a frontal collision or sudden braking, mass of the counterweight resists the inertial force to thus prevent the link member from swinging, thereby making it possible to avoid a situation in which the parking lock is operated unintentionally.
Workability of a working machine equipped with a belt-type continuously variable transmission is enhanced. A belt-type continuously variable transmission 63 for a working machine capable of continuously changing a speed reduction ratio of a driven pulley 74 to a drive pulley 72, has a speed reduction ratio regulation mechanism 90 that regulates a minimum speed reduction ratio of the driven pulley to the drive pulley. The driven pulley includes a fixed sheave 81, a movable sheave 82 displaceable in an axial direction with respect to the fixed sheave, a coil spring 83 that urges the movable sheave toward the fixed sheave, and a torque cam mechanism 84 that converts a part of a rotational force that acts on the movable sheave into a thrust that presses a side surface of a belt. The speed reduction ratio regulation mechanism has a swing arm 91 that adjusts an allowable range in which moving away in an axial direction of the movable sheave with respect to the fixed sheave is possible, and a regulation drive section 110 that drives the swing distal end portion 93 of the swing arm to swing continuously.
F16H 9/18 - Transmissions pour transmettre un mouvement rotatif à rapport de vitesse variable ou pour inverser un mouvement rotatif par des organes flexibles sans fin sans organes à mouvement orbital utilisant des courroies, des courroies trapézoïdales ou des câbles en prise avec une poulie, constituée de pièces dont les positions sont réglables selon l'axe, dans laquelle la courroie s'engage directement entre les flasques opposés de la poulie sans interposition d'organes de support utilisant deux poulies, toutes deux constituées de pièces coniques réglables un seul des flasques de chaque poulie étant réglable
E01H 5/09 - Enlèvement de la neige ou de la glace des routes ou surfaces analogues; Aménagement de la pente ou de la rugosité de la neige ou de la glace par traction à bras et entraînement des éléments de détachage ou de transport, p.ex. de transport au moyen d'air comprimé le détachage étant essentiellement effectué par éléments entraînés les éléments étant rotatifs ou se déplaçant sur une trajectoire circulaire fermée, p.ex. fraises rotatives, roues excavatrices
F16H 9/04 - Transmissions pour transmettre un mouvement rotatif à rapport de vitesse variable ou pour inverser un mouvement rotatif par des organes flexibles sans fin sans organes à mouvement orbital utilisant des courroies, des courroies trapézoïdales ou des câbles
F16H 9/12 - Transmissions pour transmettre un mouvement rotatif à rapport de vitesse variable ou pour inverser un mouvement rotatif par des organes flexibles sans fin sans organes à mouvement orbital utilisant des courroies, des courroies trapézoïdales ou des câbles en prise avec une poulie, constituée de pièces dont les positions sont réglables selon l'axe, dans laquelle la courroie s'engage directement entre les flasques opposés de la poulie sans interposition d'organes de support
F16H 61/662 - Fonctions internes aux unités de commande pour changements de vitesse ou pour mécanismes d'inversion des transmissions transmettant un mouvement rotatif spécialement adaptées aux transmissions à variation continue du rapport avec des organes flexibles sans fin
F16H 63/50 - Sorties de commande vers les transmissions transmettant un mouvement rotatif pour changements de vitesse ou pour mécanismes d'inversion délivrant des signaux autres que les signaux pour manœuvrer les mécanismes finals de sortie des signaux vers le moteur
71.
LASER PROCESSING METHOD AND LASER PROCESSING DEVICE
Provided are a laser processing method and a laser processing device which prevent a laser irradiation unit from colliding with an edge of the plate material when the laser irradiation unit returns to a portion just above a plate material from an outer part of the portion Dust above the plate material. The laser processing method for cutting a plate material P by laser irradiation, the method including: a plate material end portion holding process of holding a position of an end portion of the plate material P at a predetermined position when a laser irradiation unit 30 is present outside a portion just above the plate material P; and a laser irradiation unit moving process in which the laser irradiation unit 30 moves from an outer part of the portion just above the plate material P to the portion just above the plate material.
A longitudinally-stretched resin sheet material 2 is held by a stretching/bending mechanism 3 and heated and softened by a heating part 5. Longitudinal edge sections and transverse edge sections of the softened resin sheet material 2 are pulled and stretched by the stretching/bending mechanism 3. The stretched resin sheet material 2 is bent by the stretching/bending mechanism 3 and molded by vacuum molding by means of a resin molding part 6.
B29C 51/04 - Thermoformage combiné avec un pré-étirage, p.ex. étirage biaxial
B29C 51/12 - Façonnage par thermoformage, p.ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profond; Appareils à cet effet d'objets comportant des inserts ou des renforcements
A painting device is provided with: a bell-shaped cup for discharging paint; a housing for holding the cup so as to be freely rotatable; and first tip openings disposed on the outside in the radial direction on the base end side of the tip side outer peripheral edge of the cup and throwing paint onto a workpiece by spraying shaping air in the direction of the tip. When a tangent line that is tangent to the tip side outer peripheral edge of the cup from a first tip opening is drawn in a front view of the painting device, the first tip opening sprays shaping air at an inclination more to the inside in the radial direction of the cup than the tangent line.
B05B 5/04 - Appareillages pour délivrer le matériau, p.ex. pistolets de pulvérisation électrostatique caractérisés en ce qu'ils comportent une sortie rotative ou des éléments déflecteurs
B05B 3/10 - Appareillages de pulvérisation ou d'arrosage avec des éléments de sortie mobiles ou des éléments déflecteurs mobiles avec des éléments rotatifs avec évacuation sur la presque totalité de la périphérie de l'élément rotatif
Provided are a plate-material abutting device that easily adjusts a plurality of abutted positions between a plurality of pairs of abutted portions in plate materials, and a plate- material abutting method. The present invention is a plate- material abutting device 1 for joining a first plate material P1 and a second plate material P2 in a state of being abutted to each other. The first plate material P1 includes a first abutted portion Pll and a second abutted portion P12 that is a portion different from the first abutted portion P11. The second plate material P2 includes a third abutted portion P23 corresponding to the first abutted portion P11, and a fourth abutted portion P24 corresponding to the second abutted portion P12. The plate-material abutting device 1 includes a first abutting mechanism 11 for abutting the first abutted portion Pll and the third abutted portion P23 to each other, and a second abutting mechanism 12 that moves independently from the first abutting mechanism 11 and that is for abutting the second abutted portion P12 and the fourth abutted portion P24 to each other.
B23K 37/04 - Dispositifs ou procédés auxiliaires non spécialement adaptés à un procédé couvert par un seul des autres groupes principaux de la présente sous-classe pour maintenir ou mettre en position les pièces
B23K 26/10 - Dispositifs comportant un mouvement relatif entre le faisceau laser et la pièce avec un support fixe
Provided is a method for manufacturing an impeller composed of a frustum-shaped hub and a plurality of blades provided on a peripheral surface of the hub at predetermined intervals in a circumferential direction and inclined in one direction. The method for manufacturing the impeller comprises: an injection-molding step of injection-molding a molding article in which the blades are connected to the periphery of the hub via fragile connection parts so as to spread outward; a blade rotationally moving step of rotationally moving the blades to the peripheral surface of the hub about the connection parts; and a fixation step of fixing ends of the blades to the hub.
According to the present invention, a plurality of actual spots (P1 to P5, Pn) where normal directions (N1, N2) of welding surfaces (S1, S2) are parallel to each other and arranged successively, are set as a spot group (G1, G2, Gm). Then, when the actual spots (P1 to P5, Pn) included in the spot group (G1, G2, Gm) are collectively moved in the same direction by the same distance (V10, V11, V20, V30, Vn), a search is conducted of candidates for the directions and the distances (V10, V11, V20, V30, Vn) that cause the actual spots (P1 to P5, Pn) having been moved to approach welding points (Q1 to Q3, Qn). Further, optimum direction and distance (V10, V11, V20, V30, Vn) are selected from among the candidates for the directions and distances (V10, V11, V20, V30, Vn), and a plurality of teaching points corresponding to the plurality of actual spots (P1 to P5, Pn) included in the spot group (G1, G2, Gm) are corrected by using the selected direction and distance (V10, V11, V20, V30, Vn).
After selecting a robot for carrying out a welding operation at a given welding spot, the cross-section of a welding gun with which that robot is provided and the cross-section of a workpiece at the welding spot are compared. Furthermore, a determination is made as to whether or not welding is possible without the welding gun and the workpiece coming into contact. When it is determined to be impossible, a substitute robot for carrying out the welding of the welding spot is selected. With the present invention, the automatic selection of the robot for carrying out the welding operation for the welding spot becomes possible. Therefore, the number of steps for robot selection can be reduced.
A nozzle unit 22 is attached to a mounting portion 15 of a coating apparatus 10 through a support portion 21. The nozzle unit 22 can move along an arc-shaped guide portion 29 provided on the support portion 21. The guide portion 29 maintains a tip of a nozzle 31 at a center position of the arc shape and supports the nozzle unit 22 such that the nozzle unit 22 can move along the arc shape.
B05C 5/00 - Appareillages dans lesquels un liquide ou autre matériau fluide est projeté, versé ou répandu sur la surface de l'ouvrage
B05C 11/00 - APPAREILS POUR L'APPLICATION DE MATÉRIAUX FLUIDES AUX SURFACES, EN GÉNÉRAL - Parties constitutives, détails ou accessoires non prévus dans les groupes
A shock absorber (100) is formed such that a cylindrical mounting eye (4), the outside diameter of which at an end face (4f) side is smaller than that at a middle section (4b), is provided such that an outer circumferential surface (4e) thereof is joined, and reinforcement welding (6a) is provided on the end face (4f) side of the mounting eye (4), at a joining section (4a) of the mounting eye (4).
Disclosed is a device for assembling an automobile body. The device has a roof jig attached to a jig conveying robot to bring a roof of the automobile body into contact with an outer side panel. In some implementations, the device is configured to place the roof on the outer side panel so that a horizontal bent portion of each of right and left flange parts is brought into contact with a joining part which is bent in a horizontal direction at an upper inner side of the outer side panel. In some implementations, the device can enable each exterior member to be positioned with reference to an inner structure of the vehicle body with a simple configuration, thereby saving space in a manufacturing facility. This can avoid a burden of increasing a size of the manufacturing facility or establishing additional facilities.
B62D 65/00 - Tracé, fabrication, p.ex. assemblage, mesures pour faciliter le désassemblage, ou modification de la structure des véhicules à moteurs ou des remorques, non prévus ailleurs
B23P 21/00 - Machines pour l'assemblage de nombreuses pièces différentes destinées à composer des ensembles, avec ou sans usinage de ces pièces avant ou après leur assemblage, p.ex. à commande programmée
The mold apparatus (1) includes: the stationary mold (12) of the mold main body (2) that molds the main body part (81); the rotary core (20) that molds the undercut part (82) and mold releases by rotationally moving in a direction separating from the undercut part (82); and the restricting core (40) that restricts movement of the rotary core (20) by sandwiching between the stationary mold (12) and rotary core (20) during molding, and releases restriction of the rotary core (20) by moving in a direction exiting from between the stationary mold (12) and rotary core (20) during mold release of the rotary core (20) from the undercut part (82).
B29C 45/14 - Moulage par injection, c. à d. en forçant un volume déterminé de matière à mouler par une buse d'injection dans un moule fermé; Appareils à cet effet en incorporant des parties ou des couches préformées, p.ex. moulage par injection autour d'inserts ou sur des objets à recouvrir
82.
SHAPING DEVICE AND SHAPING METHOD FOR ROLLER ELECTRODE FOR SEAM WELDING
Provided is a shaping device for a roller electrode for seam welding that prepares shapes for a first roller electrode and a second roller electrode attached to an arm of a robot. This shaping device is provided independently from the robot and disposed within rotational range of the arm, and is provided with a first roller and a second roller that are disposed on a line orthogonal to a line joining the rotational centers of the first and second roller electrodes and are in contact with the outer circumferences of the first and second roller electrodes.
This cylinder device (100, 200) is provided with: a cylinder (1) from one end of which a piston rod (1a) extends; a cover member (7, 70) of cylindrical shape for protecting the piston rod (1a), having an expandable bellows portion (7a, 70a) and a small-diameter portion (7b, 70b) of inside diameter smaller than the inside diameter of the bellows portion (7a, 70a); and a cap member (6) fitted onto the cylinder (1), and furnished at the outer periphery with a protrusion (6a) that locks the small-diameter portion (7b, 70b) of the cover member (7, 70). A bulging portion (7d, 70d) that bulges diametrically outward is formed in the small-diameter portion (7b, 70b) of the cover member (7, 70).
F16F 9/38 - Couvercles de protection ou de présentation décorative
B60G 15/07 - Suspensions élastiques caractérisées par la disposition, l'emplacement ou le type de combinaison de ressorts et d'amortisseurs de vibrations, p.ex. du type télescopique ayant un ressort mécanique et un amortisseur à fluide l'amortisseur étant relié au porte-fusée et le ressort étant disposé autour de l'amortisseur
F16J 15/52 - Joints d'étanchéité entre organes mobiles l'un par rapport à l'autre, par étanchéité sans surfaces mobiles l'une par rapport à l'autre, p.ex. des garnitures étanches aux fluides pour transmettre un mouvement au travers d'une paroi par soufflets ou diaphragmes d'étanchéité
84.
JIG INFORMATION SETTING METHOD AND JIG INFORMATION SETTING DEVICE
On the basis of location information which signifies a clamp location of a jig with respect to a new workpiece, new workpiece cross-section information is recognized in the clamp location. Next, a search is carried out among existing workpiece cross-section information for information similar to the recognized new workpiece cross-section information. Next, jig information is selected which is linked to the found workpiece cross-section information. Next, the selected jig information and the location information are linked and set to new workpiece design information.
B23K 37/04 - Dispositifs ou procédés auxiliaires non spécialement adaptés à un procédé couvert par un seul des autres groupes principaux de la présente sous-classe pour maintenir ou mettre en position les pièces
85.
VEHICLE ROOF STRUCTURE AND METHOD FOR MANUFACTURING VEHICLE ROOF STRUCTURE
The vehicle roof structure is characterized by including: a closely facing section, and abuts or is adjacent to a side outer panel; a negative curved-surface section that is positioned more inwards in the vehicle width direction than the closely facing section of the roof panel, and has a recessed face that is indented downwards; and a mounting surface that is formed in the side outer panel at an inner side in the vehicle width direction to downwards of the vehicle towards, and at which the closely facing section abuts or is adjacent, in which an edge, on a side of the roof panel, of the brazing material that has solidified to join the roof panel and the side outer panel is positioned on the negative curved-surface section.
Provided is a cushion pin which applies sufficient supporting force to a blank holder of a press molding apparatus even if the number of cushion pins and an arrangement region are restricted. A cushion pin (1A) has a cylindrical main body section including a plurality of cylindrical members (2) and annular members (3). The cylindrical members (2) are arranged in series in an axial direction, and the annular members (3) are disposed between the adjacent cylindrical members (2). A rod member (4) and a coil spring (5) are disposed in each the spring chambers of the main body section. The rod member (4) includes a rod-shaped part (4b) and a flange part (4a). The rod-shaped part (4b) has a diameter allowing the rod-shaped part (4b) to slidably penetrate through an opening (3a) of the annular member (3). The coil spring (5) biases the flange part (4a).
This seam-welding device carries out seam welding while repeating one cycle comprising a melting period, an interruption period, and a heating period implemented either before or after the interruption period. A welding current is applied between a pair of roller electrodes so as to form a welded part between workpieces during the melting period, the application of the current between the roller electrode pair is interrupted so as to solidify the welded part during the interruption period, and a heating current smaller than the welding current is applied between the roller electrode pair so as to heat the laminated body within a solidification temperature range of the welded part during the heating period. Consequently, even when the welding speed is increased, formation of cracks and spatter is effectively suppressed such that a high-quality joined product is obtained.
A shock absorber is provided with a shock absorber body (110), a suspension spring (120), a spring seat (1), and a spring rubber seat (2), a seat surface (20) of the spring rubber seat (2) being formed at an incline so as rise toward a terminal end within a fixed range from the terminal end where a helical part of the suspension spring (120) ends to the side on which the helical part abuts, and a concavity (21) peripherally enclosed at the portion abutting on the spring seat being formed in the lower side of the fixed range in the lower part of the spring rubber seat.
F16F 9/32 - Ressorts, amortisseurs de vibrations, amortisseurs de chocs ou amortisseurs de mouvement de structure similaire, utilisant un fluide ou moyen équivalent comme agent d'amortissement - Parties constitutives
Provided is an electrostatic coating device that can suppress the arising of corrosion in insulating members and the like surrounding coating material supply and discharge paths because of leakage arising between the paths. An electrostatic coating device (1) is characterized by being provided with: a body part (10); a head part (20); a linking part (60) that links the body part (10) and the head part (20); a coating material path (300b) that is a first path disposed from the body part (10) to the head part (20), wherein a high-voltage is applied along with the coating material (first fluid) being fed; a washing fluid path (300c) that is a second path disposed from the body part (10) to the head part (20), wherein a washing fluid (second fluid) is fed along with a connection to a ground; and a displacement part (200) for displacing all or part of air retained between the coating material path (300b) and a washing fluid path (300c) with new air.
B05B 5/025 - Appareillages pour délivrer le matériau, p.ex. pistolets de pulvérisation électrostatique
B05B 5/04 - Appareillages pour délivrer le matériau, p.ex. pistolets de pulvérisation électrostatique caractérisés en ce qu'ils comportent une sortie rotative ou des éléments déflecteurs
A driving force distributing device having a few number of components and a simple configuration, whereby the flow rates of hydraulic fluid supplied to two hydraulic clutches are individually controlled. The driving force distributing device is provided with: a single pump (10) that supplies control hydraulic pressure to each of first and second hydraulic clutches (CL, CR); an electric motor (36) that drives the pump (10); a flow rate variable mechanism (40) that varies the ratio of the flow rates of hydraulic fluid supplied from the pump (10) to the first and second hydraulic clutches (CL, CR); and a control means (45) for controlling the electric motor (36) and the flow rate variable mechanism (40). The flow rates of hydraulic fluid supplied to the first and second hydraulic clutches (CL, CR) can be individually variably controlled on the basis of control for varying, using the flow rate variable mechanism (40), the ratio of the flow rates of hydraulic fluid supplied to the first and second hydraulic clutches (CL, CR), and control of the rotational speed of the pump (10) by the electric motor (36).
B60K 17/344 - Agencement ou montage des transmissions sur les véhicules pour entraînement simultané des roues avant et arrière, p.ex. véhicules à quatre roues motrices comportant une boîte de transfert
F16H 48/32 - Dispositions pour supprimer ou modifier l'action différentielle, p.ex. dispositifs de verrouillage utilisant des moyens actionnés de l'extérieur utilisant des actionneurs à pression de fluide
F16H 48/36 - Transmissions différentielles caractérisées par la génération intentionnelle d'une différence de vitesses entre les sorties
F04C 2/344 - Machines ou pompes à piston rotatif possédant les caractéristiques couvertes par au moins deux des groupes , , , ou par l'un de ces groupes en combinaison avec un autre type de mouvement entre les organes coopérants avec à la fois le mouvement défini dans l'un des groupes ou et un mouvement alternatif relatif entre les organes coopérants les organes obturateurs ayant un mouvement alternatif par rapport à l'organe interne
F04C 14/24 - Commande, surveillance ou dispositions de sécurité pour "machines" ou pompes ou installations de pompage caractérisées par l'utilisation des soupapes pour commander la pression ou le débit, p.ex. soupapes de décharge
F16H 48/22 - Dispositions pour supprimer ou modifier l'action différentielle, p.ex. dispositifs de verrouillage utilisant des embrayages ou des freins à friction
The rotary atomizing coating device (1) is provided with a spray head (2) formed of a tube body having a circular truncated conical shape and constituted so as to spray, from an opening end on the large diameter side, a coating introduced from an opening end on the small diameter side thereof, and a coating supply machine (3) engaged with the opening end on the small diameter side of the spray head (2) for supplying the coating to inside of the spray head (2) while rotating the spray head (2) around an axial line (O). The spray head (2) has a first coating diffusion part (28) constituted by a curved surface with a convex shape towards the axial line (O) on the inner peripheral surface and a second coating diffusion part (29) extending to an outer edge (26) of the opening end on the large diameter side of the tube body and constituted by a curved surface with a concave shape towards the axial line (O). The second coating diffusion part (29) has grooves (4) provided at the outer edge (26). With this constitution, both formation of the thin film coating and liquid threads can be achieved by the rotary atomizing coating device.
B05B 3/10 - Appareillages de pulvérisation ou d'arrosage avec des éléments de sortie mobiles ou des éléments déflecteurs mobiles avec des éléments rotatifs avec évacuation sur la presque totalité de la périphérie de l'élément rotatif
B05B 5/04 - Appareillages pour délivrer le matériau, p.ex. pistolets de pulvérisation électrostatique caractérisés en ce qu'ils comportent une sortie rotative ou des éléments déflecteurs
92.
VARIABLE SPEED CONTROL SYSTEMS AND METHODS FOR WALK-BEHIND WORKING MACHINES
Variable speed control systems and methods for walk-behind working machines, such as lawnmowers and similar powered machines, may include a control lever with a lever arm that is selectively pivotable with respect to a machine handle between a first angular position at which a grip portion of the control lever is spaced apart from the handle by a first angle and a second angular position at which the control lever is proximate to the handle to control the working machine to be in one of a range of operating states corresponding to the angular position of the control lever. A control lever adjustment system may be configured to selectively adjust the first angle to adjust a total possible angular travel of the control lever between the first angular position and the second angular position. In this way, an operator may set a range of operating states of the working machine.
A01D 34/00 - Faucheuses; Appareils de fauchage des moissonneuses
A01D 34/68 - Faucheuses; Appareils de fauchage des moissonneuses caractérisés par des particularités relatives au type d'appareil de coupe comportant des couteaux rotatifs comportant des couteaux tournant autour d'un axe vertical dirigés à la main par un opérateur à pied à couteaux ou à roues entraînés par un moteur
A01D 75/00 - Accessoires pour moissonneuses ou faucheuses
A rear wheel drive device (1) is provided with: first and second electric motors (2A, 2B); rear wheels (Wr) driven by the first and second electric motors (2A, 2B) to propel a vehicle (3); a wet multiplate hydraulic brake (60) provided in a power transmission path between the first and second electric motors (2A, 2B) and the rear wheels (Wr), the hydraulic brake (60) blocking or connecting the power transmission path by releasing or engaging; and a control device (8) for controlling the releasing and engaging of the hydraulic brake (60). The control device (8) functions as a timing means for acquiring a continuous engagement time, which is the elapsed time from the start of the most recent engagement of the hydraulic brake (60).
F16H 61/00 - Fonctions internes aux unités de commande pour changements de vitesse ou pour mécanismes d'inversion des transmissions transmettant un mouvement rotatif
B60K 6/44 - Agencement ou montage de plusieurs moteurs primaires différents pour une propulsion réciproque ou commune, p.ex. systèmes de propulsion hybrides comportant des moteurs électriques et des moteurs à combustion interne les moteurs primaires étant constitués de moteurs électriques et de moteurs à combustion interne, p.ex. des VEH caractérisés par l'architecture du véhicule électrique hybride du type série-parallèle
B60K 6/52 - Entraînement d'une pluralité d'essieux moteurs, p.ex. quatre roues motrices
A rear wheel driving system (1) includes a first and second motors (2A, 2B), rear wheels (Wr) which propel a wheeled vehicle (3), and a one-way clutch (50) which is provided on a power transmission path between the first and second motors (2A, 2B) and the rear wheels (Wr). The one-way clutch (50) includes inner race (51) and an outer race (52), which has the same rotational axis and rotates relatively, and sprags (53) which are interposed between the inner race (51) and the outer race (52). The rear wheel driving system (1) includes an eccentric acquiring unit for acquiring an eccentricity which is a deviation between a rotational axis (O') of the inner race 51 and a rotational axis (O) of the outer race (52).
B60L 15/20 - Procédés, circuits ou dispositifs pour commander la propulsion des véhicules à traction électrique, p.ex. commande de la vitesse des moteurs de traction en vue de réaliser des performances désirées; Adaptation sur les véhicules à traction électrique de l'installation de commande à distance à partir d'un endroit fixe, de différents endroits du véhicule ou de différents véhicules d'un même train pour la commande du véhicule ou de son moteur en vue de réaliser des performances désirées, p.ex. vitesse, couple, variation programmée de la vitesse
B60K 6/36 - Agencement ou montage de plusieurs moteurs primaires différents pour une propulsion réciproque ou commune, p.ex. systèmes de propulsion hybrides comportant des moteurs électriques et des moteurs à combustion interne les moteurs primaires étant constitués de moteurs électriques et de moteurs à combustion interne, p.ex. des VEH caractérisés par des appareils, des organes ou des moyens spécialement adaptés aux VEH caractérisés par les transmissions à engrenages
B60K 6/383 - Embrayages à roue libre ou dispositifs à roue libre
B60K 6/442 - Agencement ou montage de plusieurs moteurs primaires différents pour une propulsion réciproque ou commune, p.ex. systèmes de propulsion hybrides comportant des moteurs électriques et des moteurs à combustion interne les moteurs primaires étant constitués de moteurs électriques et de moteurs à combustion interne, p.ex. des VEH caractérisés par l'architecture du véhicule électrique hybride du type série-parallèle du type à commutation série-parallèle
B60K 6/52 - Entraînement d'une pluralité d'essieux moteurs, p.ex. quatre roues motrices
B60W 10/00 - Commande conjuguée de sous-ensembles de véhicule, de fonction ou de type différents
B60W 20/00 - Systèmes de commande spécialement adaptés aux véhicules hybrides
F16D 41/06 - Roues libres ou embrayages à roue libre avec organes d'accouplement intermédiaires d'arrêt entre une surface intérieure et une surface extérieure
The purpose of the present invention is to provide a vehicle drive system that can improve drive efficiency while maintaining vehicle stability. The drive state switching unit (64) comprises: a step (S3, S105) in which a switch is made from 2WD to AWD on the basis of a cumulative slip point; a step (S12, S303) in which a switch is made from 2WD to AWD on the basis of a calculated lateral G; a step (S13, S109, S111) in which a switch is made from AWD to 2WD after the step (S3 or S105) under a first switching condition; and a step (S13, S306, S308) in which a switch is made from AWD to 2WD after the step (S12 or S303) under a second switching condition. The first switching condition and the second switching condition are made to differ from one another.
B60W 10/00 - Commande conjuguée de sous-ensembles de véhicule, de fonction ou de type différents
B60K 6/44 - Agencement ou montage de plusieurs moteurs primaires différents pour une propulsion réciproque ou commune, p.ex. systèmes de propulsion hybrides comportant des moteurs électriques et des moteurs à combustion interne les moteurs primaires étant constitués de moteurs électriques et de moteurs à combustion interne, p.ex. des VEH caractérisés par l'architecture du véhicule électrique hybride du type série-parallèle
B60K 6/52 - Entraînement d'une pluralité d'essieux moteurs, p.ex. quatre roues motrices
B60K 17/356 - Agencement ou montage des transmissions sur les véhicules pour entraînement simultané des roues avant et arrière, p.ex. véhicules à quatre roues motrices comportant un moteur à fluide ou électrique pour entraîner une ou plusieurs roues
B60W 20/00 - Systèmes de commande spécialement adaptés aux véhicules hybrides
A slip determination system for a vehicle, which is capable of improving the determination accuracy by avoiding erroneous determination of excessive slip of wheels when a state of the wheels, driven/braked by motors, is switched. In the slip determination system according to the present invention, when first and second motor rotational speeds NMOT1 and NMOT2, which are rotational speeds of rear motors 41 and 61 which brake/drive rear wheels WRL and WRR, reach a reference rotational speed NMREF set based on wheel rotational speeds NWFL, NWFR, NWRL, and NWRR, it is determined that excessive slip has occurred in the rear wheels WRL and WRR (FIG. 9). When the sign of a target torque TROBJ of the rear motors 41 and 61 is inverted, the reference rotational speed NMREF is changed to a value more difficult to be reached by the first and second motor rotational speeds NMOT1 and NMOT2 (steps 28 and 29 in FIG. 8), or the excessive slip determination is inhibited (step 51 in FIG. 12).
B60W 40/10 - Calcul ou estimation des paramètres de fonctionnement pour les systèmes d'aide à la conduite de véhicules routiers qui ne sont pas liés à la commande d'un sous-ensemble particulier liés au mouvement du véhicule
B60K 6/44 - Agencement ou montage de plusieurs moteurs primaires différents pour une propulsion réciproque ou commune, p.ex. systèmes de propulsion hybrides comportant des moteurs électriques et des moteurs à combustion interne les moteurs primaires étant constitués de moteurs électriques et de moteurs à combustion interne, p.ex. des VEH caractérisés par l'architecture du véhicule électrique hybride du type série-parallèle
B60K 6/52 - Entraînement d'une pluralité d'essieux moteurs, p.ex. quatre roues motrices
B60K 6/547 - Transmission pour rapport variable la transmission étant un changement de vitesse à variation discontinue
B60L 3/00 - Dispositifs électriques de sécurité sur véhicules propulsés électriquement; Contrôle des paramètres de fonctionnement, p.ex. de la vitesse, de la décélération ou de la consommation d’énergie
B60L 15/20 - Procédés, circuits ou dispositifs pour commander la propulsion des véhicules à traction électrique, p.ex. commande de la vitesse des moteurs de traction en vue de réaliser des performances désirées; Adaptation sur les véhicules à traction électrique de l'installation de commande à distance à partir d'un endroit fixe, de différents endroits du véhicule ou de différents véhicules d'un même train pour la commande du véhicule ou de son moteur en vue de réaliser des performances désirées, p.ex. vitesse, couple, variation programmée de la vitesse
B60T 8/1761 - Régulation des freins spécialement adaptée pour la prévention du dérapage excessif des roues pendant la décélération, p.ex. ABS en fonction de la dynamique de la roue ou du frein, p.ex. du dérapage de la roue, de l'accélération de la roue ou du taux de variation de la pression du fluide de frein
H02P 5/50 - Dispositions spécialement adaptées à la régulation ou la commande de la vitesse ou du couple d’au moins deux moteurs électriques pour la régulation de vitesse de plusieurs moteurs dynamo-électriques en relation les uns avec les autres par comparaison de grandeurs électriques représentant les vitesses
In this vehicle (3), a first and second electric motor (2A, 2B) are supported at a vehicle (3) subframe (13) via brackets (81A, 81B) and support sections (82A, 82B). Of the front affixed sections (91A, 91B) and rear affixed sections (92A, 92B) affixed to the brackets (81A, 81B) and support sections (82A, 82B) of the first and second electric motor (2A, 2B), the rear affixed sections (92A, 92B), which are positioned toward the rear, are formed at positions that are higher in the vertical direction than the front affixed sections (91A, 91B), which are positioned toward the front. In the first and second electric motor (2A, 2B), a first and second connector (101A, 101B) are formed that affix a conductive cable (103A, 103B), which supplies electrical power, below an imaginary line (y) passing through the center of the rear affixed sections (92A, 92B) and the center of the front affixed sections (91A, 91B) in a lateral view.
A snow plow includes a control unit for controlling a raising/lowering drive mechanism so that an auger housing becomes horizontal, a relative angle detection unit for detecting the angle of the auger housing relative to a travel frame, and a horizontal detection unit for detecting the horizontal state of the auger housing. The control unit stops the raising/lowering drive mechanism when the control unit assess that either a first condition or a second condition is satisfied, the first condition being that the relative angle be zero and the second condition being that the auger housing be horizontal.
E01H 5/09 - Enlèvement de la neige ou de la glace des routes ou surfaces analogues; Aménagement de la pente ou de la rugosité de la neige ou de la glace par traction à bras et entraînement des éléments de détachage ou de transport, p.ex. de transport au moyen d'air comprimé le détachage étant essentiellement effectué par éléments entraînés les éléments étant rotatifs ou se déplaçant sur une trajectoire circulaire fermée, p.ex. fraises rotatives, roues excavatrices
A snow plow including a control unit for controlling the raising and lowering of an auger housing, a reset switch that can be operated by a worker, and a reset display light that illuminates in conjunction with the turning on of the reset switch. The control unit automatically raises and lowers the auger housing in accordance with the reverse and forward traveling of travel device, and automatically adjusts the auger housing to a horizontal position during forward travel of the travel device upon receiving an on signal from the reset switch. The control unit maintains the illuminated state of the illuminated reset display light according to the turning on of the reset switch, even when the travel device is traveling in reverse, and extinguishes the reset display light upon receiving a termination signal for terminating snow plowing work performed with an auger.
E01H 5/08 - Enlèvement de la neige ou de la glace des routes ou surfaces analogues; Aménagement de la pente ou de la rugosité de la neige ou de la glace par traction à bras et entraînement des éléments de détachage ou de transport, p.ex. de transport au moyen d'air comprimé le détachage étant essentiellement effectué par éléments entraînés
A snow plow includes a control unit for raising an auger housing to a predetermined upper limit angle when travel device is reversing, and an acceleration sensor for detecting acceleration produced in the auger housing. The control unit determines an angle of inclination of the auger housing on the basis of the acceleration. When the travel device starts moving forward after having temporarily moved in reverse, the control unit sets an intermediate lowering target angle of inclination, which is in the lowering path of the auger housing from the upper limit angle to a pre-reversing angle of inclination, in accordance with the forward acceleration; lowers the auger housing at a given lowering speed from the upper limit angle to the intermediate lowering target angle of inclination; and lowers the auger housing at a gradually decreasing lowering speed from the intermediate lowering target angle of inclination to the pre-reversing angle of inclination.
E01H 5/09 - Enlèvement de la neige ou de la glace des routes ou surfaces analogues; Aménagement de la pente ou de la rugosité de la neige ou de la glace par traction à bras et entraînement des éléments de détachage ou de transport, p.ex. de transport au moyen d'air comprimé le détachage étant essentiellement effectué par éléments entraînés les éléments étant rotatifs ou se déplaçant sur une trajectoire circulaire fermée, p.ex. fraises rotatives, roues excavatrices
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