[Problem] To provide a heat generator which has a simple structure and converts rotational energy into thermal energy. [Solution] A heat generator 1 having a built-in heat exchanger comprises: a sealed container 3 in which a first stator 2 is non-rotatably fixed; an oil 4 loaded in the sealed container 3; a pump 5 which is rotatably disposed in the sealed container 3 opposite to the first stator 2 and which forms a spiral flow passage 6 of the oil 4 between the first stator 2 and the pump 5; a motive power transmission shaft 7 that non-rotatably supports the pump 5 on the side of one end 7a and connects the other end 7b protruding from the sealed container 3 to a motive power source 8 of rotational motive power; bearing members 9a-9 c that rotatably support the motive power transmission shaft 7 to the sealed container 3; a heat exchanger 12 disposed in the sealed container 3; and an external pipe 13 that is connected to the heat exchanger 12 and that extends outside the sealed container 3.
F24V 40/00 - Production ou utilisation de la chaleur produite par le frottement interne de fluides en mouvement ou du frottement entre des fluides et des corps en mouvement
In a work assisting apparatus helping workers to lift heavy objects with hands, their work is assisted with a light-weight and simply configured winding device, contributing to cost and load reduction while refraining a belt as a support wire rope from hindering their normal working behavior, or another objects from being caught in or wound around the belt, the work assisting apparatus including: a fitting portion fitted on a torso, a wearing portion worn on an arm or a hand of a worker, a belt with one end portion combined to the wearing portion, and a winding device coupled to the fitting portion and winding another end side of the belt. The winding device includes a lock mechanism locking a draw-out position of the belt so as to restrict further drawing out when drawing the one end portion.
Provided is a floating-type brake disc that is equipped with an annular rotor and a hub disposed concentrically with a prescribed gap with respect to the inner side of the rotor, and that enables reduction in hub weight while achieving a strength adequate to withstand shearing force during braking. A rotor 1 and a hub 2 are joined at a plurality of joints 4 that are disposed at an equal interval in the circumferential direction. An annular attaching portion 22 to be fastened to a wheel We is provided at the center of the hub 2. The hub 2 has spoke portions 23 each comprising two curved beams 231, 231 which extend and branch out such that a circumferential gap therebetween gradually increases from the corresponding joint 4 toward the attaching portion 22 and which are curved at a prescribed curvature R in the circumferential direction. The spoke portions 23 are arranged at an equal interval in the circumferential direction.
A communication hole 21 is positioned upstream of a heat exchanger 14. A first flow path 30 has a branch path 31 that branches a flow of exhaust gas with the positioning of the communication hole 21. Upstream of the branch path 31, a narrow path 35 in which a flow path area narrows toward the branch path 31 is positioned. An area B2 of an opening 105 opened and closed by a valve 100 is larger than a minimum flow path area B1 in the narrow path 35. Behind the valve 100, a flow path area B3 at an arbitrary position in a third flow path 80 is equal to or larger than the area B2 of the opening 105 opened and closed by the valve 100 (B1 < B2 ≦ B3).
F01N 5/02 - Silencieux ou dispositifs d'échappement combinés ou associés à des dispositifs bénéficiant de l'énergie des gaz évacués les dispositifs utilisant la chaleur
F01N 13/08 - Autres aménagements ou adaptations des tubulures d'échappement
A double pipe includes an outer pipe in which an inner pipe is placed, and a spacer that maintains a clearance between the inner pipe and the outer pipe. At least a part of the spacer is press-fitted by an inner circumferential surface of the outer pipe and an outer circumferential surface of the inner pipe. More specifically, the outer pipe includes a diameter-reduced portion having undergone diameter reduction by plasticity processing. An inner circumferential surface of the diameter-reduced portion is present across the entire circumference other than the opening of the spacer, and presses an outer circumferential surface of the spacer inwardly in the radial direction.
A double pipe includes an outer pipe in which an inner pipe is placed, and a spacer that maintains a clearance between the inner pipe and the outer pipe. At least a part of the spacer is press-fitted by an inner circumferential surface of the outer pipe and an outer circumferential surface of the inner pipe. More specifically, the outer pipe includes a diameter-reduced portion having undergone diameter reduction by plasticity processing. An inner circumferential surface of the diameter-reduced portion is present across the entire circumference other than the opening of the spacer, and presses an outer circumferential surface of the spacer inwardly in the radial direction.
B21D 39/04 - Utilisation de procédés permettant d'assembler des objets ou des parties d'objets, p. ex. revêtement par des tôles, autrement que par placageDispositifs de mandrinage des tubes des tubes avec des tubesUtilisation de procédés permettant d'assembler des objets ou des parties d'objets, p. ex. revêtement par des tôles, autrement que par placageDispositifs de mandrinage des tubes des tubes avec des barres
F16L 7/00 - Support de tuyaux ou de câbles à l'intérieur d'autres tuyaux ou manchons, p. ex. pour permettre la pose ou le retrait de tuyaux ou de câbles sous des routes ou des voies ferrées sans devoir interrompre la circulation
F16L 9/18 - Tuyaux à double paroiTuyaux à canaux multiples ou assemblages de tuyaux
F28D 7/10 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant disposées l'une dans l'autre, p. ex. concentriquement
As a method for filling a silencer 1 with a sound absorbing material 6, in which the inside of a shell 2 is demarcated into a plurality of silencing chambers S1, S2 by means of a separator 3, and at least one silencing chamber S2 is filled with the sound absorbing material 6, a method is adopted in which: a hole 7 is formed in a location in the shell 2 corresponding to the silencing chamber 2 that is to be filled by the sound absorbing material 6; a filling nozzle 11 is inserted into the silencing chamber S2 from the hole 7; and after the sound absorbing material 6 has been injected from the filling nozzle 11 toward the silencing chamber S2 to fill the silencing chamber S2 with the sound absorbing material 6, the hole 7 opened in the shell 2 is sealed from the outside of the shell 2 by means of a hole sealing member 8. Here, an outer peripheral flange portion 8a of the hole sealing member 8, which comes into contact with an outer surface of the shell 2, is welded to the outer surface of the shell 2, thereby sealing the hole 7 by means of the hole sealing member 8. As a result, the silencer can be held stability, and the silencer can be filled with the sound absorbing material easily and with good workability, regardless of the shell shape and the structure inside the shell.
F01N 1/10 - Silencieux caractérisés par leur principe de fonctionnement réduisant l'énergie des gaz évacués par étranglement ou tourbillon en combinaison avec des matériaux absorbant le son
F01N 1/24 - Silencieux caractérisés par leur principe de fonctionnement par utilisation des matériaux absorbant le son
F01N 13/18 - Structure facilitant la fabrication, l'assemblage ou le démontage
8.
EXHAUST CATALYST DEVICE FOR INTERNAL COMBUSTION ENGINE
The present invention provides an exhaust catalyst device comprising a catalytic converter for exhaust gas purification and a tubular introduction part that guides exhaust gas discharged from an exhaust port of an internal combustion engine to an inlet end surface of the catalytic converter, wherein the introduction part (4) is configured as an inner/outer double-tube structure having an inner (41) and an outer (42), and the downstream side of the inner (41) constitutes a thermal-expansion-allowing section (41a) that is not in contact with a catalytic converter (2) or the outer (42). The inner (41) and the outer (42) are constituted of different metals, and the heat-resistant strength of the metal constituting the inner (41) is higher than the heat-resistant strength of the metal constituting the outer (42). Due to this configuration, an exhaust catalyst device for an internal combustion engine is provided, with which it is possible to guide the exhaust gas to the catalytic converter and purify the exhaust gas while absorbing the heat expansion of the introduction part to minimize damage to the introduction part and the occurrence of abnormal noises, even when the exhaust gas is extremely high in temperature.
F01N 3/00 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement
F01N 3/20 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les méthodes d'opérationCommande spécialement adaptés à la conversion catalytique
An exhaust device (10) has a heat exchanger (20) including first pipes (50) that discharge a low-temperature exhaust gas cooled by a cooling medium, a second pipe (60) that discharges high-temperature exhaust gas, and a merging section (40) including a merging space (70) where the low-temperature exhaust gas and the high-temperature exhaust gas merge. The merging space (70) is provided with a barrier part (80) that hinders the flow of the low-temperature exhaust gas and the flow of the high-temperature exhaust gas, and a mixing space (71) where the low-temperature exhaust gas and the high-temperature exhaust gas accumulated by the barrier part (80) mix together.
F02M 26/29 - Détails structurels des refroidisseurs, p. ex. tuyaux, plaques, nervures, isolant ou matériaux
F02M 26/50 - Aménagements ou procédés pour la prévention ou la réduction des dépôts, de la corrosion ou de l’usure causés par des impuretés
F28D 1/053 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes pour une seule des sources de potentiel calorifique, les deux sources étant en contact chacune avec un côté de la paroi de la canalisation, dans lesquels l'autre source de potentiel calorifique est une grande masse de fluide, p. ex. radiateurs domestiques ou de moteur de voiture avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec canalisations tubulaires les canalisations étant rectilignes
F28D 7/10 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant disposées l'une dans l'autre, p. ex. concentriquement
ABSTRACT OF THE DISCLOSUREAt least two spacers in an elongated shape is provided between an internal pipe and an external pipe along the center line of a double pipe. In the cross section of a bent portion as viewed in a direction along thecenter line of the double pipe, the first spacer is located inwardly relative to the center of the double pipe with reference to the radial direction of the bent portion. The second spacer is located outwardly relative to the center of the double pipe. When a straight line that passes through the1 0 center of the radius of the bent portion and through the center of thedouble pipe is taken as a reference line at least either one of the first spacer or the second spacer overlaps the reference line.Date Recue/Date Received 2020-09-30
F16L 7/00 - Support de tuyaux ou de câbles à l'intérieur d'autres tuyaux ou manchons, p. ex. pour permettre la pose ou le retrait de tuyaux ou de câbles sous des routes ou des voies ferrées sans devoir interrompre la circulation
F16L 9/18 - Tuyaux à double paroiTuyaux à canaux multiples ou assemblages de tuyaux
F28D 7/10 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant disposées l'une dans l'autre, p. ex. concentriquement
F28F 9/013 - Supports auxiliaires pour les éléments pour les tubes ou les assemblages de tubes
According to the present invention, a plurality of first heat exchange tubes (20) are disposed such that flat surfaces thereof face each other and form a main body (12). A second heat exchange tube (30) is adjacent to one surface (12a) of the main body (12). A core case (40) has a cover part (93) for covering the surface (12a) of the main body (12) and the second heat exchange tube (30). When seen from a direction along the flow of a first heat medium, at least a portion of the cover part (93) is formed along the surface (12a) of the main body (12) or an outer peripheral surface (33) of the second heat exchange tube (30).
F28D 7/16 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant espacées parallèlement
F28F 13/02 - Dispositions pour modifier le transfert de chaleur, p. ex. accroissement, diminution en influençant la couche limite
F02M 26/29 - Détails structurels des refroidisseurs, p. ex. tuyaux, plaques, nervures, isolant ou matériaux
A plurality of heat exchanger tubes (11–15) include at least one specific heat exchanger tube (13). The interior of the specific heat exchanger tube (13) is divided into flow paths (F1) that have a fin (90) and a flow path (F2) that carries out a smaller amount of heat exchange than the flow paths (F1) due to lacking a fin (90).
F28D 7/16 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant espacées parallèlement
F28F 1/32 - Éléments tubulaires ou leurs ensembles avec moyens pour augmenter la surface de transfert de chaleur, p. ex. avec des ailettes, avec des saillies, avec des évidements ces moyens étant uniquement à l'extérieur de l'élément tubulaire et s'étendant transversalement les moyens ayant des parties engageant d'autres éléments tubulaires
F28F 3/00 - Éléments en forme de plaques ou de laminésEnsembles d'éléments en forme de plaques ou de laminés
F28F 13/02 - Dispositions pour modifier le transfert de chaleur, p. ex. accroissement, diminution en influençant la couche limite
F02M 26/29 - Détails structurels des refroidisseurs, p. ex. tuyaux, plaques, nervures, isolant ou matériaux
In a power transmission device, a dynamic damper is provided in a power transmission path having at least one damper disposed therein, and has an inertial rotating body that can rotate relative to a transmission rotating member forming part of the power transmission path, and a dynamic damper spring that can provide connection between the transmission rotating member and the inertial rotating body. A preset load is applied to the dynamic damper spring in a non-transmitting state of the power transmission path. The dynamic damper spring is supported on either one of the transmission rotating member and the inertial rotating body so as to apply the preset load to the dynamic damper spring in the non-transmitting state, and a gap is set in a rotational direction in the non-transmitting state between the dynamic damper spring and an other one of the transmission rotating member and the inertial rotating body.
F16H 61/14 - Commande des embrayages de blocage du convertisseur de couple
F16F 15/123 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus utilisant des ressorts comme organes élastiques, p. ex. des ressorts métalliques des ressorts enroulés
F16F 15/121 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus utilisant des ressorts comme organes élastiques, p. ex. des ressorts métalliques
A torque converter includes first and second dampers disposed in a torque transmission path during lockup, and a dynamic damper attached to the torque transmission path between the first and second dampers. The dynamic damper includes an inertial rotating body having a weight member mounted on an outer peripheral part of an inertia plate sandwiched between a pair of retaining plates, and an elastic member provided between the inertia plate and the retaining plates. A claw part is provided on one of the retaining plates disposed on a side opposite to the clutch constituent member with respect to the inertia plate. The first damper spring is sandwiched between the claw part and the clutch constituent member, and an elongated hole is formed in the inertia plate, the elongated hole extending lengthwise in a peripheral direction of the inertia plate while the claw part is inserted through the elongated hole.
F16H 45/02 - Combinaisons de transmissions à fluide pour transmettre un mouvement de rotation avec des accouplements ou des embrayages avec embrayages mécaniques pour "court-circuiter" une transmission à fluide du type hydrocinétique
F16F 15/123 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus utilisant des ressorts comme organes élastiques, p. ex. des ressorts métalliques des ressorts enroulés
F16F 15/14 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des masses en oscillation libre tournant avec le système
A heat exchanger (20) has a heat-exchange tube (40) surrounded by a core case (30), and cools a first heat medium flowing inside the heat-exchange tube (40) by a second heat medium flowing inside the core cases (30) on the outer periphery of the heat-exchange tube (40). The heat-exchange tube (40) includes first and second heat-exchange tubes (41, 42) which are different types, and the amount of heat exchanged in the first heat-exchange tube (41) is set to be larger than the amount of heat exchanged in the second heat-exchange tube (42).
F28D 7/16 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant espacées parallèlement
F28D 7/10 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant disposées l'une dans l'autre, p. ex. concentriquement
F28F 1/02 - Éléments tubulaires de section transversale non circulaire
A torque converter is provided in which abutment claw portions provided integrally with one of a pair of retaining plates of a dynamic damper mechanism are inserted into a cutout part, a spring retaining member fixed to a clutch piston having the cutout part, wherein the cutout part is formed so that an inner end of the cutout part along a radial direction of an output shaft is positioned further outside than an inside end of a damper spring in the radial direction, and the abutment claw portion is formed so that part of the abutment claw portion overlaps an inertia plate in a projection onto a plane passing through the abutment claw portion and an axis of the output shaft. Such arrangement shortens the axial distance between the clutch piston and the dynamic damper mechanism while maintaining function of the spring retaining member in retaining the damper spring.
F16F 15/134 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus le système en rotation comprenant plusieurs masses giratoires utilisant comme organes élastiques des ressorts, p. ex. des ressorts métalliques des ressorts enroulés
F16H 45/02 - Combinaisons de transmissions à fluide pour transmettre un mouvement de rotation avec des accouplements ou des embrayages avec embrayages mécaniques pour "court-circuiter" une transmission à fluide du type hydrocinétique
F16F 15/123 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus utilisant des ressorts comme organes élastiques, p. ex. des ressorts métalliques des ressorts enroulés
17.
Catalytic converter and method for manufacturing casing
A catalytic converter includes: a tubular casing including at least a pair of holding tubular parts and a reduced diameter tubular part that integrally connects the holding tubular parts to each other; and a monolithic catalyst carrier accommodated in each of the holding tubular parts, the reduced diameter tubular part being obtained by press-forming a portion, between the holding tubular parts, of a casing material of a tubular shape that corresponds to that of the holding tubular parts. Flat parts are formed respectively in a plurality of places at intervals in a peripheral direction of the reduced diameter tubular part, a sensor being attached to at least one of the flat parts. Accordingly, a press load when press-forming the reduced diameter tubular part is suppressed from becoming large and unequal in the peripheral direction of the reduced diameter tubular part.
[Problem] To provide an exhaust heat recovery device that is compact in a height direction and that has minimal centroid deviation. [Solution] An exhaust heat recovery device (10) has a first flow channel (20), a second flow channel (30) extending so as to run along the first flow channel (20), a heat exchanger (31) that is provided to the second flow channel (30) and that moves heat from exhaust gas to cooling water, a pipe (50) which is connected to the heat exchanger (31) and through which the cooling water flows, and a thermoactuator (60) that is connected to the pipe (50) and that actuates according to the temperature of the cooling water. The thermoactuator (60) and the second flow channel (30) are, with respect to a height direction, disposed at heights where these components overlap the first flow channel (20), and are disposed so that the first flow channel (20) lies therebetween with a plan view as a reference.
F01N 5/02 - Silencieux ou dispositifs d'échappement combinés ou associés à des dispositifs bénéficiant de l'énergie des gaz évacués les dispositifs utilisant la chaleur
F01P 3/20 - Circuits de refroidissement non spécifiques d'une pièce particulière des moteurs ou "machines"
Provided is a torque converter in which first and second dampers are interposed in a torque transmission path during lock-up and a dynamic damper is attached to the torque transmission path between the first and second dampers, wherein a dynamic damper (49) comprises: an inertial rotating body (41) formed by attaching a weight member (62) to the outer periphery of an inertial plate (61) that is sandwiched between a pair of retaining plates (50, 51); and an elastic member (58) that is provided between the inertial plate and the retaining plates. A claw part (68) that holds a first damper spring (55) between itself and a clutch constituent member (43) is provided to the retaining plate (50) that is disposed on the side opposite the clutch constituent member relative to the inertial plate, and an elongated hole (69), which extends in the peripheral direction of the inertial plate and into which the claw part is inserted, is formed in the inertial plate. Due to this configuration, a sufficient inertial mass can be secured and the dynamic damper can be manufactured inexpensively, and the torque converter can be reduced in size in the axial direction.
F16H 45/02 - Combinaisons de transmissions à fluide pour transmettre un mouvement de rotation avec des accouplements ou des embrayages avec embrayages mécaniques pour "court-circuiter" une transmission à fluide du type hydrocinétique
F16F 15/134 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus le système en rotation comprenant plusieurs masses giratoires utilisant comme organes élastiques des ressorts, p. ex. des ressorts métalliques des ressorts enroulés
In a fluid transmission device in which a core is fixed to inner ends of a plurality of blades so as to form, together with a bowl-shaped shell and the blades, an impeller, the core including a plurality of latching holes with which a projecting piece projectingly provided at the inner end of the blade is latched and including a balance weight chip welded to the core, the balance weight chip includes a projecting piece-avoiding hole through which a portion, projecting from the latching hole, of the projecting piece extends, the balance weight chip being welded to the core with a whole of the balance weight chip in intimate contact with the core.
F16H 45/02 - Combinaisons de transmissions à fluide pour transmettre un mouvement de rotation avec des accouplements ou des embrayages avec embrayages mécaniques pour "court-circuiter" une transmission à fluide du type hydrocinétique
Provided is a torque converter wherein contact protrusions provided integrally to one of a pair of holding plates which constitute portions of a dynamic damper mechanism are inserted through the cutouts of a spring holding member affixed to a clutch piston. The cutouts (70) are formed such that the inner ends (70a) of the cutouts (70) extending in the radial direction of an output shaft (27) are located on the outside, in the radial direction, of the inner ends (49a) of damper springs (49). The contact protrusions (54b) are each formed such that a part of the contact protrusion (54b) overlaps an inertia plate (58) in a view projected on a plane passing through the contact protrusion (54b) and the axis of the output shaft (27). As a result, the axial distance between the clutch piston and the dynamic damper mechanism can be reduced while the damper spring holding function of the spring holding member is maintained.
F16H 45/02 - Combinaisons de transmissions à fluide pour transmettre un mouvement de rotation avec des accouplements ou des embrayages avec embrayages mécaniques pour "court-circuiter" une transmission à fluide du type hydrocinétique
F16F 15/134 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus le système en rotation comprenant plusieurs masses giratoires utilisant comme organes élastiques des ressorts, p. ex. des ressorts métalliques des ressorts enroulés
Provided is a method for producing brake discs in which burrs or fracture surface sections that occur in a sheet material punching step can be removed efficiently, that have an excellent appearance, and have an outer peripheral shape with repeatedly formed projections and recesses in which projections and recesses in the radial direction are repeated in the circumferential direction. This method includes: a punching step for punching brake discs having an outer peripheral shape that is a repeatedly formed projections and recesses from a sheet material by means of a press; and a chamfering step for rotating the brake disc while cutting a corner section of a side surface 15b and an outer peripheral surface 17 of the brake disc 1 positioned to the rear of the punching direction by means of rotary cutting tool 2 having an axis of rotation thereof inclined to an angle within the range of 45 degrees to 75 degrees with respect to said side surface to form a chamfered surface on the corner section over the entire periphery of the brake disc.
An exhaust gas purification device for which a mixer that mixes exhaust gas with a reducing agent supplied to the interior of an exhaust gas passage is arranged upstream from a catalytic converter in the direction in which the exhaust gas flows, wherein the mixer (14) is formed in the shape of a bottomed cup having a cylindrical portion (23) and an end plate portion (24) which has multiple slit-shaped openings (25) extending in the radial direction of the cylindrical portion, and the outer periphery of which is connected to one end part of the cylindrical portion. In addition, a cylindrical casing (17) forming the outer contour of the catalytic converter (13) is formed so as to fit together with one end part of the cylindrical portion inside the upstream end part of the casing, the other end part of the cylindrical portion and the downstream end part of a cylindrical member (21), the horizontal cross-sectional shape of which is formed in a circular shape so as to guide exhaust gas to the mixer, are fitted to each other, and the one end part and the other end part of the cylindrical portion are welded respectively to the upstream end part of the casing and the downstream end part of the cylindrical member, on the outside of the exhaust gas passage (19). Thus, it is easy to reduce the cost and maintain quality.
F01N 3/08 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs
F01N 3/24 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les aspects de structure de l'appareillage de conversion
F01N 13/08 - Autres aménagements ou adaptations des tubulures d'échappement
A damper with a torque limiter is provided in which a torque limiter is formed from an annular limiter housing formed on a mass ring, a friction plate frictionally engaging with the limiter housing a pressure-applying plate that frictionally engages with the friction plate and that is linked to the mass ring, and a limiter spring urging the pressure-applying plate toward the friction plate side, a spring holder is formed from a pair of first and second holder plates that oppose each other to define a damper housing and that are joined to each other by a rivet, and the friction plate is formed integrally with the second holder plate. Thus, a rivet providing a link between a pair of holder plates forming a spring holder does not carry the burden of torque transmission, enabling the diameter of the rivet to be smaller and thereby reducing weight and cost.
F16F 15/10 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même
F16F 15/139 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus le système en rotation comprenant plusieurs masses giratoires caractérisée par des organes amortisseurs de friction
F16D 7/02 - Accouplements à glissement, p. ex. glissant en cas de surcharge, pour absorber les chocs du type à friction
F16F 15/134 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus le système en rotation comprenant plusieurs masses giratoires utilisant comme organes élastiques des ressorts, p. ex. des ressorts métalliques des ressorts enroulés
F16D 3/12 - Accouplements extensibles, c.-à-d. avec moyens permettant le mouvement entre parties accouplées durant leur entraînement adaptés à des fonctions particulières spécialement adaptés à un emmagasinage de l'énergie pour absorber les chocs ou vibrations
F16D 3/14 - Accouplements extensibles, c.-à-d. avec moyens permettant le mouvement entre parties accouplées durant leur entraînement adaptés à des fonctions particulières combinés avec un accouplement à friction pour amortir les vibrations ou absorber les chocs
F16F 15/133 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus le système en rotation comprenant plusieurs masses giratoires utilisant comme organes élastiques des ressorts, p. ex. des ressorts métalliques
A heat exchanger includes a pair of end plates closing opposite ends of a cylindrical core case, and a plurality of heat exchange tubes each supported at opposite end portions by the end plates. The end plates have support holes, and opposite ends of the tubes are inserted into corresponding support holes in the end plates. Each of the tubes is formed by bending a plate material so that opposite side edge portions of the bent plate material are superimposed on each other, one of the superimposed side edge portions, located inward of the other of the superimposed side edge portions, forming an inner plate portion, the other of the superimposed side edge portions forming an outer plate portion, and then welding a weld bead through the thickness of one of the inner and outer plate portions to fuse to the other plate portion.
F28F 9/02 - Boîtes de distributionPlaques d'extrémité
F28D 7/16 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant espacées parallèlement
B23K 26/262 - Soudage de joints continus rectilignes de joints longitudinaux de tubes
F28D 21/00 - Appareils échangeurs de chaleur non couverts par l'un des groupes
B23P 15/26 - Fabrication d'objets déterminés par des opérations non couvertes par une seule autre sous-classe ou un groupe de la présente sous-classe d'échangeurs de chaleur
In a torque convertor including a pump impeller, a turbine runner and a stator, an outer regulation surface facing inwards in a radial direction is provided at a turbine shell on an inward side in the radial direction from a turbine blade, an inner regulation surface that approaches and faces the outer regulation surface from inside in the radial direction is provided at a stator hub, and at least one of the outer regulation surface and the inner regulation surface is formed into a ring shape. Accordingly, movement of the stator along the radial direction at a time of transportation is inhibited and it is made unnecessary to form flange portions at core rings of the pump impeller and the turbine runner.
F16H 41/24 - Transmissions rotatives à fluide du type hydrocinétique Parties constitutives
F16H 45/02 - Combinaisons de transmissions à fluide pour transmettre un mouvement de rotation avec des accouplements ou des embrayages avec embrayages mécaniques pour "court-circuiter" une transmission à fluide du type hydrocinétique
27.
HEAT-SHIELDING COVER OF EXHAUST SYSTEM PART AND METHOD OF PRODUCTION THEREOF
A heat-shielding cover operatively adapted for being installed adjacent to an exhaust system part (C) so as to cover the same; the heat-shielding cover including a fabric (10) provided with a prescribed shape and comprising inorganic fibers, and a mixture (11) that impregnates the fabric (10), with the mixture comprising an inorganic binder, inorganic filler particles and water. The mixture is dried so as to be rigid enough to maintain the shape of the fabric (10). The heat-shielding cover covers an exhaust system part, where the heat-shielding cover has a simple structure, is less likely to be, or is not, subject to warping in the place of installation due to thermal expansion and contraction of the heat-shielding cover, and moreover is less, or is not, susceptible to galvanic corrosion, even as a result of direct installation using an installation member.
A method for manufacturing a fluid power transmission includes a first step of assembling a blade/core provisional assembly having a plurality of blades movably linked to a core, involving aligning the plurality of blades on a blade alignment jig, laying the core over a group of blades while extending a projecting piece provided on each blade through a latching hole provided in the core, and bending an extremity part of the projecting piece thus preventing the projecting piece from coming out of the latching hole, a second step of setting the blade/core provisional assembly at a predetermined position on an inside face of the shell, and a third step of carrying out brazing between the projecting piece and the latching hole and between the blade and the shell. Such method provides a high quality impeller of a fluid power transmission by joining a shell, a blade, and a core.
B23P 15/04 - Fabrication d'objets déterminés par des opérations non couvertes par une seule autre sous-classe ou un groupe de la présente sous-classe d'aubes de turbine ou d'organes équivalents, en plusieurs pièces
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
B23K 101/00 - Objets fabriqués par brasage, soudage ou découpage
F16H 45/02 - Combinaisons de transmissions à fluide pour transmettre un mouvement de rotation avec des accouplements ou des embrayages avec embrayages mécaniques pour "court-circuiter" une transmission à fluide du type hydrocinétique
A heat exchange device includes a thermoactuator that controls a valve to open and close one or the other of two fluid passageways. The thermoactuator includes a temperature-sensitive portion arranged to slidably advance a rod that actuates the valve as the temperature sensed by the temperature-sensitive portion increases. A stopper is positioned to abut the rod to limit advancement of the rod to thereby limit the degree of opening of the valve.
F28F 27/00 - Commandes ou dispositifs de sécurité spécialement adaptés pour les appareils d'échange ou de transfert de chaleur
F01N 5/02 - Silencieux ou dispositifs d'échappement combinés ou associés à des dispositifs bénéficiant de l'énergie des gaz évacués les dispositifs utilisant la chaleur
G05D 23/02 - Commande de la température sans source d'énergie auxiliaire avec un élément sensible se dilatant et se contractant en réponse aux variations de température
A heat exchange device includes a thermoactuator usable over a long period of time is disclosed. The thermoactuator includes a case. In the case, there is formed a stopper providing an advancement limit of a rod to limit an opening degree of a valve of the thermoactuator.
F28F 27/02 - Commandes ou dispositifs de sécurité spécialement adaptés pour les appareils d'échange ou de transfert de chaleur pour commander la répartition des sources de potentiel calorifique entre des canaux différents
An exhaust muffler in which a plurality of expansion chambers including an expansion chamber where a downstream end of an inlet pipe opens are formed in a shell so that sequential flows of exhaust gas are formed, and an outlet pipe having an upstream end opening into the last expansion chamber in the exhaust gas flow sequence of the plurality of expansion chambers and a bottom end opening into the atmosphere is formed in a curve within the shell so that a substantially U-shaped curved part is provided in at least one location; wherein a sound-absorbing chamber (23) formed in the shell (12) adjacently with respect to the last expansion chamber (17) in the exhaust gas flow sequence is filled with a sound-absorbing material (24), and a plurality of punched holes (25) are provided in the portion of the outlet pipe (19) that faces the sound-absorbing chamber (23). It is thereby possible to obtain a compact configuration while improving durability and sound-absorption.
F01N 13/00 - Silencieux ou dispositifs d'échappement caractérisés par les aspects de structure
F01N 1/08 - Silencieux caractérisés par leur principe de fonctionnement réduisant l'énergie des gaz évacués par étranglement ou tourbillon
F01N 1/10 - Silencieux caractérisés par leur principe de fonctionnement réduisant l'énergie des gaz évacués par étranglement ou tourbillon en combinaison avec des matériaux absorbant le son
F01N 1/24 - Silencieux caractérisés par leur principe de fonctionnement par utilisation des matériaux absorbant le son
Provided is a damper with a torque limiter, wherein: a torque limiter (4) is configured by an annular limiter housing (12) formed on a mass ring (3), a friction plate (15) for engaging by friction with the limiter housing (12), a pressure plate (16) engaging by friction with the friction plate (15) to be coupled to the mass ring (3), and a limiter spring (17) for urging the pressure plate (16) toward the friction plate (15); and a spring holder (5) is configured by a pair of first and second holder plates (21, 22) that face each other so as to delineate a damper housing (24) and that are coupled to each other by a rivet (23); the second holder plate (22) and the friction plate (15) being formed in an integrated manner. Consequently, the rivet that couples the pair of holder plates together to configure the spring holder does not bear the load of torque transmission, and the diameter of the rivet can be made smaller and weight and costs can be reduced.
F16F 15/139 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus le système en rotation comprenant plusieurs masses giratoires caractérisée par des organes amortisseurs de friction
F16D 7/02 - Accouplements à glissement, p. ex. glissant en cas de surcharge, pour absorber les chocs du type à friction
F16F 15/134 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus le système en rotation comprenant plusieurs masses giratoires utilisant comme organes élastiques des ressorts, p. ex. des ressorts métalliques des ressorts enroulés
The method for manufacturing fluid power transmissions sequentially performs: a first process of assembling a provisional blade-core assembly (38) obtained from connecting multiple blades (2b) to a core (2c) so as to move freely by lining up the multiple blades (2b) on a blade alignment jig (J1) and superposing the core (2c) above the group of blades (2b) while loosely inserting protruding pieces (30) provided on each blade (2b) in engaging holes (31) provided on the core (2c) and then bending the tips of the protruding pieces (30) so as to keep the protruding pieces (30) from slipping out of the engaging holes (31); a second process of setting the provisional blade-core assembly (38) at a prescribed position on the inner surface of a shell (2s); and a third process of soldering the protruding pieces (30) to the engaging holes (31) and the blades (2b) to the shell (2S), respectively. As a result, ease of assembly is favorable and it is possible to bond the three parts, the shell, the blades and the core, without strain and obtain a high quality impeller for a fluid power transmission.
An exhaust gas purification device (10, 80, 140, 140A) comprising a purification member (20, 90, 150) that purifies exhaust gas, a mat (30, 70) wound on this purification member (20, 90, 150), and a cylindrical case (40, 100, 160, 160A) that houses this mat (30, 70) and the purification member (20, 90, 150). The distance between the inner circumferential surface of the case (40, 100, 160, 160A) and the outer circumferential surface of the purification member (20, 90, 150) differs according to the location on the purification member (20, 90, 150).
An exhaust silencing device is connected to an exhaust system of an engine. Two outlet pipes (11, 12) which respectively have openings (11o, 12o) open into a silencer body (1) at an upstream end and discharge exhaust gas in the silencer body (1) to the outside thereof are disposed in the silencer body (1) along the bottom surface thereof at approximately equal distances from the lowermost part of the bottom surface, the opening (11o) of one outlet pipe (11) is oriented further to the bottom surface side of the silencer body (1) compared with the opening (12o) of the other outlet pipe (12). Consequently, condensed water stored in the silencer body can be efficiently discharged to the outside so that the effect of reducing exhaust resistance by the use of the two outlet pipes for leading the exhaust gas that has flowed into the silencer body and has been silenced to the outside is not impaired.
From among first and second stators (40, 41) of a torque converter supported at a fastening portion by a one-way clutch corresponding to said stators, the number of second stator blades (46) of the second stator (41) at a downstream side of an oil flow is larger than the number of first stator blades (42) of the first stator (40) at an upstream side, and the maximum value (t2) of the blade thickness of the second stator blade (46) is smaller than the minimum value (t1) of the blade thickness of the first stator blade (42). A sufficient opening (β) is secured between the rear edge (42b) of the first stator blade (42) and the front edge (46a) of the second stator blade (46). According to the present invention, an oil flow delay at the opening (β) is prevented, and the oil flow is made efficient due to the large number of first stator blades so that both the capacity coefficient and the torque ratio of the torque converter may be improved.
An exhaust heat recovery apparatus includes a joining section extending from a downstream end portion of a second flow passage section to a first flow passage section. The joining section has a communication port formed proximate a valve shaft for directing an exhaust gas from the second flow passage section into a housing section. A valve includes a first valve body supported by the valve shaft for closing a downstream end portion of the first flow passage section, and a second valve body extending from the first valve body for closing the communication port. The first valve body and the second valve body are disposed circumferentially of the valve shaft. The second valve body has an arc-shape having a center provided by the valve shaft.
F01N 3/00 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement
F01N 3/02 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour refroidir ou pour enlever les constituants solides des gaz d'échappement
F01N 3/10 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement
F01N 3/20 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les méthodes d'opérationCommande spécialement adaptés à la conversion catalytique
F01N 5/02 - Silencieux ou dispositifs d'échappement combinés ou associés à des dispositifs bénéficiant de l'énergie des gaz évacués les dispositifs utilisant la chaleur
38.
Manufacturing method of impeller for fluid transmitting device
In a manufacturing method of an impeller for a fluid transmitting device, multiple guide grooves aligned in a peripheral direction to allow communication between adjacent ones of multiple positioning holes are provided in a concave inner surface of a core in advance; and in a step of melting a brazing material and causing the molten brazing material to penetrate into gaps between coupling pieces and positioning holes that are fitted to each other and further into gaps between the core and the blades, the molten brazing material is guided to the positioning holes through the multiple guide grooves. Accordingly, the step allows the molten brazing material to be efficiently guided to the gaps between the coupling pieces and positioning holes, thereby improving the yield of the brazing material and preventing an influence of a residual brazing material over the rotational balance of the impeller.
In a fluid transmitting device with a lock-up clutch, each second transmitting claw is formed of: a base portion having a long side arranged in a peripheral direction of a turbine impeller and a short side arranged axially of the turbine impeller; and a claw portion protruding from an intermediate portion of one of long-side portions of the base portion and being inserted between adjacent damper springs, and each short-side portion of the base portion is fixed to the turbine impeller through a weld. A long-side portion of the base portion not welded to the turbine impeller includes a cutout, facilitating bend of the long-side portion when transmitting torque through the second transmitting claw, at opposite sides of the claw portion. This improves engine output performance by relaxing stress concentration at spots where the second claws are welded to a turbine impeller without increasing the thicknesses of the claws.
F16H 45/02 - Combinaisons de transmissions à fluide pour transmettre un mouvement de rotation avec des accouplements ou des embrayages avec embrayages mécaniques pour "court-circuiter" une transmission à fluide du type hydrocinétique
F16F 15/123 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus utilisant des ressorts comme organes élastiques, p. ex. des ressorts métalliques des ressorts enroulés
An exhaust heat recovery device includes a multi-piece, chamber-shaped branching member with a draw-molded first chamber half having one inlet for introducing exhaust gas, and a draw-molded second chamber half having two outlets for discharging the exhaust gas. The draw-molded first and second chamber halves are integrally connected together to form a single chamber. A first flow channel extends from one of the two outlets of the branching member for circulating the exhaust gas. A heat exchanger is provided to the first flow channel for recovering potential heat of the exhaust gas. A second flow channel extends from the other one of the two outlets of the branching member for circulating the exhaust gas while bypassing the heat exchanger. A valve chamber houses a valve configured to open and close an outlet of the second flow channel.
F28F 27/02 - Commandes ou dispositifs de sécurité spécialement adaptés pour les appareils d'échange ou de transfert de chaleur pour commander la répartition des sources de potentiel calorifique entre des canaux différents
F28B 9/10 - Systèmes auxiliaires, aménagements ou dispositifs accessoires pour extraire, refroidir et enlever les gaz non condensables
F01N 5/02 - Silencieux ou dispositifs d'échappement combinés ou associés à des dispositifs bénéficiant de l'énergie des gaz évacués les dispositifs utilisant la chaleur
B08B 9/02 - Nettoyage de conduites ou de tubes ou de systèmes de conduites ou de tubes
F02B 47/08 - Mode de fonctionnement des moteurs comportant addition de substances non combustibles ou d'agents antidétonants à l'air comburant, au combustible ou au mélange d'air et de combustible les substances étant autres que l'eau ou la vapeur d'eau uniquement les substances comprenant les gaz d'échappement
F01N 13/08 - Autres aménagements ou adaptations des tubulures d'échappement
F01N 13/18 - Structure facilitant la fabrication, l'assemblage ou le démontage
F28B 1/02 - Condenseurs dans lesquels la vapeur d'eau ou autre vapeur est séparée de l'agent de refroidissement par des parois, p. ex. condenseur à surface utilisant l'eau ou un autre liquide comme agent de refroidissement
F28F 9/02 - Boîtes de distributionPlaques d'extrémité
An exhaust flow control valve includes: a valve plate hinged to a downstream exhaust pipe to be pivotable, inside the pipe, between a fully closed position where a short-cut hole is closed and a fully open position where the short-cut hole is opened, the valve plate having a tip end directed toward a downstream side of the downstream exhaust pipe when at the fully open position; a spring receiving member provided to the downstream exhaust pipe to traverse the short-cut hole; and a valve spring having one end portion fastened to a tip end portion, which is located on the downstream side of the downstream exhaust pipe with respect to the spring receiving member, of the valve plate, and having an opposite end side being slidably in pressure contact with the spring receiving member, thereby generating a repulsive force to bias the valve plate toward the fully closed position.
Provided is a process for producing a brake disk having an outer peripheral shape with radial projections and recesses formed repeatedly in the peripheral direction, the process having excellent productivity in that a curved face section can be formed uniformly along the entire perimeter of each outer peripheral edge of the disk body and in that no chamfering step is required for deburring. In the process, a disk body (1) having an outer peripheral shape with repeatedly formed projections and recesses is half-blanked from one surface of a sheet material (W) in the thickness direction thereof, and then, the disk body (1) is blanked from the other surface of the sheet material (W) in the thickness direction thereof. Thus, curved face sections (1b, 1d) created by rollover and contiguous to the respective sheared face sections (1a, 1c) on the outer peripheral surface of the disk body (1) are formed on the respective outer peripheral edges of both said one surface and said other surface, in the thickness direction, of the disk body (1) produced according to the aforementioned process. The inner diameter (R11) of the die (11) that is used in the half-blanking step is smaller than the outer diameter (R12) of the punch (12).
A heat exchange tube is constructed by forming, on a cylindrical tube peripheral wall, a plurality of projecting portions which project to an inside of the tube peripheral wall, and which are formed by pushing. The plurality of projecting portions are formed, respectively, into conical shapes across a tube axis, and are arranged along virtual spirals on the tube peripheral wall. Accordingly, it is possible to provide a heat exchange tube which facilitates formation of a plurality of projecting portions with the thickness hardly changed and without formation of protruded portions, and which is capable of contributing to enhancement of heat exchanging efficiency.
F28D 7/02 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant enroulées en hélice
F28F 1/10 - Éléments tubulaires ou leurs ensembles avec moyens pour augmenter la surface de transfert de chaleur, p. ex. avec des ailettes, avec des saillies, avec des évidements
F28F 1/42 - Éléments tubulaires ou leurs ensembles avec moyens pour augmenter la surface de transfert de chaleur, p. ex. avec des ailettes, avec des saillies, avec des évidements les moyens étant à la fois à l'extérieur et à l'intérieur de l'élément tubulaire
44.
Method and apparatus for compressing a mat in exhaust gas cleaning device
An apparatus compresses a mat against a cylindrical catalyst to provide an exhaust gas cleaning device having the catalyst and the mat wrapped around the catalyst. The apparatus has a base to which first and second rods are movably mounted, and first and second pressers connected to respective ones of the first and second rods. A first drive mechanism moves the first, but not the second, rods to bring the first pressers into contact with first peripheral surface portions of the mat so that second peripheral surface portions of the mat are formed into respective convex portions. A second drive mechanism moves the second rods to bring the second pressers into contact with the convex portions of the mat to compress the convex portions while the first pressers are maintained in pressure contact with the first peripheral surface portions of the mat.
A floating type brake disc, wherein transfer of heat from a rotor (1) to a hub (2) is suppressed as far as possible and the brake disc is lightweight. Pin housing sections (61, 62) are formed at circumferential positions on the outer periphery of the hub (2), and the pin housing sections (61, 62) house connecting pins (3) so as to surround the pins from three directions, that is, from radially inward, circumferentially one side, and radially outward of the brake disc. Tongue-shaped pin housing sections (63, 64) are formed at circumferential positions on the inner periphery of the rotor (1). The pin housing sections (63, 64) extend radially inward so as to close openings of the pin housing sections (61, 62) formed on the hub (2), and by this, the pin housing sections (63, 64) sandwich the connecting pins (3) between the pin housing sections (63, 64) and the pin housing sections (61, 62) formed on the hub (2).
A method for wrapping a mat (52) around a catalyst (57) used in an exhaust gas cleaning device and compressing the mat is disclosed. Odd-numbered first presser (15), third presser (24), and fifth presser (32) are caused to move forward in the manner of the arrow (3), and the mat is compressed. The mat is then completely compressed by causing even-numbered second presser (19), fourth presser (31), and sixth presser (33) to move forward.
b at the boundary region between the rotor portion 11 and the projections 13A. It is possible to suppress a local heat dissipation in regions of the rotor portion 11 in which the projections 13A are formed and thus to reduce irregularity of heat distribution in the rotor portion 11 during braking operations.
12 - Véhicules; appareils de locomotion par terre, par air ou par eau; parties de véhicules
Produits et services
Ropeways for cargo or freight handling; unloading tipplers
(for tilting railway freight cars); pusher cars for mining;
puller cars for mining; traction engine; non-electric prime
movers for land vehicles (not including their parts);
machine elements for land vehicles; parachutes; anti-theft
alarms for vehicles; wheelchairs; AC motors or DC motors for
land vehicles (not including their parts); vessels and their
parts and fittings; aircraft and their parts and fittings;
railway rolling stock and their parts and fittings;
automobiles and their parts and fittings; two-wheeled motor
vehicles, bicycles and their parts and fittings; baby
carriages (prams); rickshaws; sleighs and sleds;
wheelbarrows; carts; horse drawn carriages; bicycle trailers
(Riyakah); adhesive rubber patches for repairing tubes or
tires.
12 - Véhicules; appareils de locomotion par terre, par air ou par eau; parties de véhicules
Produits et services
Ropeways for cargo or freight handling; unloading tipplers
(for tilting railway freight cars); pusher cars for mining;
puller cars for mining; traction engine; non-electric prime
movers for land vehicles (not including their parts);
machine elements for land vehicles; parachutes; anti-theft
alarms for vehicles; wheelchairs; AC motors or DC motors for
land vehicles (not including their parts); vessels and their
parts and fittings; aircraft and their parts and fittings;
railway rolling stock and their parts and fittings;
automobiles and their parts and fittings; two-wheeled motor
vehicles, bicycles and their parts and fittings; baby
carriages (prams); rickshaws; sleighs and sleds;
wheelbarrows; carts; horse drawn carriages; bicycle trailers
(Riyakah); adhesive rubber patches for repairing tubes or
tires.
12 - Véhicules; appareils de locomotion par terre, par air ou par eau; parties de véhicules
Produits et services
Ropeways for cargo or freight handling; unloading tipplers
(for tilting railway freight cars); pusher cars for mining;
puller cars for mining; traction engine; non-electric prime
movers for land vehicles (not including their parts);
machine elements for land vehicles; parachutes; anti-theft
alarms for vehicles; wheelchairs; vessels and their parts
and fittings; aircraft and their parts and fittings; railway
rolling stock and their parts and fittings; automobiles and
their parts and fittings; two-wheeled motor vehicles,
bicycles and their parts and fittings; baby carriages
(prams); rickshaws; sleighs and sleds; wheelbarrows; carts;
horse drawn carriages; bicycle trailers (Riyakah); adhesive
rubber patches for repairing tubes or tires.
12 - Véhicules; appareils de locomotion par terre, par air ou par eau; parties de véhicules
Produits et services
[ Pusher cars for mining; puller cars for mining; ] non-electric prime movers for land vehicles not including their parts, namely, internal combustion engines[, gasoline engines, and diesel engines]; machine elements for land vehicles, namely, [ drive shafts, axles, spindles, axle and wheel bearings, shaft couplings or connectors, wheel bearings, ] power transmissions and gearings,[ shock absorbers, suspension springs, ] brakes, and clutches ; [ parachutes; anti-theft alarms for vehicles; wheelchairs; ] AC motors and DC motors for land vehicles; [ vessels and their structural parts; aircraft and their structural parts; railway rolling stock and their structural parts; ] automobiles and their structural parts; two-wheeled motor vehicles, bicycles and their structural parts [; baby carriages; rickshaws; sleighs; wheelbarrows; carts; horse drawn carriages; bicycle trailers; adhesive rubber patches for repairing tubes or tires ]
12 - Véhicules; appareils de locomotion par terre, par air ou par eau; parties de véhicules
Produits et services
[ Pusher cars for mining; puller cars for mining; ] non-electric prime movers for land vehicles not including their parts, namely, internal combustion engines[, gasoline engines, and diesel engines ]; machine elements for land vehicles, namely, [ drive shafts, axles, spindles, axle and wheel bearings, shaft couplings or connectors, wheel bearings, ] power transmissions and gearings [, shock absorbers, suspension springs, ], brakes, and clutches; [ parachutes; anti-theft alarms for vehicles; wheelchairs; ] AC motors and DC motors for land vehicles; [ vessels and their structural parts; aircraft and their structural parts; railway rolling stock and their structural parts; ] automobiles and their structural parts; two-wheeled motor vehicles, bicycles and their structural parts [; baby carriages; rickshaws; sleighs; wheelbarrows; carts; horse drawn carriages; bicycle trailers; adhesive rubber patches for repairing tubes or tires ]
12 - Véhicules; appareils de locomotion par terre, par air ou par eau; parties de véhicules
Produits et services
[ Pusher cars for mining; puller cars for mining; ] non-electric prime movers for land vehicles not including their parts, namely, internal combustion engines, [ gasoline engines, and diesel engines; machine elements for land vehicles, namely, drive shafts, axles, spindles, axle and wheel bearings, shaft couplings or connectors, wheel bearings, ] power transmissions and gearings; [ shock absorbers, suspension springs, ] brakes, and clutches; [ parachutes; anti-theft alarms for vehicles; wheelchairs; ] AC motors and DC motors for land vehicles; [ vessels and their structural parts; aircraft and their structural parts; railway rolling stock and their structural parts; ] automobiles and their structural parts; two-wheeled motor vehicles, bicycles and their structural parts [ ; baby carriages; rickshaws; sleighs; wheelbarrows; carts; horse drawn carriages; bicycle trailers; adhesive rubber patches for repairing tubes or tires ]
