Abstract: A stator configured with an annular stator core, and a plurality of coils mounted on the stator core. The bus bar portion being connected to the terminal portion of a different one of the coils of the same phase. The coil is a multi-layer coil that is formed by winding the conductor in a plurality of layers in an inside-outside direction of loops in the winding portion, and that includes on inner and outer peripheral sides of a coil end portion of the coil a plurality of lane change portions formed by the conductor. The bus bar portion is embedded in a clearance between the lane change portions of the coil of a different phase placed between the coils of the same phase which are connected to each other.

Abstract: A polarized light irradiating method includes a first movement step and a second movement step. The first movement step includes a step (a) of moving a first stage from a first position to the irradiation area and irradiating a polarized light onto a first substrate mounted on the first stage, and a step (b) of returning the first stage to the first position from the irradiation area. The second movement step includes a step (c) of moving a second stage from a second position to the irradiation area and irradiating the polarized light onto a second substrate mounted on the second stage, and a step (d) of returning the second stage to the second position from the irradiation area. The step (c) follows after beginning of the step (b). The step (a) follows after beginning of the step (d).

Abstract: A stator that includes an annular stator core having a plurality of slots and a plurality of coils attached to the stator core, the plurality of coils each including a main body that is inserted in the plurality of slots and includes two slot housed portions and coil end portions including oblique portions extending obliquely with respect to the axial direction, a radially first side end portion formed from one of the slot housed portions, and a radially second side end portion formed from the other one of the slot housed portions.

Abstract: A stator manufacturing method in which a coil including a plurality of coil units formed by winding a rectangular wire is fitted in a cylindrical core having a plurality of slots extending in a radial direction and opening in a core inner peripheral surface so that the slots are distributed in a circumferential direction, the rectangular wire being a linear conductor having a rectangular section.

Abstract: A stator assembling method where each of the plurality of the concentrically wound coils has vertexes oriented outward in a axial direction in the planned coil end portions, and a distance in the axial direction between the vertexes of the planned coil end portions on both sides in the axial direction of each of the plurality of concentrically wound coils is gradually reduced toward the conductive wire mounted on the inner diameter side of the stator core from the conductive wire mounted on the outer diameter side of the stator core.

Abstract: A stator assembly method in which coils that have slot housed portions and coil ends formed from a conductive wire are mounted to an annular stator core that has a plurality of teeth that extend from a back yoke toward an inner side in a radial direction and slots formed between two of the teeth.

Abstract: A stator manufacturing method that includes a lead wire bending process of inserting a plurality of concentrically wound coils into slots, each of the concentrically wound coils being formed by winding a flat conductive wire for a plurality of turns, each of the slots being formed between every two adjacent teeth extending radially inward from an annular back yoke of a stator core, and bending lead wire portions of the inserted concentrically wound coils projecting in an axial direction from an end surface of the stator core, and a second bending process of bending the lead wire portions using the connection parts as fulcrums so that the lead wire portions approach the end surface of the stator core along the circumferential direction of the stator core after the first bending process.

Abstract: A stator assembly method and stator assembly apparatus in which coils that have slot housed portions and coil ends formed from a conductor are mounted to an annular stator core that includes slots formed between adjacent teeth that extend from a back yoke toward an inner side in a radial direction.

Abstract: A combustor is provided with a combustion liner (12) in which a combustion gas flows through the inner peripheral side and a plurality of through-holes (14) are formed, and a sound attenuator (20) having a space-forming member (21) configured to form a space (S) connected to the plurality of through-holes (14) at the outer peripheral side of the combustion liner (12). A method of repairing a combustor involves executing: an opening step of opening a portion of the space-forming member (21) in contact with the outside and bringing the outside and the space (S) in communication with each other; a cylinder repair step of repairing the combustion liner (12); a foreign substance removal step of removing foreign substances in the space (S) from the opening (23) opened in the opening step to the outside, after the cylinder repair step; and a closing step of closing the opening (23) using a lid (24), after the foreign substance removal step.

Abstract: An apparatus capable of performing a photo alignment process on a plate-shaped member and realizing high productivity is provided. An irradiating unit irradiates an irradiated area with polarized light, and a stage movement mechanism transports first and second stages on which substrates are mounted alternately to the irradiated area and returns the same. A space larger than a length by which the substrate on the second stage passes through the irradiated area is secured between the first stage positioned at a first substrate mounting-and-collecting position and the irradiated area, and a space larger than a length by which the substrate on the first stage passes through the irradiated area is secured between the second stage positioned at a second substrate mounting-and-collecting position and the irradiated area.

Abstract: A top-blowing lance includes a refining oxygen gas blowing nozzle having a plurality of ejection openings through which oxygen gas is blown into an iron bath in a reaction vessel, the ejection openings being disposed along a circular orbit at intervals, and a burner nozzle having an axis coaxial with the central axis of the circular orbit, forming a flame inside the refining oxygen gas blowing nozzle, and having ejection openings for blowing a powder heated by the flame into the iron bath, wherein an indicator A that indicates the positional relationship between the ejection openings of the refining oxygen gas blowing nozzle and the ejection openings of the burner nozzle satisfies the specified conditions.

Abstract: An irradiating method includes a first mounting step of mounting a substrate onto a first stage at a first position and a second mounting step of mounting a substrate onto a second stage at a second position, a first movement step of moving the first stage to the irradiation area for irradiating polarized light onto the substrate and returning the first stage to the first position, a second movement step of moving the second stage to the irradiation area and returning the second stage to the second position, a first collecting step of collecting the substrate and a second collecting step of collecting the substrate. A time zone of the first collecting step and first mounting step and a time zone of the second movement step overlap. A time zone of the second collecting step and second mounting step and a time zone of the first movement step overlap.

Abstract: A polarized light irradiating method includes a first movement step and a second movement step. The first movement step includes a step (a) of moving a first stage from a first position to the irradiation area and irradiating a polarized light onto a first substrate mounted on the first stage, and a step (b) of returning the first stage to the first position from the irradiation area. The second movement step includes a step (c) of moving a second stage from a second position to the irradiation area and irradiating the polarized light onto a second substrate mounted on the second stage, and a step (d) of returning the second stage to the second position from the irradiation area. The step (c) follows after beginning of the step (b). The step (a) follows after beginning of the step (d).

Abstract: A variable intake air device forms a long port and a short port in each of branches of an intake air manifold. The variable intake air device switches between the long port and the short port. A gas introduction device draws gas into each of the branches. When the engine is in a high load region, the variable intake air device uses the long port, when an engine rotation speed is less than a predetermined rotation speed, and uses the short port, when the engine rotation speed is greater than or equal to the predetermined rotation speed. When the engine is in a low load region, the variable intake air device switches between the long port and the short port according to the engine rotation speed.

Abstract: An apparatus capable of performing a photo alignment process on a plate-shaped member and realizing high productivity is provided. An irradiating unit irradiates an irradiated area with polarized light, and a stage movement mechanism transports first and second stages on which substrates are mounted alternately to the irradiated area and returns the same. A space larger than a length by which the substrate on the second stage passes through the irradiated area is secured between the first stage positioned at a first substrate mounting-and-collecting position and the irradiated area, and a space larger than a length by which the substrate on the first stage passes through the irradiated area is secured between the second stage positioned at a second substrate mounting-and-collecting position and the irradiated area.

Abstract: A method of manufacturing a stator for a rotary electric machine by disposing coils in a plurality of phases on a plurality of teeth of a stator core, one coil on one tooth, wherein in sequentially disposing the coils in the plurality of phases on the teeth, one coil on one tooth, toward one side in the circumferential direction of the stator core, the one end portion of each of the coils in each phase is inserted from the one side in the axial direction of the stator core, or from a direction that is orthogonal to the axial direction of the stator core, to be disposed between the one end portion and the other end portion of the immediately preceding coil in a separate phase disposed on the tooth so as to be aligned with the other end portion of the coil in the same phase.

Abstract: A manufacturing method of a stator for manufacturing a stator by mounting a concentrated winding coil wound with a square wire conductor on each of a plurality of teeth in a stator core and welding end of the concentrated winding coil to corresponding end of another concentrated winding coil, characterized in that a first set of concentrated winding coils and a second set of concentrated winding coils are mounted on the teeth, and the welding of each end in the first set of concentrated winding coils and corresponding end in the second set of concentrated winding coils is started while a third set of concentrated winding coils is mounted on the teeth.

Abstract: An apparatus capable of performing a photo alignment process on a plate-shaped member and realizing high productivity is provided. An irradiating unit irradiates an irradiated area with polarized light, and a stage movement mechanism transports first and second stages on which substrates are mounted alternately to the irradiated area and returns the same. A space larger than a length by which the substrate on the second stage passes through the irradiated area is secured between the first stage positioned at a first substrate mounting-and-collecting position and the irradiated area, and a space larger than a length by which the substrate on the first stage passes through the irradiated area is secured between the second stage positioned at a second substrate mounting-and-collecting position and the irradiated area.

Abstract: A variable intake air device forms a long port and a short port in each of branches of an intake air manifold. The variable intake air device switches between the long port and the short port. A gas introduction device draws gas into each of the branches. When the engine is in a high load region, the variable intake air device uses the long port, when an engine rotation speed is less than a predetermined rotation speed, and uses the short port, when the engine rotation speed is greater than or equal to the predetermined rotation speed. When the engine is in a low load region, the variable intake air device switches between the long port and the short port according to the engine rotation speed.

Abstract: An intake manifold is equipped with a sub-stream passage connected to branch passages through respective connection ports to introduce intake-air substream other than intake-air mainstream to the plural branch passages. Two of the branch passages which communicate with each other through the sub-stream passage and successively introduce intake air to the internal combustion engine are defined as a first combination. Of the first combinations, a second combination is defined to have a shortest communication length via the sub-stream passage. Of the second combination, the connection port of one of the branch passages where the intake air is introduced later is narrower than that of the other of the branch passages where the intake air is introduced earlier.