A method of manufacturing a winding-type coil component which can efficiently manufacture a winding-type coil component having external electrodes where a height of the external electrodes is gradually increased in an inclined manner from opposedly facing surfaces of one flange portion and the other flange portion to surfaces of the one flange portion and the other flange portion on a side opposite to the opposedly facing surfaces.

A coil block manufacturing method of winding a wire around a coil core in which a core portion is provided between a first attachment portion and a second attachment portion, includes: a first step of fixing one end of the wire; a second step of, in a state of holding the first attachment portion of the coil core by a first chuck to expose the whole core portion, winding the wire around an end of the core portion; and a third step of, in a state of holding the second attachment portion of the coil core by a second chuck to expose the whole core portion, winding the wire around the whole core portion, to form a coil portion.

A winding machine includes a winding core around which a winding is wound, a first winding jig and a second winding jig positioned with the winding core interposed therebetween in an axial direction of a central axis of the winding core, and a first gripper and a second gripper that are located on an outer side of the winding core in a radial direction around the central axis. An outer edge portion of the first winding jig in the radial direction and an outer edge portion of the second winding jig in the radial direction are located on an outer side, in the radial direction, from the winding core. Each of the first gripper and the second gripper includes a pair of rollers to interpose and grip the winding. At least one of the first gripper or the second gripper is rotatable about the central axis.

A winding machine includes a winding core around which a winding is wound, a first winding jig and a second winding jig positioned with the winding core interposed therebetween in an axial direction of a central axis of the winding core, and a first gripper and a second gripper that are located on an outer side of the winding core in a radial direction around the central axis. An outer edge portion of the first winding jig in the radial direction and an outer edge portion of the second winding jig in the radial direction are located on an outer side, in the radial direction, from the winding core. Each of the first gripper and the second gripper includes a pair of rollers to interpose and grip the winding. At least one of the first gripper or the second gripper is rotatable about the central axis.

A method and an automatic machine to manufacture one or more coils around respective articles. The following steps are provided: moving, by means of a main conveyor and along a processing path, a plurality of carriages, each provided with at least one seat designed to house an article; placing, in an input station arranged along the processing path, each article in the seat of a corresponding carriage; coupling, in at least one of two winding stations arranged one after the other along the path, a wire around an article carried by a carriage to create a corresponding coil; using, when they are both working, the two winding stations together and in parallel, having each winding station operate at a first production speed; and using, when a winding station is not working, only the other winding station, operates at a second production speed, higher than the first production speed.

A method and an automatic machine to manufacture one or more coils around respective articles. The following steps are provided: moving, by means of a main conveyor and along a processing path, a plurality of carriages, each provided with at least one seat designed to house an article; placing, in an input station arranged along the processing path, each article in the seat of a corresponding carriage; coupling, in at least one of two winding stations arranged one after the other along the path, a wire around an article carried by a carriage to create a corresponding coil; using, when they are both working, the two winding stations together and in parallel, having each winding station operate at a first production speed; and using, when a winding station is not working, only the other winding station, operates at a second production speed, higher than the first production speed.

Method and machine to manufacture a coil around a component of an article includes a main conveyor that moves along a working path and a carriage with a seat to house the component. Along the working path, the component is arranged in the seat of the carriage in an input station, and at a winding station, a wire having a diameter less than 500 m is directly wound around the component for a winding time ranging from 50% to 70% of the total work cycle, to obtain the coil with a number of turns less than 50. A work cycle lasts from an initial instant, in which the carriage carrying the component without the coil reaches the winding station, to a final instant, in which the carriage carrying the component with the coil leaves the winding station.

Method and machine to manufacture a coil around a component of an article includes a main conveyor that moves along a working path and a carriage with a seat to house the component. Along the working path, the component is arranged in the seat of the carriage in an input station, and at a winding station, a wire having a diameter less than 500 m is directly wound around the component for a winding time ranging from 50% to 70% of the total work cycle, to obtain the coil with a number of turns less than 50. A work cycle lasts from an initial instant, in which the carriage carrying the component without the coil reaches the winding station, to a final instant, in which the carriage carrying the component with the coil leaves the winding station.