TH50324A - Wire winding machines and winding methods for winding things of rotary electrical mechanical equipment. - Google Patents

Abstract

DC60 Winding machine for creating coils (20) on each magnetic pole (11a) of core parts (13), which are formed by joining a number of core sections (11), with each core section (11) having a section. The c (11c) and the magnetic tines (11a) are protruding to the inner surface (11d) of the yoke portion (11c), which at least comprises the axial part locator including the rotating roller (14). A wide diameter guide roller (21) and a narrow diameter guide roller (22), which will combine to make The duty is to bend the core part (13) and hold it in a position where the core part (11.3, 11.5) aligns with the core part (11.4) where the coil (20) is wound on it. It does not protrude in the direction of its magnetic spokes (11a) until past the boundary surface (S) of the yoke (11c) of the core (11.4) to which the coil (20) is wound on it. A winding machine for creating coils (20) on each magnetic pole (11a) of core parts (13), which are formed by combining a number of core sections (11), with each core section (11) having The yoke portion (11c) and the magnetic spokes (11a) are formed protruding to the inner surface (11d) of the yoke portion (11c), which at least comprises the axial part positioner including the rotating roller ( 14) A wide diameter guide roller (21) and a narrow diameter guide roller (22), which are combined to make The duty is to bend the core part (13) and hold it in a position where the core part (11.3, 11.5) aligns with the core part (11.4) where the coil (20) is wound on it. It does not protrude in the direction of its magnetic spokes (11a) until past the boundary surface (S) of the yoke (11c) of the core (11.4) to which the coil (20) is wound on it.

Claims (2)

1. Wire winding machine For creating a reduction coil on the iron core of a mechanical device Working with rotary power Where the iron core is constructed with the core pieces being formed by joining the A number of cores With each axis section having a yoke part And the spokes of the magnetic pole that are built from The inner surface of the yoke part. Each coil is built around the pole. And the core pieces will be It is created by joining the two ends of each yoke section by means of a connector. It serves as the point of bending where at least the winding machine consists of a wire feeder built to wind the coils on the magnetic spokes. When the wire output terminal of The wire feeder revolves around each magnetic pole and axis part positioner, which causes the rod parts to bend at the connector in such a way that the magnetic teeth are positioned on the outside or inside of the bent structure, and It holds the axial part in a position where the axial portion is aligned with each axis segment. That is under the winding of the wire being done Without the wire feeder, it does not protrude in the direction of its magnetic spokes. Until beyond the boundary surface Including the inner surface of the yoke of each axial section Which is under winding during winding 2. Winding machine as specified in Clause 1, where part locator The axis has a mechanism which moves the axial components in a way that Each axis segment is sequentially fed into the area. The work of the wire feeder 3. Winding machine, as specified in Clause 1, where the parts are located. The axis is equipped with a rotating device. It can bend at least three consecutive axes along the peripheral surface and lock it in position in such a way that its magnetic teeth are retracted to their outer position. 4. Winding machine as specified in Clause 1, where the positioner The core parts will include A number of chucks that can bend a certain number of axes. Which was organized periodically As defined throughout the core part And the part of the axes that are adjacent to those axes And locking it in position in such a way that its magnetic tines are positioned on the outside of the bent structure and the attachment, which bends and holds multiple axial segments, where the axes are located between the axial segments. Locked by chuck in such a way that the magnetic tines are positioned on the inside of the bent structure. Where the windings are built around the core part that is locked by the chuck 5. Winding machine as described in Clause 1 where the wire feeder will have a file. Which guides the wire in such a way that the direction in which each wire is released Is related to the radial direction of the teeth Relative magnetic poles At the destination, the corresponding wire is issued. 6. How to wind the wire. To form coils on the iron core of the working mechanical equipment With a rotary electric Where the iron core will be built with core parts It is created by combining a number of axes, each of which has a yoke portion. And the spokes of the magnetic pole Which will be built in a protruding form on The inner surface of the yoke part. Each coil is built around the pole. And the core pieces will be It is created by joining the two ends of each yoke section by means of a connector. Which serves as the point of bending where the winding method at least consists of steps of Bending axial parts in such a way that the magnetic tines are positioned outside or The inside of the bent structure and the construction of the coils on one axis part While holding the axes in position on the aligned axes With one part, the axis does not protrude in the direction of its magnetic spokes Until beyond the boundary surface Including the inner surface of the yoke part of one of the axes part 7. Winding machine to form a coil on the iron core of a mechanical device. Working with rotary power Where the iron core is made up of core parts which are made by joining parts A number of cores Each axis section has a yoke section. And the spokes of the magnetic pole, which are built protruding on the surface Inside of the yoke part Each coil is built around a magnetic pole. And the core parts were built by combining the ends Both of each yoke part By means of a connector that serves as the point of bending, the winding machine consists of a wire feeder built to wind the coils on the magnetic spokes. When the wire output terminal of The wire feeder rotates around each magnetic pole and axis part positioner, which makes the bending rod parts at the connector in such a way The magnetic tines are positioned on the outside of the bent structure. And hold the axis piece in the position that The axes that are aligned with each axis section. Which is under the winding being operated by the wire feeder will not Extending in the direction of its magnetic spokes beyond its boundary surface, including the inner surface of the yoke portion of each core section which is under the winding during winding; 8. Specified in Clause 7, where the position Axial components have a mechanism which moves the axial parts in such a way that each axis part is fed sequentially in Wire feeder operating area 9. Winding machine as specified in Clause 7 where the positioner Axis parts will have a rotating device. Which can bend at least three consecutive axes along the outer edge surface. And lock it in position so that its magnetic spokes are positioned on the side Outside of the bent structure 1 0. Winding machine as specified in Clause 7, where the positioner The core parts will include A number of chucks that can periodically bend a specified number of axes. As defined throughout the core part And the parts of the axes that are closest to those axes And lock it in position in The manner in which its magnetic tines are positioned on the outside of the bent structure and the attachment, which bends and holds multiple segments, the axes that are positioned between the axes locked by the chuck in such a way that the magnetic tines are Determine the position on the inside of the bent structure. Where the windings are built around the core part locked by chuck 1. 1. Wire winding machine as described in Clause 7 where the wire feeder has a file which guides the wire in such a way that the direction in which each wire is released is related to the direction in The radial direction of the magnetic spokes is always relative at the destination, leaving its corresponding wire 1. 2.How to wind the wire To create a coil on the iron core of a mechanical device Working with rotary power Where the iron core is made with core parts Which was created by joining A number of cores Each axis section has a yoke section. And the spokes of the magnetic pole Which are built protruding on the surface Inside of the yoke part Each coil is built around a magnetic pole. And the core parts are created by combining Both ends of each yoke part By means of the connector that serves as the point of bending, the winding method consists of steps of Bending axial parts in such a way that the magnetic tines are positioned on the outside of the Bend structures and coils construction on one core section In such a way that the axes are held in position on the aligned axis With one part, the axis does not protrude in the direction of its magnetic spokes beyond its boundary surface, including The inner surface of the yoke part of one axis section.