JP2012033716A5 - - Google Patents

Description

Winding surface plate, installed on the winding surface plate, detachable on the inner diameter side of the winding frame on the winding surface plate, with a predetermined height and a cross section parallel to the winding surface plate in an arc shape And a tension piece having a predetermined height and a pressing jig for pressing the conductor on the inner diameter side of the winding frame. When winding the conductor, the tension piece is positioned so that the conductor length when the conductor is along the outer periphery of the reel and the conductor length when the conductor is along the outer periphery of the reel and the tension piece are equal. Installed.

As described above, according to the bending electromagnetic coil winding device 50 of the first embodiment, the winding surface plate 1 and the winding surface plate 1 are installed on the winding surface plate 1 and have a predetermined height. A winding frame 2 having a parallel cross section in an arc shape, a tension piece 3 having a predetermined height and detachably installed on the inner diameter side of the winding frame 2 on the winding surface plate 1, and a conductor on the inner diameter side of the winding frame 2 And a pressing jig 9 for pressing the conductor 4, and when winding the conductor 4, the tension piece 3 has a conductor length when the conductor 4 is placed along the outer periphery of the winding frame 2, and the conductor 4 with the winding frame 2 and Since it is installed at a position where the conductor lengths are equal when extending along the outer peripheral side of the tension piece 3, a layered frame in which layers are formed in the vertical direction of the winding surface plate 1 on the outer peripheral side of the winding frame 2 and the tension piece 3 The body 31 can be formed, the number of press moldings can be reduced, and the manufacturing time of the deflection electromagnet coil can be shortened.

According to the winding method of the bending electromagnetic coil of the first embodiment, the tensioning piece is attached to the winding surface plate 1 on which the winding frame 2 having a predetermined height and a cross section perpendicular to the height direction is arc- shaped. 3 is installed at a predetermined position, and the conductor 4 is wound a predetermined number of times along the outer circumference side of the winding frame 2 and the tension piece 3, and the outer circumference side of the winding frame 2 and the tension piece 3 A layered frame forming procedure for forming a layered frame 31 that is layered in the vertical direction of the winding surface plate 1, and the tension piece 3 is removed from the winding surface plate 1, and the layered frame 31 is removed from the inner diameter of the winding frame 2. A press molding procedure in which the press jig 9 is pressed to the side. During the tension piece installation procedure, the tension piece 3 has a conductor length when the conductor 4 is placed along the outer periphery of the winding frame 2 and the conductor 4. The number of winding layers of the deflecting electromagnetic coil is set at a position where the conductor lengths are equal when the winding frame 2 and the tension piece 3 are arranged along the outer peripheral side. If it does not reach the predetermined number of layers, tension frames installation procedure, since repeated layered frame forming steps and the press-molding procedure, it is possible to reduce the press-molding times, to shorten the manufacturing time of the bending magnet coils.

FIG. 7 is a flowchart showing a winding method according to the second embodiment. Flow chart of the second embodiment, the step ST3 from the flowchart of FIG. 5 is changed to step ST11, except that the step ST7 is changed to step ST 12. After the tension piece 3 is installed on the winding surface plate 1 (step ST2), the conductor 4 is wound by a predetermined number of layers so that the inner diameter side becomes convex in step ST11 (layered frame forming procedure). The layered frame 31 is formed. When step ST6 is completed, a press-molded coil winding is completed (step ST12). Next, it is determined whether the winding procedure (step ST2 to step ST11) for a predetermined layer is completed (step ST8). If the predetermined layer has not been reached, the process returns to step ST2 to perform the winding procedure. If the predetermined layer has been reached, the process proceeds to step ST9.

8-10 is a figure explaining the winding apparatus by Embodiment 3. FIG. FIG. 8 is a front view of the winding device, in which the first layer winding is wound. 9 is a cross-sectional view taken along the line BB in FIG. FIG. 10 is a rear view of the winding device. The slide mechanism 10 includes two rail support bases 13a and 13b, two rails 12a and 12b, a ball screw 25, and a top fixing base 14. Furthermore, measuring unit 11 for confirming the position of the tension frame 3 is provided on the frame fixing base 14. The length measurement unit 11 measures the distance from the rail support base 13b located on the winding frame 2 side, for example. A handle is provided outside the winding surface plate 1 in the ball screw 25, and the top fixing base 14 can move from the outside to the inside of the winding surface plate 1 by turning the handle. That is, the slide mechanism 10 can move the tension piece 3 in a direction to change the distance facing the inner diameter side of the reel 2.

Claims (5)

A winding device for a bending electromagnetic coil that winds a conductor and forms an arc shape,
A winding plate, installed in the winding surface plate, and the spool of the arc-shaped section parallel to the winding plate has a predetermined height, the inner diameter of the winding frame in said winding plate A tension piece that is detachably installed on the side and has a predetermined height, and a pressing jig that presses the conductor on the inner diameter side of the winding frame, and when the conductor is wound, The conductor length when the conductor is along the outer periphery of the winding frame and the conductor length when the conductor is along the outer periphery side of the winding frame and the tension piece are set at positions equal to each other. Winding device for deflection electromagnetic coil. The winding surface plate has an engagement hole for engaging a positioning pin for setting the position of the tension piece, and the positioning pin is detachably installed on the winding surface plate,
The winding device for a bending electromagnetic coil according to claim 1, wherein when the conductor is wound, the tension piece abuts on the positioning pin. A slide mechanism for moving the tension piece in a direction to change the distance facing the inner diameter side of the reel;
2. The winding device for a bending electromagnetic coil according to claim 1, wherein when the conductor is wound, the tension piece is detachably installed on the winding surface plate and the slide mechanism. A winding method of a bending electromagnet coil in which a conductor is wound and formed into an arc shape,
A tension piece installation procedure for installing a tension piece at a predetermined position on a winding surface plate having a predetermined height and a winding frame having an arc- shaped cross section perpendicular to the height direction;
A layered structure in which the conductor is wound a predetermined number of times along the outer peripheral side of the winding frame and the tension piece, and a layer is formed on the outer periphery side of the winding frame and the tension piece in the vertical direction of the winding surface plate. A layered frame forming procedure for forming a frame;
The tension piece is removed from the winding surface plate, and includes a press molding procedure for pressing the layered frame body on the inner diameter side of the winding frame with a press jig,
During the tension piece installation procedure, the tension piece is a conductor length when the conductor is along the outer periphery of the winding frame, and a conductor when the conductor is along the outer periphery side of the winding frame and the tension piece. Installed at the same length,
When the number of winding layers of the deflection electromagnetic coil does not reach a predetermined number of layers, the tension piece setting procedure, the layered frame forming procedure, and the press molding procedure are repeated. Line method.   5. The method of winding a bending electromagnetic coil according to claim 4, wherein in the layered frame forming procedure, the layered frame is formed with a plurality of layers on the outer peripheral side.