EP0264807A1 - Winding device - Google Patents

Abstract

In the device with a winding nozzle (15) for winding saddle coils for deflection units of picture tubes, the winding nozzle can be moved along the contour of the turns to be wound. The receptacle (4) for the coil body can be rotated about its longitudinal axis. For this purpose, the winding nozzle can be moved in three mutually perpendicular planes.

Description

The invention relates to a device with a winding nozzle for winding saddle coils.

Saddle coils are used in deflection units on cathode ray tubes for the horizontal deflection of the electron beam. They often consist of individual strands connected in series, which lie in the slots of a coil former. They can also consist of windings inserted into a winding form provided with appropriately designed receptacles, which are later baked into a self-supporting saddle coil. If the planes of the strands do not run through the center of the coil body, the winding process can no longer be carried out with the conventional winding devices from a certain slope of the strands.

The invention has for its object to provide a device for winding saddle coils with which arbitrarily shaped saddle coils can be quickly wound.

This object is achieved with the means specified in claim 1. Advantageous embodiments of the invention are contained in subclaims 2 to 4. When the winding nozzle is designed with the angled end and the possibility of rotation about its longitudinal axis, a rotation of the coil body is not necessary.

• Fig.1 eine Seitenansicht einer schematisch dargestellten Vorrichtung zum Wickeln von Sattelspulen;
• Fig. 2 die Draufsicht auf die Vorrichtung gemäß Fig. 1;
• Fig. 3 den Weg der Wickeldüse längs einer Nut im Spulenkörper;
• Fig. 4a die Drehung des Spulenkörpers zum Wickeln des bis 4d oberen Wickelkopfes;
• Fig. 5 den Weg der Wickeldüse längs einer weiteren Nut und
• Fig. 6 den Weg der abgewinkelten Wickeldüse beim Wickeln der Sattelspule.

The invention will now be explained in more detail with reference to exemplary embodiments shown in the figures. Show it:

• 1 shows a side view of a schematically illustrated device for winding saddle coils;
• FIG. 2 shows the top view of the device according to FIG. 1;
• 3 shows the path of the winding nozzle along a groove in the coil former;
• 4a shows the rotation of the bobbin for winding the winding head up to 4d;
• Fig. 5 shows the path of the winding nozzle along another groove and
• Fig. 6 shows the path of the angled winding nozzle when winding the saddle coil.

In Figure 1, the device for winding the saddle coils is shown in a side view. On a base plate 1, a stand 2 is arranged, which has a holding arm 3 and a receptacle 4 for the at its upper end Carries the bobbin of the saddle coil (not shown). In addition, there is a device on the base plate 1 which can be moved in three mutually perpendicular planes. This device has a bearing block 5 for a horizontal rod 6, the other end of which is arranged in a carriage 7. The carriage 7 can slide on a further horizontal rod 8, which is arranged at right angles to the rod 6. The rod 8 is connected to the base plate 1 via two bearing blocks 9. A carrier 10 is slidably arranged on the rod 6 and holds a further vertical rod 11. A bracket 12 can slide on this rod 11. The holder 12 has a channel for the winding wire 19 (shown in dashed lines) 13, at one end of which there is an inlet nozzle 14 and at the other end of which there is a horizontal winding nozzle 15. An outlet nozzle 16 is attached to the free end of the winding nozzle 15. The inlet and outlet nozzles correspond to the commonly used nozzles.

The holder arm 3 with the receptacle 4 can rotate about the longitudinal axis of the stand 2. The carriage 7 and thus the rod 6 can move along the rod 8, ie perpendicular to the plane of the drawing. The carrier 10 is movable in the direction of the double arrow 17 along the rod 6. The bracket 12 can be moved in the direction of the double arrow 18 along the rod 11. The three movements mentioned are perpendicular to one another and thus the outlet nozzle 16 can be brought to any point in the space enclosed by the planes of movement.

The drive devices necessary for the movements mentioned are shown in the schematic Representation of the device for winding saddle coils not shown because of the better overview. Likewise, only a short piece of winding wire 19 is shown at the inlet nozzle 14 and the outlet nozzle 16. An output device for the winding wire 19 is also not shown for the sake of clarity.

FIG. 2 shows the top view of the device for winding the saddle coils. From this illustration, the possible movement of the carriage 7 along the rod 8 can be clearly seen and is indicated by the double arrow 23. It can also be seen that the bearing block 5 extends over the entire width of the base plate 1 and has a receptacle for the end of the rod 6 in the region of the rod 8 opposite it. The movement of the holding arm 3 with the receptacle 4 about the longitudinal axis of the stand 2 is indicated by the curved double arrow 20.

The winding process is described below. In the associated figures, only the bobbin 21 with its grooves 22 for receiving the winding wire 19 is shown in order to illustrate the process more clearly.

In Figure 3, the coil body 21 is shown in side view and the starting position a of the winding nozzle 15 is shown. The winding nozzle 15 moves out of this position in accordance with the movement arrows shown, then below the lower edge of the coil body 21 and then upwards in front of the groove to be wound. The winding nozzle then moves further up and to the right up to the position labeled b above the upper edge of the coil body. From here there is a movement to the right and then down to the position labeled c.

In Figure 4a, the coil body 21 is shown in plan view and the winding nozzle 15 in position c. The coil former 21 now rotates clockwise by 180 ° (arrow 24), the winding wire 19 being placed in the groove running parallel to the upper edge. At the end of this process, the position shown in FIG. 4c is reached.

In FIG. 4b, the coil former 21 is shown with a partially broken edge in order to show the winding wires lying in the groove underneath. From this figure it can also be seen that the planes of the grooves 22 and thus the planes of the later strands of the saddle coil do not run through the center 26 of the bobbin 21.

The winding nozzle then moves up, i.e. out of the plane of the drawing, and the bobbin 21 rotates 180 ° in the counterclockwise direction (arrow 25). At the same time, the winding nozzle moves to the left until the position shown in FIG. 4d, which is denoted by d, is reached.

In Figure 5, the position d shown in Figure 4d of the winding nozzle and the bobbin is again shown in side view. The winding nozzle now moves downwards until it has reached position e. From here it moves to the left and then upwards until it has reached the groove underneath the lower edge of the winding body. In this position, the coil former 21 is rotated counterclockwise by 180 ° and the winding wire 19 is inserted into the slot mentioned. Then the winding nozzle moves back into the position marked with e and the bobbin is turned back 180 ° clockwise, whereby at the same time the winding nozzle moves to the right and reaches the position g shown in broken lines. This position corresponds approximately to the starting position of the winding process and the next turn is wound in the same way. When the first groove 22 is filled, the winding nozzle moves from its starting position to the next groove and carries out the winding process as described.

If a winding nozzle 15ʹ is used with an angled end, as shown in dashed lines in Figure 1, then the rotation of the bobbin 21 can be omitted when winding the saddle coil. The winding of saddle coils with an angled winding nozzle is described below.

FIG. 6 shows the path of the angled winding nozzle when winding the saddle coil. The winding nozzle is in the starting position a and the angled end points upwards. Position c is then approached via position b. On the way from position b to position c, the winding nozzle rotates clockwise around its longitudinal axis by 180 °, so that the angled end points downward. When position e is reached via position d, the winding nozzle moves to the left into position f. The bobbin 21 remains in the position shown in Figure 6. On the way from the position f via the position g to the position h, the winding nozzle rotates clockwise about its longitudinal axis by 180 °, so that in the position h the angled end of the winding nozzle points upwards. The winding nozzle then reaches position k via position i. From there, the changing nozzle moves to the right until it returns to position a, i.e. has reached its starting position. The next turn then begins winding as described above.

Claims (4)

1. Device with a winding nozzle for winding saddle coils, characterized in that the winding nozzle (15) is movable along the contour of the windings to be wound and a receptacle (4) carrying the bobbin is rotatable about its longitudinal axis. 2. Device according to claim 1, characterized in that the winding nozzle (15) can be moved in three planes. 3. Apparatus according to claim 2, characterized in that the planes are perpendicular to each other. 4. Device according to one of claims 1 to 3, characterized in that the winding nozzle (15ʹ) has an end angled by approximately 90 ° and is rotatable about its longitudinal axis.

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