JPS6346567B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention uses a winding material supply position control device to control the three-dimensional movement of a winding material supplying means for supplying winding material to a bobbin, thereby controlling windings and terminal pins. The present invention relates to a method for winding a winding wire using a winding machine and winding ends of the winding wire.

2. Description of the Related Art A winding machine is known in which a bobbin is fixed to a spindle, the spindle is rotated at high speed, and a winding material is supplied while a winding material supply means is moved to perform winding.

A thin straight tube is usually used as the winding material supply means. Those skilled in the art refer to this part as a nozzle.

First, an example of the winding of the winding machine of the above type and the winding end will be explained with reference to FIG. FIG. 1 is a schematic diagram for explaining the winding of a coil in which the terminal pin is provided in a direction perpendicular to the winding axis of the bobbin, and the method of winding the ends of the winding.

To wind the wire, fix the bobbin 1 to the spindle, rotate the spindle at high speed, and move the nozzle 2 in the direction of arrow P in the figure.
This is done by reciprocating in the direction shown. Winding the wire around the terminal pin 1a is carried out by stopping the spindle at a position where the terminal pin 1a is parallel to the nozzle 2 and rotating the nozzle 2 in the direction indicated by the arrow r in FIG. 1C. In the case of a coil in which the terminal pin 1a is installed in a direction perpendicular to the winding axis (rotation center during winding) of the bobbin 1, the terminal pin 1a and the nozzle 2 can be made parallel by controlling the stop position of the spindle. It is possible to do so. Therefore, the winding can be performed by rotating the nozzle 2 multiple times around the terminal pin 1a without changing the angle of the nozzle 2 with respect to the winding shaft.

Recently, as shown in Fig. 2, in bobbins where the terminal pin is installed perpendicularly and parallel to the winding axis of the bobbin, the terminal pin installed parallel to the winding axis is used to connect the end of the winding. There has been a demand for automatic reshaping.

Terminals 4a and 5a, terminals 6a and 7a, etc. of the bobbin 8 shown in FIG. 2 are embedded and fixed in the frame of the bobbin 8 by integral terminal pins, respectively. Among these pins, terminal pin 5 is perpendicular to the winding axis.
a...7a, 7b, 7c Used as leg pins when mounting the completed coil on a printed board, etc. Therefore, it is necessary that the ends of the windings be provided with terminal pins 4a, 6a, etc. provided in a direction parallel to the winding axis.

Such automatic winding processing of the ends of the winding was not possible with the method described above with reference to FIG. 1 because the nozzle 2 could not be made to revolve around the terminal on the spindle side.

An object of the present invention is to provide a winding wire and a winding end winding method for winding a bobbin and winding a terminal pin provided in a direction parallel to the winding axis of the bobbin.

In order to achieve the above object, a winding wire and a winding end winding method according to the present invention provide a spindle that supports and rotates a bobbin, a winding material supplying means for supplying a winding material to the bobbin, and the winding material supplying means. A winding wire and a winding wire that are wound onto a terminal pin provided in a direction parallel to the winding axis of the winding wire and the bobbin using a winding machine having a winding material supply position control device that controls the three-dimensional movement of the winding wire. In the end twisting method, the winding material supplying means is formed of a base pipe that receives the winding material and a nozzle that supplies the winding wire in a direction perpendicular to the base pipe, and the nozzle is rotated about the tube axis of the base pipe. A nozzle direction control means for controlling the direction of the nozzle is provided, and during winding, the nozzle direction control means directs the nozzle in a direction perpendicular to the winding axis of the bobbin, and the winding material supply position control device supplies the winding material. The winding material is wound onto the bobbin by controlling the traverse direction of the winding material, and during winding, the nozzle direction control means directs the nozzle in a direction parallel to the winding axis of the bobbin, and the winding material supply position control device winds the winding material. The nozzle of the supply means is configured to revolve around the terminal pin.

According to the above configuration, it is possible to wind the terminal pins provided in a direction parallel to the winding axis of the bobbin before and after winding the wire on the bobbin, and the object of the present invention is completely achieved.

The method of the present invention will be explained in more detail below with reference to the drawings.

FIG. 3 is a diagram showing an embodiment of the winding material supplying means used in the method of the present invention. The winding material supply means 10 includes a base tube 10a for receiving the winding material 3, and a nozzle 10b that guides and supplies the winding material 3 in a perpendicular direction. In this embodiment, a base tube 1 which is processed from a metal tube and receives a winding material 3 is used.
A nozzle 10b bent in a direction perpendicular to the 0a section and the base tube 10a section is integrally provided.

Figure 4 shows the nozzle 1 at the tip of the winding material supply means.
FIG. 2 is an enlarged cross-sectional view of part 0b. During winding, the winding material 3 is pulled out almost along the central axis of the nozzle 10b, but during winding, it is pulled out at a considerable angle.

Therefore, a sapphire ring 10c is embedded in the tip of the nozzle 10b in order to prevent the tip of the nozzle 10b from being worn out due to friction between the wire and the nozzle 10b during twisting. Third
As shown in the figure, a pinion 10c is attached to the base pipe 10a.
is provided. This pinion 10c forms part of a direction control means (not shown). The pinion 10c is connected to the rack 10d of the direction control means and is rotated by the control action of the direction control means. The base tube 10a is rotatably fixed, and the direction of the nozzle 10b is controlled by rotating the base tube 10a about its tube axis by the direction control means.

In this embodiment, the base pipe 10 of the winding material supply means is
Although the a part and the nozzle 10b are provided integrally, the nozzle 10b can be made separately as long as it can rotate together with the base tube 10a part. The base tube 10a and the nozzle 10b may be separated and connected by a small pulley.

Next, the shape of a spindle of a winding machine for carrying out the present invention will be explained. The spindle 11 has a tip 1
1c, a collar portion 11b, an intermediate portion 11a, and a cylindrical base, and is connected to a winding machine main body (not shown) at the base and rotated. The tip portion 11c has an angular shape corresponding to the center hole of the bobbin 8, as shown in FIG. A cut end view of the collar portion 11b is shown in FIG. The intermediate portion 11a is cut off as shown in FIG. This cut-off portion is provided to ensure a space for movement of the nozzle 10b when cutting the terminal pin.

As shown in FIG. 6A, the bobbin 8 is mounted so that the terminal pin 4a parallel to the winding axis is located on the cut-off surface of the intermediate portion 11a.

FIG. 6B shows a state rotated 90 degrees from the state shown in FIG. 6A.

Next, winding on the bobbin 8 according to the present invention will be explained with reference to FIG. When winding the bobbin 8, the nozzle 10b of the winding supply means 10 is directed perpendicularly to the winding axis of the bobbin 8 by the direction control means, as shown in FIG. 7B. At this time, the plane formed by the base tube 10a and the nozzle 10b is perpendicular to the winding axis of the bobbin 8. In this state, spindle 1
1 to rotate the bobbin 8 in the direction shown by arrow q in FIG. 7B. At the same time, the winding supply means 10 is moved in the direction indicated by the arrow p shown in FIG. 7A by the winding position control device to control the traverse direction. When a predetermined winding is completed, a winding process is performed on the terminal pins 4a and the like parallel to the winding axis.

FIG. 8 shows a schematic side view A and a plan view B for explaining the state in which the terminal pin parallel to the winding axis is twisted.

Before entering the winding process, a pinion 10c is provided integrally with the base pipe 10a of the winding supply means 10.
(see Figure 3), the rack 10d of the direction control means
By moving the base tube 10a and rotating the base tube 10a around its tube axis, the direction of the nozzle 10b is rotated by 90 degrees. At this time, the base pipe 10a and the nozzle 1
The plane formed by 0b is parallel to the winding axis of the bobbin 8. The winding supply means 10 is then brought to the position shown in FIG. 8 by the winding material supply position control device. In this state, the winding material supplying means 10 is rotated in the direction indicated by arrow r in FIG. 8A by the winding material supplying position control device, thereby winding the winding material onto the terminal pin parallel to the winding axis.

The winding material can be similarly wound on the terminal pin 6a, etc., which are provided on the other flange of the bobbin 8 and are parallel to the winding axis.

As explained above, according to the method of the present invention, winding on a bobbin and winding on a terminal pin provided in a direction parallel to the winding axis of the bobbin can be continuously and automatically performed.

In the method of the present invention, the winding material supply means 10 is formed of a base pipe 10a that receives the winding material 3 and a nozzle 10b that supplies the winding wire in a direction perpendicular to the base pipe 10a. Since the winding material supply position control device is rotatable around the tube axis, the winding material supply position control device becomes simple.

In the embodiment described above, the center of the tube axis of the base tube 10a is perpendicular to the center axis of the bobbin 8 in all steps, and there is no need to perform complicated control to give the inclination.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram for explaining the winding of a coil in which the terminal pin is provided in a direction perpendicular to the winding axis of the bobbin, and the method of winding the ends of the winding. FIG. 2 is a front view A and a side view B showing the structure of a bobbin in which terminal pins are provided in a direction perpendicular and parallel to the winding axis of the bobbin. FIG. 3 is a diagram showing an embodiment of the winding material supplying means used in the method of the present invention. Fourth
The figure is an enlarged cross-sectional view of the tip of the winding material supply means. FIG. 5 is a diagram showing the shape of the spindle, in which figure A is a front view of the spindle, figures B, C, and D are cut end views of each part, and figure E is a side view. FIG. 6A is a front view and a side view showing the state in which the bobbin is attached to the spindle. FIG. 6B is a front view and a side view showing a state rotated by 90 degrees from the state shown in FIG. 6A. 7th
The figures are a schematic front view and a side view for explaining the state of winding the bobbin. FIG. 8 is a schematic side view and a plan view for explaining the state in which the terminal pin parallel to the winding axis is twisted. 1... Bobbin, 1b... Terminal pin, 2... Nozzle, 3... Winding material, 4a, 6a... Terminal pin parallel to the winding axis, 5a, 7a... Terminal pin perpendicular to the winding axis, 8... ...Bobbin, 10...Winding supply means, 10
a...Base pipe, 10b...Nozzle, 11...Spindle.

Claims (1)

[Claims] 1 Using a winding machine having a spindle that supports and rotates a bobbin, a winding material supply means for supplying a winding material to the bobbin, and a winding material supply position control device that controls three-dimensional movement of the winding material supply means. In a winding and winding end winding method for winding a terminal pin provided in a direction parallel to the winding axis of the winding and a bobbin, the winding material supplying means is connected to a base pipe for receiving the winding material and the base. A nozzle direction control means is provided for controlling the direction of the nozzle by rotating the nozzle around the tube axis of the base tube, and controlling the direction of the nozzle during winding. The control means directs the nozzle in a direction perpendicular to the winding axis of the bobbin, and the winding material supply position control device controls the traverse direction of the winding material supply means to wind the bobbin. The direction control means directs the nozzle in a direction parallel to the winding axis of the bobbin, and the winding material supply position control device causes the nozzle of the winding material supply means to revolve around the terminal pin, thereby reaching the terminal pin of the bobbin. A winding wire and a winding end winding method characterized in that the winding wire is winding the winding end.