KR0174480B1 - Coil winding method of rotor transformer of head drum - Google Patents

Abstract

The present invention discloses a coil winding method of a rotor transformer for a head drum. The present invention includes the steps of forming the outer diameter of the coil smaller than the inner diameter of the cylindrical rotor transformer mounted inside the lower drum by pressing the jig; Restoring the outer diameter of the coil to its original state by the operation of the rotary mill, with the coil having its outer diameter retracted in the channel of the rotor transformer; If the outer diameter of the coil is restored and inserted between the outer and inner diameters of the channel, the coil includes adhering to the channel. Therefore, since the winding of the coil is easily performed in the channel of the cylindrical rotor transformer, the manufacture of the rotor transformer is easy, thereby reducing the production cost of the product and improving the yield of the product. In particular, the present invention is more effective in rotor transformers used in multi-channel head drums in which the number of channels is increased, such as a four-head method.

Description

Coil winding method of rotor transformer for head drum

1 is a cross-sectional view showing a head drum of a typical tape recorder.

2 is a cross-sectional view showing a rotor and stator transformer of a conventional head drum.

3 is a cross-sectional view showing a coil winding method of a rotor transformer for a head drum according to the present invention.

Figure 4 is a plan view for explaining the coil in the coil winding method of the rotor transformer for a head drum according to the present invention.

5 is a plan view showing the operation of the rotary mill in the coil winding method of the rotor transformer for a head drum according to the present invention.

* Explanation of symbols for main parts of the drawings

20: (cylindrical body) rotor transformer 22: channel

22: coil 23a: convex portion

23b: recess 30a, 30b: jig

32: rotary mill D: (coil) outer diameter

Ud: Upper Drum Ld: Lower Drum

Sh: Axis Vh1, Vh2: Video Head

The present invention relates to a head drum used in a tape recorder, and more particularly, to a coil winding method of a rotor transformer for a head drum, in which a yield of a product is improved. It is about.

In general, a head drum of a tape recorder such as a video cassette recorder, a camcorder, or the like, records or reproduces video and audio signals on a tape running along a certain running path of a traveling system.

One example of the head drum of such a tape recorder will be described with reference to FIG.

As shown in FIG. 1, in the two-head type head drum HD, video heads Vh1 and Vh2 are attached to the lower surface of the upper drum Ud, respectively. The lower drum Ld is fitted to the upper and lower portions of the shaft Sh, respectively.

In addition, between the upper and lower drums Ud and Ld, rotors and stator transformers (Rt) St for transmitting signals are mounted to maintain a constant air gap.

On the other hand, a drum motor (Dm) is installed below the lower drum (Ld), the upper drum (Ud) is rotated in accordance with the drive of the drum motor (Dm) to the action of the video head (Vh1) (Vh2). To perform the recording or playback function.

In the head drum of such a conventional tape recorder, a rotor and a stator transformer are shown in FIG.

As shown in FIG. 2, two channels 11 are formed on the upper and lower inner peripheral surfaces of the cylindrical rotor transformer 10, respectively.

The coil 12 is wound and bonded to the channel 11 of the rotor transformer 10, and the coils 12 of the rotor transformer 10 are connected to each other by the video heads Vh1 and Vh2 and soldering. It is connected to correspond.

On the other hand, two channels 16 are formed on the upper and lower outer circumferential surfaces of the cylindrical stator transformer 15 so as to face the channel 11 of the rotor transformer 10.

In addition, a coil 17 is wound and bonded to the channel 16 of the stator transformer 15. The coil 17 of the rotor transformer 15 is connected to a general recording / reproducing processing system not shown.

However, the head drum of the conventional tape recorder as described above acts as a factor that increases the production cost of the product due to difficulties in processing technology for forming the channels 11 and 16 of the rotor and stator transformers 10 and 15. There was a problem.

In addition, the coils 12 and 17 are individually wound on the channels 11 and 16 of the rotor and stator transformers 10 and 15, thereby making the manufacturing process of the rotor and stator transformers 10 and 15 complicated. There was a problem that was troublesome.

In particular, the rotor transformer 10 has a channel 11 formed on the inner circumferential surface thereof, thus causing a problem in the winding and bonding process of the coil 12, and the coil 12 contacting the inner circumferential surface of the rotor transformer 10. Since this occurs as a major cause of failure, there was a problem to significantly lower the yield of the product.

On the other hand, such a problem is that in a head drum employing multiple channels such as a four-head type, since four or more channels must be formed on opposite surfaces of the cylindrical rotor and the stator transformer, the structure of the rotor transformer becomes complicated and becomes more serious. .

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to facilitate the winding process of the coil in the channel of the cylindrical rotor transformer, it is easy to manufacture the production cost of the product It is to provide a coil winding method of a rotor transformer for a head drum to reduce the yield, and improve the product yield.

An object of the present invention for achieving the above object is that the upper and lower drums are assembled to the video head is mounted on the upper and lower parts of the shaft to record the video and audio signals on the tape running along the driving path of the traveling system or A regenerating head drum, the method comprising: forming an outer diameter of a coil by pressing a jig smaller than an inner diameter of a channel of a cylindrical rotor transformer mounted inside the lower drum; Restoring the outer diameter of the coil to its original state by the operation of a rotary mill, with the coil having its outer diameter closed in a channel of the rotor transformer; When the outer diameter of the coil is restored and inserted between the outer diameter and the inner diameter of the channel, the coil is in the coil winding method of the rotor transformer for a head drum comprising the step of adhering to the channel.

A more preferable feature of the coil winding method of the rotor drum for the head drum is that the coil is formed so that the convex portion and the concave portion are formed to be smoothly curved with each other so that the outer diameter thereof becomes smaller. In addition, the rotary mill gradually restores the concave portion of the coil by a rod whose length is adjusted by a linear motion, and a roller is mounted at the end of the rod to prevent damage to the coil.

Hereinafter, a preferred embodiment of the coil winding method of the rotor transformer for a head drum according to the present invention will be described in detail with reference to the accompanying drawings.

3 to 5 are diagrams for explaining the coil winding method of the rotor drum rotor transformer according to the present invention, the basic configuration of the two-head head drum described in Figure 1 will be described with the same reference numerals.

First, referring to FIG. 1, the head drum HD is attached to the lower surface of the upper drum Ud so that the video heads Vh1 and Vh2 maintain 180 °, respectively, and the upper and lower drums Ud. ) Ld is fitted to the upper and lower portions of the shaft Sh, respectively.

As shown in FIG. 3, in the cylindrical rotor rotor 20 mounted inside the lower drum Ld, two channels 21 are formed above and below the inner circumferential surface of the present invention.

In addition, the coils 22 are wound and bonded to the channel 21 of the rotor transformer 20, and the coils 22 are wound in a circular shape.

As shown in FIG. 4, the coil 22 is bonded between the outer diameter D1 and the inner diameter D2 of the channel 21, and the outer diameter D of the coil 23 is formed in the channel 21. It is formed to substantially coincide with the outer diameter D1.

As such, the outer diameter D of the coil 22 substantially coincident with the outer diameter D1 of the channel 21 is smaller than the inner diameter D2 of the channel 21.

That is, the coil 22 is formed such that the convex portion 23a and the concave portion 23b are formed to be curved in a smooth curve with each other so that the outer diameter D becomes small.

On the other hand, the coil 22 is formed on a pair of jigs (30g, 30b), the inner surface of the jig 30 is formed by connecting the convex portion 31a and the concave portion 31b in a gentle curved shape. .

Therefore, when the jig 30a, 30b is moved to the outside of the coil 22 by moving the jig 30a, 30b in a state in which the coil 22 is interposed on both sides of the predetermined distance so as to interpose the inside of the jig 30a, 30b. The outer diameter D of the coil 22 is formed to be smaller than the inner diameter D2 of the channel 21 while being retracted to have the convex portion 23a and the concave portion 23b.

Here, although the convex part 31a and the concave part 31b of the coil 22 showed the cross shape to cross | intersect 4 parts, the number of the convex part 31a and the concave part 31b was suitably. It can be formed in various forms by changing.

In addition, of course, the convex part 23a and the concave part 23b of the jig 30a, 30b can also be changed suitably according to the form of the coil 22 being lifted.

As shown in FIGS. 3 and 5, the outer diameter of the coil 22 is placed in the channel 21 by inserting the coil 22 having the outer diameter D retracted into the inner circumferential surface of the rotor transformer 20. (D) is restored to the original state by the operation of the mill 32.

That is, the rotary mill 32 gradually restores the concave portion 23b of the coil 22 by a rod 33 whose length is adjusted by linear motion, and at the end of the rod 33, the coil 22 is rotated. It is equipped with a roller (34) to prevent damage.

As such, when the outer diameter D of the coil 22 is restored to its original state, the coil 22 is wound, that is, inserted between the outer diameter D1 and the inner diameter D2 of the rotor transformer 20.

The coils 22 wound on the channel 21 of the rotor transformer 20 are bonded by the bonding process, and both ends of the coils 22 correspond to each other by soldering to the video heads Vh1 and Vh2. Connected.

On the other hand, the signals of the video heads Vh1 and Vh2 are transmitted and recorded or reproduced by mutual magnetic flux action by the coil 22 of the rotor transformer 20 and the coil 17 of the stator transformer 15 described in FIG. The function is performed.

In the present invention, since the coil 22 is easily wound and bonded to the channel 21 of the cylindrical rotor transformer 20, not only the production cost of the product is significantly reduced, but the yield of the product is greatly improved.

That is, since the diameter D of the coil 22 wound in a circular shape is smaller than the inner diameter D2 of the rotor transformer 20, the winding process of the coil 22 is performed, so that the manufacturing process of the rotor transformer 20 is performed. It is simpler and easier to perform.

In addition, when the rotor transformer 20 of the present invention is used in a head drum employing a multi-channel such as a four-head method, four or more channels are formed on opposite surfaces of the cylindrical rotor and the stator transformer. The rotor transformer 20 may be manufactured in a structure in which the winding of the coil 22 is easy even though the number of the channels 21 is increased.

On the other hand, the above embodiment is merely to describe one preferred embodiment of the present invention, the scope of the present invention is not limited to this, and can be changed as appropriate within the scope of the same idea.

According to the head drum of the tape recorder according to the present invention as described above, since the winding of the coil is easily performed in the channel of the cylindrical rotor transformer, the manufacture of the rotor transformer is easy, the production cost of the product is reduced, the yield of the product This is to be improved.

In particular, the present invention is more effective in rotor transformers used in multi-channel head drums in which the number of channels is increased, such as a four-head method.

Claims (4)

The lower drum Ld, wherein the upper and lower drums to which the video heads are assembled are mounted on upper and lower portions of the shaft to record or reproduce video and audio signals on a tape traveling along a traveling path of a traveling system. Forming an outer diameter (D) of the coil (22) smaller than the inner diameter (D2) in the channel (21) of the cylindrical rotor transformer (20) mounted in the inner portion by pressing the jigs (30a, 30b); With the outer diameter D of the rotor transformer 20 positioned in the channel 21 of the rotor transformer 20, the outer diameter D of the coil 22 is operated by the operation of the rotary mill 32. Restoring the original state; If the outer diameter D of the coil 22 is restored and inserted between the outer diameter D1 and the inner diameter D2 of the channel 21, the coil 22 includes adhering to the channel 22. Coil winding method of rotor transformer for head drum. The coil of the rotor transformer for a head drum according to claim 1, wherein the coil (22) is formed such that the convex portion (23a) and the concave portion (23b) are closed in a gentle curved shape with each other so that the outer diameter (D) becomes small. Winding method The method of claim 1, wherein the convex portion (31a) and the concave portion (31b) are formed on the inner surface of the jig (30a, 30b) is connected to each other in a gentle curved form coil winding method of the rotor transformer for a head drum. The rotating mill 32 restores the recess 23b of the coil 22 gradually by a rod 33 whose length is adjusted by linear motion, At the end, a transformer winding method for a head drum, in which a roller (34) is mounted to prevent damage to the coil (22).