KR950004562B1 - Wounding method of d.y. - Google Patents

Abstract

The vertical deflection coils are wound around the ferrite core of the deflection yoke with pyramidal configuration. The method has the steps of forming the first layer by winding coil with gaps, forming the second layer by winding coil above the gap of the first layer, and forming the layers above them in the same way. The yoke prevents scattering of convergence and inductance values of the coil.

Description

Vertical deflection coil winding method of deflection yoke

1 is a front view of a general deflection yoke.

2 is a plan view of a state in which a vertical deflection coil is wound around a coil separator.

(A), (b) of FIG. 3 is an exemplary view showing a conventional vertical deflection coil winding method.

(A), (b) of FIG. 4 is a state diagram at the time of winding a vertical deflection coil by the conventional method.

Figure 5 (a) is an example showing a vertical deflection coil winding method according to the present invention.

(b) is a state diagram at the time of winding a vertical deflection coil by this invention.

* Explanation of symbols for main parts of the drawings

1: deflection yoke 2: neck part

3: coil separator 4: core clamp

5: vertical deflection coil 6: ferrite core

5-1: 1 layer coil 5-2: 2 layer coil

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of winding a vertical deflection coil of a deflection yoke. In particular, a vertical deflection coil is wound around a ferrite core mounted on a coil separator outer side of a deflection yoke in a pyramidal alignment winding.

In general, the deflection yoke 1 has a horizontal deflection coil (not shown) wound inside the coil separator 3 composed of the neck portion 2 and the screen portion 3a, as shown in FIG. The pair of ferrite cores 6, on which the vertical deflection coils 5 are wound, is fixed by the core clamps 4.

Such a deflection yoke (1) is used in a television tube or a computer monitor. When a sawtooth pulse is applied to the vertical and horizontal deflection coils of the deflection yoke, a magnetic field is generated by Fleming's left-hand law, which radiates from an electron gun. By deflecting the position of the electron beam is positioned on the screen of the CRT. Accordingly, the vertical deflection coil 5 is wound around the pair of ferrite cores 6 at arbitrary angles so as to deflect the electron beam in the vertical direction, and is mounted outside the coil separator 3.

만큼 수직편향코일(5)이 권선되는데 처음에는 제3도의 (a)의 경우와 같이 페라이트코어(6)에 코일(5)이 권선되는 임의의 각

의 처음 시작선(a)에서 권선을 시작할 때 권선된 1층 코일(5a)의 중심과 권선될 다음 층의 코일(5b)의 중심을 일치시키어 계속 적층시키는 방법으로 코일(5)을 권선하였던 것이나, 권선된 코일(5)중 어느 일부분, 예를 들어 제4도의 (a)에서와 같이 1층 코일(5a)의 중심에 다음 층의 2층 코일(5b) 의 중심이 일치되어 권선되면 코일(5a),(5b)이 원형이기 때문에 다음 층의 코일(5b)이 코일(5a)중심에서 좌, 우 어느쪽이든지 힘을 받아 기울어지므로 전체적으로 페라이트코어(6)에 권선된 코일(5)이 어느 한쪽으로 쓰러지면서 쏠리게 되는 것이고, 이로인해 콘버어젼스 및 수직편향코일의 인덕턴스 값등에 산포(散布)가 심해지는 문제점이 발생하였다.In the conventional method of winding the vertical deflection coil 5 on the ferrite core 6, as shown in Figs. 2 and 3 (a) and (b), the ferrite core 6 is moved from the right side to the left side. Any angle

As the vertical deflection coil 5 is wound, an arbitrary angle at which the coil 5 is wound around the ferrite core 6 as in the case of (a) of FIG.

When the winding was started at the first start line (a) of the coil 5, the coil 5 was wound in such a manner that the center of the coil 1b wound up and the center of the coil 5b of the next layer to be wound coincide with each other. When a part of the wound coil 5 is wound, for example, the center of the two-layer coil 5b of the next layer coincides with the center of the one-layer coil 5a as shown in FIG. Since 5a) and 5b are circular, the coil 5b of the next layer is inclined by the force of either the left or the right in the center of the coil 5a, so that the coil 5 wound around the ferrite core 6 as a whole This is caused by falling to one side, and this causes a problem that the dispersion is severe in the inductance value of the convergence and vertical deflection coil.

만큼 1층과, 2층 코일(5A)을 동일 중심으로 권선하고 처음 권선되는 시작선(a)의 중심에서 약간 벗어나도록 권선각을 1°~2° 감소시켜 2층씩 다음 층을 계속 권선한 방법을 사용하였다. 예를들어 최초 1층에 권선할 각

을 120°로 하고 1층에서 10층까지 1°씩 감소시켜 권선할 경우,In some cases, a method such as (b) of FIG. 3 is used to solve the above problem. Here, the winding angle to the ferrite core (6)

Winding the first layer and the two-layer coil (5A) to the same center as much as possible by reducing the winding angle by 1 ° ~ 2 ° so as to deviate slightly from the center of the starting line (a) to be first wound Was used. For example, each winding to the first floor

If you make a winding of 120 ° and decrease it by 1 ° from 1st floor to 10th floor,

1st floor → 120 °

2nd floor → 120 °

3rd floor → 119 °

4th floor → 119 °

5F → 118 °

: →:

10th floor → 116 °

만큼 코일 첫째층이 일정간격(A)으로 권선되고, 상기 첫째층 코일의 일정간격(A)에 의해 결정되는 일정각

만큼 감소되어 다음 층의 코일이 상기 일정간격(A)과 동일하게 적층되며, 상기 코일이 반복적으로 적층되어 피라미드식의 정렬권으로 권선되게 한 것이고, 또 다른 특징은, 상기 코일이 권선되는 일정간격(A)은 코일 외경(d)보다 크거나 같고 3/2코일 외경(d)보다 작거나 같게 권선되게 한 것이며, 상기 코일의 권선 각도

는,In order to prevent the coil 5 from collapsing or being pulled to one side, the coil 5 is slightly inclined as a whole by using a method of winding by 1 ° at intervals of two layers from the first starting line (a). It was. However, although the coil wound on the ferrite core is inclined slightly inwardly as a whole, the method described above shows some of the coils wound as shown in (b) of FIG. 3,4 layers are wound by 119 °, which is reduced by 1 °, and the following layers are wound by 1 ° in two-layer intervals, and coils of 3 and 4 layers wound by 119 ° are reduced by 1 °. ) Is slightly shifted by the 1st and 2nd layer coils 5A wound at 120 °, so that the force is applied to the left in the direction of the arrow in the drawing, and the 2nd layer coil 5A is applied to the right. This also caused the condition that the wound coils 5 could flow either way. Accordingly, an object of the present invention is to solve the above problems, and an object of the present invention is to prevent the coil wound on the ferrite core from collapsing or being oriented in either direction, and thus the dispersion and convergence of the vertical deflection coil generated in the conductance value ( It is an object of the present invention to provide a winding method of a vertical deflection coil that can prevent the fabric. In order to solve the above object, a feature of the present invention is a method of winding a vertical deflection coil by a ferrite core mounted on an outer side of a coil separator of a deflection coil.

The first layer of the coil is wound at a constant interval A, and the predetermined angle determined by the constant interval A of the first layer coil.

Coils of the next layer are stacked in the same manner as the predetermined distance A, and the coils are repeatedly stacked and wound in a pyramid-aligned winding, and another feature is that the coils are wound at regular intervals. (A) is larger than or equal to the coil outer diameter (d) and less than or equal to 3/2 coil outer diameter (d), and the winding angle of the coil

Is,

The consciousness is to be satisfied.

Hereinafter, the vertical deflection coil winding method of the present invention will be described in detail with reference to the accompanying drawings.

만큼 코일(5)이 권선된다. 여기에서, 본 발명의 코일(5) 권선방법은, 제5도의 (a)에 도시된 바와 같이 페라이트코어(6)에 1층 코일(5-1)이 최초의 권선각

으로 권선되고, 2층 코일(5-2)이 1층 코일(5-1)과 코일(5-1)사이로 권선되며, 이와 같은 방법으로 다음 층들이 차례로 권선되어 피라미드식의 정렬권을 권선되게 한 방법이다. 상기와 같은 코일 권선방법을 더욱 상세히 설명하면 제5도의 (b)와 같이, 페라이트코어(6)에 권선되는 1층 코일(5-1)은 일정간격(A)으로 최초의 권선각

만큼 권선되고, 2층의 코일(5-2)은 1층 코일(5-1)과 코일(5-1)의 중심사이인, 즉 일정간격 (A)의 중심에 권선되게 되는데 이때의 2층의 코일(5-2)의 처음 권선 위치는 일정간격 (A)의 중심과 최초 1층 코일(5-1)의 처음 선(a)과의 사이각인 일정각

만큼 감소된 위치가 된다.1 and 2 show the state in which the vertical deflection coil 5 is wound on the ferrite core 6 fixed to the outside of the coil separator 3 of the deflection yoke 1. bracket

As much as the coil 5 is wound. Here, in the coil 5 winding method of the present invention, as shown in (a) of FIG. 5, the first winding angle of the first layer coil 5-1 on the ferrite core 6 is obtained.

Winding, and the two-layer coil 5-2 is wound between the first-layer coil 5-1 and the coil 5-1. In this manner, the following layers are wound in turn so that a pyramidal alignment winding is wound. One way. Referring to the coil winding method as described above in more detail as shown in (b) of FIG. 5, the first-layer coil 5-1 wound on the ferrite core 6 has an initial winding angle at a predetermined interval (A).

The coil 5-2 of the second layer is wound around the center of the first layer coil 5-1 and the coil 5-1, that is, at the center of the predetermined interval A. At this time, the second layer The initial winding position of the coil 5-2 of is a constant angle which is an angle between the center of the predetermined interval (A) and the first line (a) of the first one-layer coil 5-1.

Will be reduced position by.

이 계산되므로 상기의 일정간격(A)의 값을 결정하고 이 결정된 일정간격(A)으로 일정각

을 계산하여야 한다. 기본적으로 페라이트코어(6)의 내측에 권선되는 코일(5-1)j과 코일(5-1)의 간격(A)은 코일(5)의 직경(d)과 같아야 한다. 만약, 일정간격(A)이 코일직경(d)보다 작으면 코일(5)까지 적층되려고 하므로 코일이 서로 밀리게 되고, 반대로 일정간격(A)이 코일직경(d)보다 커지게 되면, 1층 코일(5-1)사이로 2층 코일(5-2)이 끼여드는 경우가 생기게 된다. 따라서 일정간격(A)의 가장 바람직한 값은 코일직경(d)보다 크거나 같고 3/2코일 직경(d)보다 작거나 같은 값이 주어져야 한다. 그러므로 일정각

은 처음 1층 코일(5)의 권선시 결정된 일정간격(A)에 의해 계산된다. 간격 (A)은,

로서, 식이 구해지고, 상기 식(2-1)에 의하여 각

은,

이 되므로, 따라서,

이므로

로 구해지게 된다. 결국, 처음 1층 코일(5-1)은 권선각

만큼 일정간격(A)으로 권선되고, 2층은 일정간격(A)에 의해 정해진 일정각

이 양쪽에서 감소되므로 권선각

에서 2

에서 2

값을 뺀 권선각

로 권선되며, 3층은 2층의 권선각

에서 2

값을 뺀 권선각

가 되는 것이다. 이와 같은 방법으로 다음 층의 권선각이 계산된다. 또한, 권선각

도중에 창(window)을 형성할 필요가 있을 때, 예를 들어 4층부터 창(window)이 있을 경우는The present invention determines the constant interval (A) in consideration of the inner diameter (D) of the ferrite core 6 and the diameter (d) of the coil when winding the coil (5) at a constant interval (A), and the constant interval (A) Constant angle by)

Is calculated so that the value of the constant interval A is determined and the fixed angle A is determined by the determined constant interval A.

Should be calculated. Basically, the distance A between the coil 5-1 j and the coil 5-1 wound inside the ferrite core 6 should be equal to the diameter d of the coil 5. If the predetermined distance (A) is smaller than the coil diameter (d), the coils are pushed to each other because they are stacked up to the coil (5), and conversely, if the predetermined distance (A) is larger than the coil diameter (d), the first floor There is a case where the two-layer coil 5-2 is sandwiched between the coils 5-1. Therefore, the most preferable value of the constant distance (A) should be given a value greater than or equal to the coil diameter (d) and less than or equal to the 3/2 coil diameter (d). Therefore, a certain angle

Is calculated by the constant distance A determined during the winding of the first one-layer coil 5. Spacing (A),

As a formula, a formula is obtained, and each

silver,

So, therefore,

Because of

Will be obtained. As a result, the first one-layer coil 5-1 has a winding angle

Winding at a constant interval (A), the second floor is a predetermined angle determined by a constant interval (A)

Winding angle as it decreases on both sides

2 in

2 in

Winding angle minus value

3 layers are winding angle of 2 layers

2 in

Winding angle minus value

To be. In this way the winding angle of the next layer is calculated. Also, winding angle

When it is necessary to form a window along the way, for example, if there is a window from the fourth floor

Just winding together.

In the present invention, when winding by the winding method as described above, as shown in (b) of FIG. 5, a coil 5-2 of two layers is disposed between the coil 5-1 and the coil 5-1 of one layer. The coil 5 is wound in a pyramid-aligned winding in which two layers of coils 5-3 are wound, so that the coil 5 is not likely to be forced or collapsed in either direction.

각 만큼 감소되면서 권선되므로써 코일이 어느 한쪽으로 힘을 받아 무너지거나 쏠리는 현상을 막을 수 있게 되는 것이어서, 산포(散布)현상을 방지할 수 있게 되는 것이다.As described above, in the present invention, in the method of winding a vertical deflection coil on a ferrite core with a pyramidal alignment winding, a predetermined interval A is determined and one side is determined by the predetermined interval A.

The winding is reduced by each angle to prevent the coil from collapsing or squeezing under one side force, thereby preventing scattering.

Claims (3)

In a method of winding a vertical deflection coil on a ferrite core mounted outside the coil separator of the deflection coil, an arbitrary region angle of the ferrite core 6 is obtained.

The first layer of the coil 5 is wound at a constant interval A, and the constant angle determined by the constant interval A of the first layer coil 5-1.

The deflection yoke, characterized in that the coil 5-2 of the next layer reduced by this is stacked equal to the predetermined distance A, and the coil 5 is repeatedly stacked and wound in a pyramidal alignment winding. Vertical deflection coil winding method. The vertical direction of the deflection yoke according to claim 1, wherein the predetermined distance A at which the coil 5 is wound is larger than or equal to the coil outer diameter d and smaller than or equal to 3/2 coil outer diameter d. Deflection coil winding method. The winding angle of the coil (5) according to claim 1

Is,

The winding method of the vertical deflection yoke of the deflection yoke, characterized in that is satisfied.

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