KR100208177B1 - Deflection yoke for color cathode ray tube of applicable separator - Google Patents

Abstract

The present invention relates to a deflection yoke attached to and used in the neck portion of a CRT. In a separator that insulates the vertical coil from the horizontal coil and fixes the shape of the coil, the coil is directly connected to the slit, which is the groove between the pins of the separator. It is a slit type that winds up, and a pin is inserted to hold the position of the coil during winding.In order to facilitate positioning of the coil with this pin, a cover-type structure is added to the flange on the lower side of the separator for design freedom and design. The aim is to improve the accuracy and more easily obtain the desired winding distribution.

Description

Deflection yoke for color-brown tubes with separator

1 is a conceptual diagram of a CRT.

2 is a side cross-sectional view of the deflection yoke separator.

3 is a front view of a deflection yoke wound in a slit shape.

4 is a partial cross-sectional view of the separator flange portion.

Figure 5 (a) is the shape of the winding of the Troy method.

(b) is the shape of the saddle winding.

6 is a structural diagram of a deflection yoke of the present invention.

7 is a detailed view of the flange portion of the deflection yoke of the present invention.

* Explanation of symbols for main parts of the drawings

30 separator 31 flange portion

34: deflection yoke opening 35: window portion

49: space where the coil is wound between the cover 51: coil shape wound in a trojan

52: ferrite core 6: neck portion of the CRT

The present invention relates to a deflection yoke attached / used to a neck portion of a CRT, in which a separator insulates a vertical coil from a horizontal coil and fixes the shape of the coil. The coil is directly connected to a slit, which is a groove between the pins of the separator. It is a slit type that winds up, and a pin is inserted to hold the position of the coil when winding. In order to facilitate positioning of the coil with this pin, a cover-type structure is added to the flange on the screen side of the separator for design freedom. The aim is to improve the accuracy and obtain the desired winding distribution more easily.

In the deflection yoke 3 deflecting the prior art, the horizontal coil for moving the electron beam horizontally, the vertical coil for moving vertically, and the separator 30 for insulating the two parts and the leakage magnetic field are prevented to enhance the magnetic flux density. Ferrite cores and other aids to assist the deflection yoke. In order to free the distribution of the winding coil, the slit-type coil winding method (FIG. 3) is used to place the multiple pins 32 in the proper positions so that the coils are distributed in the proper positions by the pins. Can achieve various distributions, and it is easy to change the distribution of the winding coil.

The cathode ray tube (FIG. 1) passes through the fluorescent surface of the screen 1 through a shadow mask 2 that distinguishes the three electron beams when the electron beam is emitted from the electron gun 5 that emits three electron beams in order to convert the electrical signal into an image signal. When hit, it emits three colors of light. Here, the electron beam from the electron gun 5 contains an electrical signal, but cannot move up, down, left, and right, and thus does not form a screen. When the deflection yoke (3) is attached to the neck portion (6) of the CRT, the electron beam is moved up, down, left, and right by receiving the force (F = Qv × B) of the lens due to the magnetic field of the deflection yoke to form the electron beam. do.

A magnetic field is created around the current as it flows through the coil, with a proportional magnetic flux density.

In order to distribute a large magnetic flux density in one area, it is necessary to flow a lot of current in the area, but the same current flows in one coil. Higher than the area. By properly setting the distribution of the magnetic field inside the deflection yoke (3) using this principle, the screen is not square but distorted (distortion) form a screen without misconvergence in which three electron beams are not gathered in one place. However, theoretically, even if the coil distribution is designed, the coil of the shape cannot be wound by the actual machine, so make it as similar as possible with the winding machine, and the parts that cannot be achieved by the machine are compensated by the auxiliary coil, the auxiliary core, and the auxiliary iron piece. You can play back the input signal as it is.

The winding method used in the early stages is the 'Toro break' method (winding of Fig. 5) that winds the coil directly on the core and the 'saddle' method (b of Fig. 5) that forms the coil into a saddle type. It is difficult to locate at the place where is to be distributed, and it is the slit-type winding method (FIG. 3) which made the distribution of the coil free.

In this method, the coil is wound around the pin by placing several pins on the separator, and if the number of pins is large, the coil can be positioned by the pin. Coil distribution can be freely compared to

In the present invention configured and operated as described above, the slit-type winding method (FIG. 3) can achieve various winding distributions compared to the toroidal winding and the saddle winding, while the coil 33 is wound around the pin 32. This is a limitation because it must be designed so as not to wind at the pin position during design.

In addition, since the coil is wound using the pin 32 as a guide part when the coil 33 is wound, there is a phenomenon in which the coil is driven into the coil winding direction, that is, toward the window 35. (Fig. 4) Then, the winding distribution is different from the design. Therefore, there is a misconvergence or distortion which was not existed in the design. Therefore, the design should be considered in consideration of this phenomenon and the correction should be made after the winding. There is a problem.

Therefore, the present invention is to cover the CRT with the coil guide portion of the deflection yoke in order to solve the above-mentioned problems, so that we can arrange the coil of the desired shape on the separator.

In the present invention, in order to solve the above-mentioned conventional problems, the cover 41 is provided with a space of an appropriate thickness 491 at the portion to be wound around the coil 33 of the flange 31 of the screen side 34 of the deflection yoke. If the coil 33 is wound around the interspace 49, the cover 41 may prevent the phenomenon in which coils with a predetermined number of turns are driven inwardly even when the coil is driven inward during coil winding.

Since the cover restricts the winding of the coil, it may also serve as a guide and a pin, thereby reducing the number of conventional pins and thus distributing the coil in the position of the pin 32.

When designing the winding distribution of the coil, the larger the winding distribution of one side, the more the coils coming into the flange part of the coil become thicker, and the thickness of the coil of the flange part 31 becomes thicker. In addition, when the winding distribution is relatively small, the number of coils entering the flange portion decreases, and the thickness of the coil of the flange portion becomes thin. If the cover 41 is placed on the flange portion of the separator 30 on the screen 34 toward the thickness of 49, the distribution of the desired coil can be achieved. As the coil cannot be bited inward, we can achieve the exact winding of the shape we want, and in the place where the coil distribution is needed continuously, the cover 41 itself can act as a pin, so the number of pins is reduced. A proper distribution can be achieved even where it is.

The effect of the present invention can achieve a winding distribution of various shapes and by using this can be produced a deflection yoke of various characteristics, the design can be wound as it is the shape of the desired winding distribution as it is designed and no additional correction is required deflection You can make a yoke.

Claims (2)

An electron gun that emits three electron beams, a screen that hits these beams to reproduce light, a shadow mask (2) that distinguishes the three electron beams, a deflection yoke that deflects the electron beams to a fixed location on the electric screen, In the slit-type winding system in which a coil and a slit are installed on the separator and the coil is wound directly on the separator, among the winding methods of the coil 33 wound on the electric deflection yoke, the flange portion 31 of the screen side 34 of the deflection yoke is provided. A deflection yoke for color-brown tubes employing a separator with improved coil design freedom, characterized in that the coil is provided with a pin (32) and a cover (41). The deflection yoke for color-brown tubes according to claim 1, wherein a separator is applied to allow the cover to be distributed in the flange portion.