KR0160276B1 - Winding frame and winding method for saddle type coil using it - Google Patents

Abstract

In the winding frame and the saddle coil winding method using the same, in the process of winding the saddle coil using the winding frame and applying a high current to the saddle coil to fuse the coils together, Due to the smaller number of coils wound than the lower part, a maneuver or groove is formed along the upper side of the winding frame to prevent the coil from squeezing in one direction due to the attraction force greater than the upper part. The auxiliary coil connected in series with the saddle-type coil is wound on the stepped portion or the groove at a predetermined number of times so that the attraction force generated on the upper side of the saddle-type coil is the same as the attraction force generated on the lower side. Therefore, it is possible to produce a saddle coil having the same shape as the saddle coil in the initial design.

This can be used for all deflection yokes, especially when making saddle coils.

Description

Winding frame and saddle coil winding method

1 is a perspective view of a common saddle coil.

2 is a perspective view of a typical winding frame.

3 is a plan view showing a state in which a saddle coil is wound around a winding frame.

4 is a cross-sectional perspective view taken along the line A-A of FIG.

5 is a magnetic field generation diagram according to FIG.

6 is a cross-sectional view of the saddle coil in the case of winding the saddle coil with a conventional winding frame.

7 is a magnetic field generation diagram according to FIG.

8 is a perspective view showing an embodiment of a winding frame according to the present invention.

9 is a rear cross-sectional view of the winding frame shown in FIG.

10 is an equivalent circuit diagram illustrating a connection state of a saddle-type coil and an auxiliary coil.

11 is a perspective view showing another embodiment of a winding frame according to the present invention.

12 is a rear cross-sectional view of the winding frame shown in FIG.

* Explanation of symbols for the main parts of the drawings

1: Saddle coil 1a: Upper part

1b: lower part 2: winding frame

3: guide hole 4: loss part

5 gain portion 6: stepped portion

7, 9: auxiliary coil 8: groove

The present invention relates to a winding frame and a saddle coil winding method using the same, and more particularly, to improve the structure of a winding frame used when winding a saddle coil mounted on a deflection yoke. The present invention relates to a winding frame and a saddle-type coil winding method using the same, to prevent the coil from being biased in one direction.

In general, the deflection yoke is a device mounted on the rear of the cathode ray tube to generate a deflection magnetic field by applying a sawtooth voltage to deflect the electron beam, thereby accurately scanning the electron beam on each pixel of the screen.

The deflection yoke is equipped with a horizontal deflection coil for generating a deflection magnetic field for deflecting the electron beam in the horizontal direction, and a vertical deflection coil for generating a deflection magnetic field for deflecting the electron beam in the vertical direction, as shown in FIG. Likewise, the horizontal deflection coil uses a saddle type coil, that is, a saddle coil 1.

In order to wind the saddle-shaped coil 1, a combination of various molds such as an inner mold, an outer mold, and an upper mold is wound three-dimensionally. The winding frame 2 as shown in FIG. 2 is used to wind the upper portion 1a of the saddle-shaped coil 1, and as shown in FIG. 3, the saddle on the winding frame 2 is shown. After winding the upper portion 1a of the mold coil 1, when a current having a very high value is applied to the saddle coil 1, the saddle coil 1 generates heat by the applied high current. Since each of the coils of the saddle-shaped coil 1 is fusion-coupled by the generated heat, it has a form of a fixed saddle-shaped coil 1. Here, reference numeral 3 is a guide hole for fixing and mounting the winding frame 2 to the main frame.

Here, the cross section of the saddle-shaped coil 1 as shown in FIG. 4 results in winding more coils in the lower portion 1b than in the upper portion 1a, which is shown in FIG. As described above, it is for generating a pin cushion magnetic field from the saddle coil 1.

However, in the case as described above, the attraction between the coils in the process of fusion bonding by applying a high current to the wound saddle-shaped coil (1), the portion of the coil is wound more than the attraction generated in the portion of the coil winding Since the attraction force is higher than that in FIG. 6, the coil wound around the upper portion 1a of the saddle-shaped coil 1 is biased toward the lower portion 1b. That is, the loss portion 4 is generated in the upper portion 1a, and the coil for the loss portion 4 moves to the lower portion 1b, so that the gain portion 5 has a very large density. The coil is fusion bonded.

In this case, in the saddle type coil, as shown in FIG. 7, a sudden pincushion magnetic field is generated, and there is a problem that a deflection yoke having different characteristics is produced with respect to the deflection yoke in the initial design.

The present invention is to solve the above problems, an object of the present invention is to form a stepped portion of a predetermined shape on the upper side of the winding frame, winding the auxiliary coil in this stepped portion connected in series to the upper side of the saddle-shaped coil Thus, when a predetermined current is applied to the saddle-type coil, a predetermined current is also applied to the auxiliary coil wound on the upper side of the winding frame so that the same attraction force to the lower portion of the saddle-type coil is generated on the upper side of the saddle-type coil. To provide a winding frame.

In addition, another object of the present invention, the auxiliary coil for supplying a predetermined force on the upper side of the saddle-type coil so that the same size attraction force acts on the upper side and the lower side of the saddle-type coil when winding the saddle-type coil using a winding frame To provide a coil winding method using a winding frame wound on the upper side of the winding frame to be connected in series with the upper side of the saddle-shaped coil.

A characteristic of the winding frame according to the present invention for achieving the above object is, in the winding frame for winding the upper side of the saddle-shaped coil for deflection yoke, the upper portion, that is, predetermined along the portion of the winding side of the saddle-shaped coil A stepped portion formed in a shape; The auxiliary coil is wound at a predetermined number of times so as to be connected in series with the saddle-shaped coil and the current is provided with an auxiliary coil which prevents the upper portion of the saddle-shaped coil from being deflected downward.

In addition, a feature of the saddle-type coil winding method using a winding frame according to the present invention, the auxiliary coil is wound a predetermined number of times on the stepped portion formed on the upper side of the winding frame; Saddle coils connected in series with the auxiliary coil are wound along the outer circumferential surface of the winding frame so that when a predetermined current is applied to the saddle coil and the auxiliary coil, an attraction force of the same size as that generated at the bottom of the saddle coil is generated at the upper part. In other words, the upper part is prevented from bending deformation toward the lower part.

Hereinafter, a preferred embodiment of a winding frame and a saddle coil winding method using the same according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 8 is a perspective view showing an embodiment of a winding frame according to the present invention, and FIG. 9 is a rear cross-sectional view of the winding frame shown in FIG. 8, the same reference numerals as in FIG. 8 in FIG. Since the same parts are shown, description thereof will be omitted, and only essential components of the present invention will be described.

8 and 9, a stepped portion 6 of a predetermined shape is formed on the upper side of the winding frame 2 winding the upper portion 1a of the saddle-shaped coil 1, and the stepped portion ( 6, the auxiliary coil 7 connected in series with the saddle-shaped coil 1 was wound as many times as shown in FIG. Here, the winding frequency of the auxiliary coil 7 wound on the stepped portion 6 formed on the winding frame 2 is the saddle-shaped coil (1) when a predetermined current is applied to the saddle-type coil 1 and the auxiliary coil 7. The number of times the attraction force is generated by the difference between the attraction force generated in the lower portion 1b and the attraction force generated in the upper portion 1a so that the attraction force having the same size as the lower portion 1b of 1) acts on the upper portion 1a. It is preferable to wind with.

When a predetermined magnitude of current is applied to the saddle-shaped coil 1 wound on the winding frame 2 having such a configuration, this current is also applied to the auxiliary coil 7 through the saddle-shaped coil 1. Since the attraction force acts on the upper portion 1a of the saddle-shaped coil 1 by the sum of the attractive forces generated between the upper portion 1a of the saddle-shaped coil 1 and the auxiliary coil 7, the sum of the attraction values is It becomes the same as the attraction force generated in the lower portion 1b of the saddle-shaped coil 1.

Therefore, as shown in FIG. 6, the saddle-shaped coil 1 can be prevented from being fused and oriented in one direction.

11 is a perspective view showing another embodiment of the winding frame according to the present invention, and FIG. 12 is a rear cross-sectional view of the winding frame shown in FIG. 11, and FIGS. 8 and 11 in FIG. The same reference numerals in FIG. 9 denote the same parts, and thus descriptions thereof will be omitted and only essential components of the present invention will be described.

11 and 12, a groove 8 of a predetermined shape is formed at a point moved downward from the upper surface of the winding frame 2 by a predetermined distance, and the saddle-shaped coil 1 and The auxiliary coils 9 connected in series were wound at predetermined times. Here, as mentioned above, when the winding number of the auxiliary coil 9 wound on the groove 9 formed in the winding frame 2 is a predetermined current is applied to the saddle-shaped coil 1 and the auxiliary coil 9, The attraction force equal to the difference between the attraction force generated in the lower portion 1b and the attraction force generated in the upper portion 1a so that the attraction force having the same size as the lower portion 1b of the saddle-shaped coil 1 acts on the upper portion 1a. It is desirable to wind up as many times as it occurs.

Even in this case, the same effects as described in FIGS. 8 and 9 can be obtained.

As described above, according to the winding frame and the saddle coil winding method using the same according to the present invention, a stepped portion or a groove having a predetermined shape is formed along the upper side of the winding frame, and the auxiliary coil has a predetermined number of times on the stepped portion or the groove. This auxiliary coil is connected to the saddle coil in series so that a predetermined current is applied to the saddle coil in order to be fusion-bonded after winding the saddle coil, the same size as the attraction force generated at the bottom of the saddle coil. Since the attraction force of the saddle coil is generated at the upper side and the auxiliary coil at the same time to prevent the bias of the upper coil in one direction, there is an advantage that can produce a saddle coil of the same type as the saddle coil in the initial design.

Claims (2)

A winding frame for winding an upper side of a saddle-shaped coil for deflection yoke, comprising: a stepped portion formed in a predetermined shape along an upper portion, that is, a portion in which an upper side of the saddle-shaped coil is wound; A winding frame including an auxiliary coil wound around the stepped portion at a predetermined number of times so as to be connected in series with a saddle-type coil and applying an electric current so that the upper portion of the saddle-shaped coil is not deflected downward. Winding the auxiliary coil at a predetermined number of times on the stepped portion formed on an upper portion of the winding frame; The upper side of the saddle-type coil is wound along the outer circumferential surface of the winding frame so as to be connected in series with the auxiliary coil. When a predetermined current is applied to the saddle-type coil and the auxiliary coil, the attraction force of the same size as that generated in the lower portion of the saddle-type coil is increased. Saddle-type coil winding method using a winding frame that is generated from the side and the upper side is not bent to the lower side.