JP2007095554A - Deflection yoke - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a deflection yoke capable of not only performing coma aberration (VCR) correction in vertical direction but also realizing cost reduction by reducing the number of components and assembly processes at manufacturing. <P>SOLUTION: The deflection yoke is installed at a neck part of a color picture tube having an in-line type electron gun 104 and has a pair of horizontal deflection coils 61, 62 and a pair of vertical deflection coils 71, 72 arranged at the outside of the horizontal deflection coils. The deflection coil has a pair of arc-shape magnetic strips 8A, 8B which are provided so as to be bridged between the pair of vertical deflection coils at the outside of the pair of vertical deflection coils with the horizontal deflection axis as an axis of symmetry. Therefore, reduction of the number of components and assembly processes at the manufacturing can be realized, while VCR correction is carried out. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a deflection yoke used in a color picture tube (hereinafter also referred to as “CRT”) such as a television receiver or a display device.

  An image display device using an in-line type color picture tube in which a plurality of electron guns are arranged in-line forms R (red), G (green), B emitted from in-line electron guns arranged in a line along a horizontal deflection axis. The screen is formed by deflecting the three (blue) electron beams in the horizontal and vertical directions by the deflection yoke. Of course, the three electron beams must be concentrated on one point on the phosphor screen, but generally the distance from the center of deflection differs between the center of the screen and other parts, so the concentration of the beam varies depending on the part of the screen. Deviation of convergence occurs. In order to improve this, a deflection yoke having self-convergence correction has been proposed. This has a pair of upper and lower horizontal deflection coils and a pair of left and right vertical deflection coils. The horizontal deflection magnetic field distribution by the horizontal deflection coil as a whole is a pincushion type, and the vertical deflection magnetic field distribution by the vertical deflection coil is configured to be a barrel shape, so that the deviation of convergence is theoretically zero. This is a deflection yoke.

However, in reality, there are restrictions on the structure of the cathode ray tube and the structure of the deflection yoke, and manufacturing variations, and it is difficult to obtain the theoretical characteristics. Therefore, in reality, various forms of convergence deviation (hereinafter also referred to as “misconvergence”) occur.
In the self-convergence magnetic field distribution, the shift of the center beam raster of the three electron beams to the inside is called coma aberration, and the vertical coma aberration is called VCR. This VCR convergence pattern is shown in FIG. FIG. 5 is a diagram showing a convergence pattern of the VCR on the screen, where the R and B lines overlap on the same line, while the G line is displayed at a position deviating from those lines. This VCR is difficult to correct only by the magnetic field distribution of the vertical deflection coil. Therefore, in order to correct this VCR, generally, a coma coil is used as an additional coil to obtain a good convergence characteristic (for example, Patent Document 1).

  FIG. 6 is an external view showing the coma coil attached to the neck portion of the deflection yoke. In FIG. 6, the core 9 is provided on the outer periphery of the vertical deflection coils 71 and 72, and the base plate 2 is provided at the neck portion which is the base end portion of the vertical deflection coils 71 and 72 so as to be orthogonal thereto. Yes. A pair of top coils 4 and 6 are attached to the base plate 2 so as to face each other. In general, the top coils 4 and 6 are formed by winding the electric wires 21 and 22 around the U-shaped cores 11 and 12, respectively, and a pair of upper and lower is attached to the neck portion of the deflection yoke.

  FIG. 7 is a view of the neck portion of the deflection yoke as viewed from the CRT screen side. In FIG. 7, the facing direction of the coma coil 6 is the Y direction, and the direction orthogonal thereto is the X direction. When the CRT is deflected upward, a vertical deflection current is caused to flow in the directions indicated by arrows 31 and 32 through the electric wires 21 and 22 of the U-shaped cores 11 and 12, respectively. At this time, pin-cushion magnetic fields 11A and 12A are respectively generated from the U-shaped cores 11 and 12, and the B, G, and R electron beams 41, 42, and 43 are shown in the figure by the pin cushion magnetic fields 11A and 12A. Are deflected by receiving upward forces 51, 52, 53 respectively. At this time, the G electron beam 42 located in the middle receives a stronger force than the B and R electron beams 41 and 43 located on both sides, thereby correcting the VCR shown in FIG. it can. That is, the G line in FIG. 5 can be matched with the R / B line.

Japanese Utility Model Publication No. 53-134622

By the way, although the VCR correction structure provided with the pair of top coils 4 and 6 as described above can correct the VCR, as described above, the winding work of the electric wires 21 and 22 around the U-shaped cores 11 and 12 is performed. The number of parts and the number of assembly steps during production increase, such as the work of attaching the core coils 4 and 6 to the deflection yoke, the wiring work, etc., leading to higher costs and lower productivity. There was a problem.
The present invention has been devised to pay attention to the above problems and to effectively solve them. An object of the present invention is to provide a deflection yoke that can not only perform VCR correction, but also reduce the number of parts and the number of assembly steps during production to reduce costs.

  The invention according to claim 1 is attached to a neck portion of a color picture tube having an in-line type electron gun, and has a pair of horizontal deflection coils and a pair of vertical deflection coils arranged outside the horizontal deflection coils. The deflection yoke has a pair of arc-shaped magnetic pieces provided outside the pair of vertical deflection coils so as to be spanned between the pair of vertical deflection coils with a horizontal deflection axis as a symmetry axis. This is a characteristic deflection yoke.

  According to the deflection yoke of the present invention, the convergence is made such that the outer periphery (outside) of the vertical deflection coil in the neck portion of the color picture tube is spanned between the pair of vertical deflection coils, and the horizontal deflection axis is the symmetry axis. Since a pair of arcuate magnetic pieces for improvement are provided, not only can VCR correction be performed, but also the number of parts and the number of assembly steps during production can be reduced, thereby reducing costs.

Hereinafter, an embodiment of a deflection yoke according to the present invention will be described in detail with reference to the accompanying drawings.
1 is an external view showing a deflection yoke according to the present invention, FIG. 2 is a perspective view showing the main part of the deflection yoke of the present invention, FIG. 3 is a partially enlarged perspective view of the deflection yoke for explaining the action of the magnetic piece, 4A and 4B are explanatory views for explaining the action of the magnetic piece when the deflection yoke is deflected. FIG. 4A shows the action when the upper deflection is performed, and FIG. 4B shows the action when the lower deflection is performed.

As shown in FIG. 1, the deflection yoke 102 is provided along the outer periphery of a color picture tube 104 (indicated by a one-dot chain line in FIG. 1) having an in-line type electron gun. The diameter of the base end portion of the color picture tube 104 is successively reduced to form a neck portion 104A, and the opposite end portion is a screen (not shown) made of a phosphor screen.
The deflection yoke 102 provided on the outer periphery of the color picture tube 104 is composed of a pair of horizontal deflection coils 61 and 62 and a pair of vertical deflection coils provided on the outer side (outside) via a substantially funnel-shaped insulating frame. 71, 72. In FIG. 1, the description of the insulating frame is omitted for easy understanding. As a matter of course, the horizontal deflection coils 61 and 62 and the vertical deflection coils 71 and 72 are different in the division position by 90 degrees. A core 9 is attached to the outer periphery of the central portion of the vertical deflection coils 71 and 72. Further, as shown in FIG. 2, the base end portions of the vertical deflection coils 71 and 72 are formed as rear flange bend-up portions 71Y and 72Y by bending outward at an angle of approximately 90 degrees in a flange shape. Here, the rear flange bend-up portions 71Y and 72Y are surfaces perpendicular to the tube axis direction of the color picture tube 104.

  A pair of circular arcs for improving convergence are arranged on the outer periphery of the vertical deflection coils 71, 72 between the pair of vertical deflection coils 71, 72, and the horizontal deflection axis (X axis) is an axis of symmetry. The magnetic pieces 8A and 8B which are the features of the present invention are provided. In FIGS. 1 to 3, only one magnetic piece 8A is shown.

  Specifically, at the positions close to the rear flange bend-up portions 71Y and 72Y on the side surface portions 71Z and 72Z of the vertical deflection coils 71 and 72, which are surfaces along the tube axis direction of the color picture tube 104, The pair of magnetic pieces 8A and 8B (see FIG. 4) are provided so as to face each other. That is, as described above, the magnetic pieces 8A and 8B are stretched between the vertical deflection coils 71 and 72 so as to straddle a slight gap formed between the pair of vertical deflection coils 71 and 72. . As the magnetic pieces 8A and 8B, for example, a silicon steel plate or the like is used. The size of the magnetic pieces 8A and 8B is, for example, about 24 mm × 5 mm in length × width, but is not particularly limited to this size.

Next, the operation of the deflection yoke with the pair of magnetic pieces 8 attached as described above will be described.
FIG. 3 is an enlarged view of the vertical deflection coils 71 and 72 of the deflection yoke on the neck side of the color picture tube. When deflecting upward on the screen of the color picture tube, currents flowing through the vertical deflection coils 71 and 72 flow in the directions indicated by arrows 31Z and 32Z at the side surfaces 71Z and 72Z of the vertical deflection coils 71 and 72, respectively, and the rear flange bends. The up portions 71Y and 72Y flow in directions indicated by arrows 31Y and 32Y, respectively.

  At this time, due to the currents flowing in the directions indicated by the arrows 31Z and 32Z, magnetic fields 71Zφ and 72Zφ are generated around the side portions 71Z and 72Z, respectively, and these magnetic fields 71Zφ and 72Zφ are combined to form the magnetic piece 8A. Magnetization is performed in the direction indicated by the arrow 100. Further, in the rear flange bend-up portions 71Y and 72Y, magnetic fields 71Yφ and 72Yφ are generated around the current by the currents flowing in the directions indicated by the arrows 31Y and 32Y in the rear flange bend-up portions 71Y and 72Y, respectively. 72Yφ is synthesized to further magnetize the magnetic piece 8A in the direction indicated by the arrow 100.

As described above, the magnetic piece 8A is synergistically magnetized by the current flowing through the side surface portions 71Z and 72Z and the rear flange bend-up portions 71Y and 72Y of the vertical deflection coils 71 and 72. Therefore, the convergence correction (improvement) effect can be further increased by bringing the magnetic piece 8A closer to the rear flange bend-up portions 71Y and 72Y. The effect on the magnetic piece 8A is similarly generated on the other magnetic piece 8B.
FIG. 4 is a diagram for explaining the situation shown in FIG. 3 in more detail, and shows a Z-axis sectional view of the vertical deflection coils 71 and 72 and the magnetic pieces 8A and 8B as viewed from the screen side of the color picture tube. In addition, description of other components, such as a horizontal deflection coil, is abbreviate | omitted here.

FIG. 4A shows the time of deflection upward, and FIG. 4B shows the time of deflection downward. In FIG. 4A showing the upward deflection, the magnetic pieces 8A and 8B magnetized by the magnetic fields 71Zφ, 71Yφ, 72Zφ and 72Yφ generated by the vertical deflection coils 71 and 72 are respectively the central axes of the color picture tubes. The pincushion magnetic fields 8Aφ and 8Bφ are generated so as to go in the circumferential direction.
Due to the pincushion magnetic fields 8Aφ and 8Bφ, the G electron beam 42 located at the center (central part) of the three electron beams is higher than the B and R electron beams 41 and 43 located on both sides thereof. It receives a strong force in the direction, and is deflected more upward in the CRT screen. As a result, coma aberration (VCR) can be corrected by deflecting the G line upward to the same position as the other R and B lines on the screen as shown in FIG. This also applies to the downward deflection as shown in FIG.

  In the case shown in FIG. 4B, the direction of the flowing current is opposite to that in the case of FIG. 4A. Therefore, the directions of the generated pincushion magnetic fields 8Aφ and 8Bφ are also shown in FIG. The direction is the opposite of the case of A). Accordingly, the pin electron magnetic field 8Aφ, 8Bφ causes the G electron beam 42 located at the center (central part) of the three electron beams to be from the B and R electron beams 41, 43 located on both sides thereof. Will also receive a strong force in the downward direction, and will be deflected more downward in the CRT screen. As a result, coma aberration (VCR) can be corrected by deflecting the G line downward to the same position as the other R and B lines on the screen as shown in FIG.

  As described above, the deflection yoke of the present invention can correct coma aberration (VCR) without using a conventional coma coil by attaching an arc-shaped magnetic piece to the neck of the vertical deflection coil. The number of parts of the deflection yoke and the number of assembly steps can be reduced, and a low-cost deflection yoke can be provided.

It is an external view which shows the deflection | deviation yoke which concerns on this invention. It is a perspective view which shows the principal part of the deflection | deviation yoke of this invention. It is a partial expansion perspective view of the deflection yoke for demonstrating the effect | action of a magnetic piece. It is explanatory drawing explaining the effect | action of the magnetic piece at the time of deflection | deviation of a deflection | deviation yoke. It is a figure which shows the convergence pattern of VCR on a screen. It is an external view which shows the coma coil attached to the neck part of the deflection | deviation yoke. It is the figure which looked at the neck part of the deflection yoke from the CRT screen side.

Explanation of symbols

8A, 8B ... Magnetic piece, 11, 12 ... U-shaped core, 11A, 12A ... Pin cushion magnetic field, 41, 42, 43 ... Electron beam, 61, 62 ... Horizontal deflection coil, 71, 72 ... Vertical deflection coil, 71Y , 72Y ... rear flange bend-up portion, 104 ... color picture tube, 104A ... neck portion.

Claims (1)

In a deflection yoke having a pair of horizontal deflection coils and a pair of vertical deflection coils disposed outside the horizontal deflection coil, attached to the neck portion of a color picture tube having an in-line type electron gun,
A deflection having a pair of arc-shaped magnetic pieces provided outside the pair of vertical deflection coils so as to be spanned between the pair of vertical deflection coils with a horizontal deflection axis as an axis of symmetry. yoke.

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