• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A cathode-ray tube includes a shadow mask mounted therein. The mask has curvatures along its major and minor axes. The curvature along the major axis is greater at the sides of the mask than at the center of the mask.
    公开号:SU1713449A3
    申请号:SU843707440
    申请日:1984-02-24
    公开日:1992-02-15
    发明作者:Роуланд Рэгланд Фрэнк (Младший)
    申请人:Рка Корпорейшн (Фирма);
    IPC主号:
    专利说明:

    of the three electron beams 13 along the coplanar Descent trajectories through the mask 10 to the screen 9. The electron gun may have a triangular or delta configuration.
    The tube 1 is made for use with an external magnetic deflecting coil, for example a coil 14 located around the circumference of the neck 4 and cone 5 in close proximity to their connection to deflect three beams 13 vertically and horizontally by magnetic flux in order to scan the beams horizontally in the direction of the larger axes (XX) and verticals in the direction of the minor axis (YY), respectively, in a rectangular raster on the screen 9.
    The contour of the front glass panel 3 (Fig. 2) forms a rectangle with slightly curved sides.
    The peculiarity of the contours on the smaller axis (Y-Y). the major axis (XX) and the diagonal are shown in FIG. 3, 4 and 5 respectively; The contours of the outer surface of the front glass panel 3 along the at least the axis, the major axis and the diagonal are shown in FIG. 6. The outer surface of the front glass panel 3 has curvature both at least and along major axes, and the curvature along the smaller axis is greater than the curvature along the major axis at least in the central portion of the panel 3. The curvature of the surface along the diagonal is chosen to be even transition between different curvatures along the lesser and larger axes. In a preferred embodiment, the curvature along the lesser axis is at least 4/3 times the curvature along the major axis at least in the central part of the front glass. Preferably, the contour along the diagonal has at least one sign of the change in its second deflection when moving along the front glass from the center to the corner (Figs. 5 and 6).
    Due to the unevenness of the curvature along the smaller and larger axes and along the diagonal, the height A of the panel of the hollow cylinder 7 can be made constant around the contour of the surface of the panel 3, as shown in FIG. 3-5 In order to achieve such a constant height of the hollow cup, it is necessary to properly align the contour of the front glass between the edges of the screen and the hollow cylinder. If such an alignment presents difficulties, the height of the hollow cylinder will vary slightly along the contour of the tube in the form of teeth, i.e., it will be slightly higher diagonally with respect to the ends of the larger
    and lesser axes. The invention offers two variants of a hollow cylinder.
    Due to the difference in curvature along the smaller and larger axes of the point on the outer surface of the panel, opposite edges of the screen 9, virtually all lie in the same plane P. These planar points when viewed from the front glass panel 3, as shown in FIG. 2,
    form a contour line on the outer surface of the panel, which represents a rectangle superimposed on the edges of the screen 9. Consequently, when the tube 1 is placed in a television receiver, near the tube
    A frame or window with a border of the same width can be used. The edges of such a window, in contact with the tube along the line of the rectangular contour, are also in the plane P. Since the border of the image contour appears to be visually planar, the image appears to be flat in spite of the fact that the front glass panel has a curvature of at least so
    more os m
    In one embodiment of the tube, the front glass panel is formed of two smoothly connected cylindrical surfaces, the axes of which are perpendicular.
    The races of the two cylindrical surfaces are chosen in such a way that when two surfaces form a line in the center of the panel, there is a plane perpendicular to the Z axis, which intersects
    surface and forms a right angle when crossing it. To determine the geometric parameters of the surface contour of the panel along the smaller and larger axes, the following equality can be applied:.
    RI -1/2 V4R | -I R2-1 / 2 V4R - | G
    where RI is the radius of curvature along the major (X) axis;
    R2 is the radius of curvature along the lesser (Y) axis;
    li is the cord length of the panel along the larger (X) direction of the Axis;
    12 is the cord length of the panel along the smaller (Y) axis direction.
    The actual contour of the panel is represented by segments of circles parallel to the XZ plane and having radii varying from one magnitude on the X axis to a relatively large value at the ends of the smaller axis, and segments of circles parallel to the YZ plane and having radii varying from the other magnitude on the Y axis to another relatively large value at the ends of the major axis. The radius on the minor axis (Y) is smaller than the radius on the major axis (X), as a result of which the curvature along the minor axis is greater than the curvature along the major axis.
    The radii of the circular segments at the ends of the major and minor axes are significantly larger, such that when the front glass is at normal distances from the viewer, the front glass portions on the edges of the screen are straight lines. Such radii can be infinite, as a result of which the border of the panel contour will be really flat, or very Long, as a result of which the sides of the contour will slightly deviate from the plane, but will nevertheless be considered flat.
    The contour of the inner surface of the front glass 6 of the panel 3 is slightly different from the contour of the outer edge, because the thickness of the front glass should be increased by a certain amount of thickening, as shown in fig. 5. Consequently, the thickness of the front glass 6 increases from its center to its edges. In most variants, thickening along the minor axis (Y-Y). occurs by an amount greater than the thickening along the major axis (XX). The magnitude of the impacted bulge is determined by the tube size and other design considerations. Usually the required thickening is 1-3 mm. In another embodiment, it is considered desirable to have a front glass panel that is thicker at its corners than at the ends of its larger and smaller axes.
    The curvature of the black mask 10 is somewhat parallel to the curvature of the inner surface of the front glass 6.
    A change in the curvature of the frontal glass surface of another cathode ray tube variant is shown in FIG. 7. In this variant, the curvature along the minor axis is the same as the curvature in the variant on fig. 6. However, the curvature along the major axis is much smaller in the central portion of the front glass and increases near its edges. In this embodiment, the curvature of the major axis near the edges of the front glass is higher than the usual curvature of the bd, the smaller axis, and the central part of the front glass becomes smoother, since the points on the outer surface of the front glass on the edges of the screen actually remain in the P plane and determine
    a rectangular contour line, as in the above embodiment.

    Appropriate shadow mask for the cathode ray front glass panel
    tube (Fig. 7) is somewhat similar to the contour of the panel. The contour of such a shadow mask can usually be obtained by delineating the curvature along the major axis (X) (approximately 75% of the major axis is taken as the large circle radius, and the remainder of the larger axis is used as the smaller circle radius). The curvature parallel to the minor axis (Y) is, for example,
    to smoothly fit the curve of the major axis to the desired contour of the mask, and may include changing the curvature that is used along the major axis.
    FIG. 8 depicts one of the options
    shadow mask 10. The dashed lines 15 show the boundary of the rectangular perforated working section of the mask Y. The surface contours along the major axis (X) and the lesser axis (Y) in mask 10 are shown by curves a and b (Fig. 9). Mask 10 has curvature
    along the major axis different from the curvature
    along its lesser axis. The contour along the major axis has a slight curvature near
    center of the mask and greater curvature on the sides. The mask of such a contour shows some improved dome-shaped characteristics due to the increased curvature near the ends of the major axis.
    Alternatively, the shadow mask has similar curvature along the major and minor axes in the central part of the mask, but greater curvature at the edges of the major axis. The curvature along the edges of the mask that
    parallel to the major axis, less along the sides of the mask compared with the curvature along the major axis. As shown in FIG. 10, the second derivative of the contour 16 along the minor axis is opposite in sign to this second derivative of the contour 17 along the sides of the mask, which are parallel to the minor axis. As with the above-described front glass panels, the contours along the diagonals of the shadow mask should be smooth to compensate for the various curvatures. This alignment will result in a contour from the center to the corner along the diagonal, which has at least one sign of change in its second
    derivative.
    The invention is applicable to a wide range of cathode ray tubes, including a shadow mask of color kinescopes with linear or point screen types.
    权利要求:
    Claims (1)
    [1]
    Claims of the invention The cathode ray tube, containing a rectangular front panel and a rectangular shadow mask with a rectangular perforated working section, is installed inside the front panel, while the outer surface of the front panel and the shadow mask are non-spherical with different curvature along the larger and smaller axes , and the surface of the shadow mask is equidistant to the internal surface
    front panel, about aphids and so what. In order to improve the image quality by reducing color misalignment at the edge of the screen, the curvature of the outer surface of the front panel along the major axis is not constant, the thickness of the front panel increases from the center to the edges, while the thickness gain along the major and minor axes is different the major axis in the center is smaller than near the short sides of the perforated work area.
    (fusZ
    & -S
    fig
    Yr
    SrigZ
    srig 6
    FIG. 7
    at
    FIG. 8
    gju2.d
    FIG. ten
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    同族专利:
    公开号 | 公开日
    IT8419627D0|1984-02-15|
    BR8400834A|1984-10-02|
    KR900005538B1|1990-07-31|
    GB2136200B|1986-09-24|
    CA1210803A|1986-09-02|
    IT1174491B|1987-07-01|
    US4839556A|1989-06-13|
    DE3406786C2|1991-03-07|
    MX155866A|1988-05-13|
    CS111884A2|1989-10-13|
    HK62687A|1987-09-04|
    GB2136200A|1984-09-12|
    KR840008080A|1984-12-12|
    DD212357A5|1984-08-08|
    DE3406786A1|1985-01-31|
    PL246357A1|1984-10-22|
    FR2541817A1|1984-08-31|
    FR2541817B1|1986-10-31|
    PL147578B1|1989-06-30|
    CS269955B2|1990-05-14|
    GB8404606D0|1984-03-28|
    JPS59163737A|1984-09-14|
    JPH043619B2|1992-01-23|
    引用文献:
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    JPS5836813A|1981-08-27|1983-03-03|Mitsubishi Electric Corp|Feed control circuit of material feeder|
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    FR2634945B1|1988-07-27|1996-04-26|Videocolor|METHOD FOR MANUFACTURING A HIGH DEFINITION COLOR TELEVISION TUBE AND HIGH DEFINITION TRICHROME TELEVISION TUBE|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    US06/469,772|US4839556A|1983-02-25|1983-02-25|Cathode-ray tube having an improved shadow mask contour|
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