JPH0982235A - Cathode ray tube - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cathode ray tube capable of effectively suppressing color deviation generating in operation time without changing the total correcting amount set in design. SOLUTION: Pins 26a, 26b of a panel 1 are positioned in the places displaced by the specified distance from the central position in the X direction. When heated during operation, an aperture grille 11 moves in the X+ direction by the elongation of frames 22a-22d and that of supporting springs 24a-24d. At the same time, the aperture grille 11 moves in the X- direction by the same distance by the bending of a holder 25b, and the relative distance between the aperture grille 11 and the fluorescent screen is not changed as a whole.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cathode ray tube which suppresses color shift due to thermal expansion of color selection electrodes.

[0002]

2. Description of the Related Art For example, in a cathode ray tube or the like, an aperture grill with slits (color selection electrode) is attached to a frame, and color display is performed by this aperture grill. In such a cathode ray tube, the three electron beams emitted from the electron gun are deflected to scan the entire phosphor screen, but each electron beam is blocked by the color selection electrode, and only when it passes through the hole, the phosphor screen And the phosphors of the corresponding colors are irradiated.

By the way, in the cathode ray tube, during operation, the electron beam collides with the aperture grill to generate heat, and the temperature of the aperture grill rises. As a result, the aperture grill expands and moves from the installed normal position, and the relative positional relationship between the slit of the aperture grill and the phosphor changes, and in extreme cases, a color called temperature drift or doming. There will be a gap.

FIGS. 3A and 3B are diagrams for explaining the temperature drift. As shown in FIGS. 3A and 3B, in the cathode ray tube color selection electrode supporting device, the frame 2
Aperture grills are stretched with a and 2b at both ends, and supporting plate springs 4a, 4b, 4c and 4d are fixed to the frames 2a, 2b, 2c and 2d via holders not shown. The support leaf springs 4a to 4d are fixed to the inner surface of the panel (not shown). Here, in FIG.
As shown in (B), the axis Y is defined so as to pass through the positions of the supporting plate springs 4a and 4b fixed to the panel inner surface, and the axes of the supporting plate springs 4c and 4d pass through the position fixed to the panel inner surface. Define the axis X. When the temperature drift occurs, the movement of the Y axis in the X direction as shown in FIG. 3A is called center shift. For example, 3 pins or 3 + 1
It occurs in case of pin support. On the other hand, as shown in FIG. 3B, for example, the upper side of the X axis moves in the X ₋ direction and the lower side of the X axis moves in the X ₊ direction is called a center twist. Occurs in the case of support.

The amount X of center shift and center twist shown in FIGS. 3A and 3B is expressed by the following equation (1).

[0006]

## EQU00001 ## X = (frame extension)-(support plate spring extension) + (movement amount in X direction due to holder bending) (1) Conventionally, pin of panel to which support plate springs 4a and 4b are fixed Is provided near the center of the panel in the X direction, and in order to suppress the color shift as described above, the change in the position of the aperture grille in the X direction due to the thermal expansion is controlled by the thermal expansion of the support leaf springs 4a to 4d. The coefficient and the spacing between the pins provided on the inner surface of the panel were adjusted. That is, by determining the holder bending amount so that the center shift (twist) amount X defined by the above equation (1) becomes small, and adjusting the pin interval so as to generate this holder bending amount,
Suppresses color misregistration. Here, the pin interval means, for example, the interval between the panel pin to which the supporting plate spring 4a is fixed and the panel pin to which the supporting plate spring 4b is fixed in FIG. 3 (A), and the bending of the holder according to this interval. The amount is decided.

The amount of bending of the holder is adjusted after designing a mechanism for correcting the total correction amount. Here, the mechanism that corrects the total correction amount refers to the STC mechanism (bimetal spring holder and STC plate).

[0008]

However, in the above-mentioned conventional color selection electrode support device for a cathode ray tube, since the amount of bending of the holder is adjusted to suppress the occurrence of temperature drift, the amount of bending of the holder is adjusted. However, there is a problem in that the total correction amount changes, and as a result, the correction remains.

That is, since the holder bending amount affects the total correction amount, if the holder bending amount is changed after designing a mechanism for correcting the total correction amount,
Uncorrected portions will occur in the total correction amount by the designed mechanism. The present invention has been made in view of the above-mentioned problems of the conventional technique, and an object of the present invention is to provide a cathode ray tube capable of effectively suppressing the occurrence of color misregistration without changing the total correction amount.

[0010]

In order to solve the above-mentioned problems of the prior art and to achieve the above-mentioned object, a cathode ray tube according to the present invention comprises a frame in which stripe-shaped color selection electrodes are incorporated, and the frame. A cathode ray tube in which a supporting elastic member of a color selection electrode supporting portion having a fixed holder and a supporting elastic member fixed to the frame via the holder is fixed to a panel pin of a panel, When the tube is operated, in the direction orthogonal to the stripe direction of the color selection electrode, the sum of the extension of the frame and the movement amount due to the bending of the holder is approximately equal to the extension of the supporting elastic member. The panel pin is provided at a position deviated from the center position of the panel in the orthogonal direction by a predetermined distance.

Further, the cathode ray tube of the present invention is preferably
The displacement distance of the panel pin is determined in consideration of the length of the frame, the thermal expansion coefficient of the frame, the length of the supporting elastic member, the thermal expansion coefficient of the supporting elastic member, and the movement amount of the holder. The sum of the extension of the frame and the amount of movement of the holder due to bending is set to be substantially equal to the extension of the supporting elastic member.

When heat is applied to the color selection electrode supporting device during the operation of the cathode ray tube, the frame and the supporting elastic member extend in the direction orthogonal to the stripe direction of the color selection electrode,
The holder bends. As a result, in the orthogonal direction, the color selection electrode tries to move in the first direction by the sum of the distances corresponding to the extension of the frame and the bending of the holder, and the extension of the supporting elastic member changes to the first direction. Attempts to move in the opposite second direction.

In the cathode ray tube of the present invention, after designing a mechanism for correcting the total correction amount, in order to eliminate the positional deviation of the color selection electrodes in the orthogonal direction during the operation of the cathode ray tube, The panel pin is displaced from the center position of the panel in the orthogonal direction by a predetermined distance so that the sum of the extension of the frame and the amount of movement of the holder due to bending is substantially equal to the extension of the supporting elastic member. To adjust.

Therefore, in the cathode ray tube of the present invention, even if thermal expansion occurs during its operation, the relative positional relationship between the color selection electrode and the phosphor screen in the direction orthogonal to the stripe direction is determined by the frame extension and the holder. The influence of the movement amount due to the bending and the influence of the elongation of the supporting elastic member cancel each other out and do not change. As a result, the relative positional relationship between the color selection electrode and the phosphor screen in the orthogonal direction is constant before and after the operation of the cathode ray tube is started, and the occurrence of color misregistration is effectively suppressed.

Since the position of the panel pin does not affect the total correction amount, the total correction amount does not change even if the position of the panel pin is adjusted.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the cathode ray tube of the present invention will be described below. FIG. 4 is a schematic cross-sectional view of the cathode ray tube according to this embodiment. As shown in FIG. 4, the cathode ray tube has a panel 1 having a phosphor screen 2 formed on the inner surface thereof.
The panel 1 is fused with the funnel 3 by frit glass or the like. The inside of the space surrounded by the panel 1 and the funnel 3 is maintained at a high degree of vacuum, and the electron beam 8 is emitted from the electron gun 7 mounted on the neck of the funnel 3 to the panel 1.
The fluorescent screen 2 is scanned. An aperture grille 11 serving as a grid element body is arranged inside the panel 1 so as to face the phosphor screen 2 of the panel 1.

The aperture grill 11 is provided with slit-shaped electron beam passage holes. The edge of the aperture grill 11 is welded to the frame 22 while tension is applied to the aperture grill 11 in the slit direction of the electron beam passage hole. The tension is, for example, 30 on average.
The tensile stress of about 50 Kg / mm ² acts on the aperture grill 11. The reason why the tension is applied in this way is to prevent the position of the electron beam passage hole from changing due to thermal expansion during operation.

As shown in FIG. 4, behind the frame 22 (on the side of the electron gun), do not hinder the passage of the electron beam 8 and shield the influence of external magnetism such as geomagnetism from the outer circumference. The internal magnetic shield 6 is joined. The electron beam 8 emitted from the electron gun 7 passes through the electron beam passage hole of the aperture grill 11 and hits the center of the desired phosphor on the phosphor screen 2 at the landing point 9 to emit a predetermined color.

FIG. 1 is an external perspective view of a color selection electrode supporting device 20 for a cathode ray tube according to this embodiment. As shown in FIG. 1, the color selection electrode support device 20 includes frames 22a and 22a.
Aperture grill 11 is stretched with b at both ends,
Support plate springs 24b, 24c, and 24d are attached to the holders 25b, 25c, and 2 on the frames 22b, 22c, and 22d, respectively.
It is fixed via 5d. A support spring (not shown) is also fixed to the frame 22a via a holder. Support spring for frame 22a and support leaf spring 24b
~ 24d is a pin 26a provided inside the panel 1 ~
The color selection electrode support device 20 is fixed to the inner surface of the panel 1 by being mounted on the panel 26d. Here, as shown in FIG. 1, when the center line of the frames 22a and 22b is the Y axis and the center line of the frames 22c and 22d is the X axis, the supporting leaf springs and the supporting leaf springs 24b of the frame 22a are in the Y axis. On the other hand, it is located offset in the X _- direction. Further, the pins 26a, 26 of the panel 1 to which the color selection electrode supporting device 20 is fixed
b is displaced by a predetermined distance in the X ₊ direction with respect to the Y axis.

That is, in this embodiment, after the mechanism for correcting the total correction amount is designed, the pin 26 of the panel 1 is
By adjusting the positions of a and 26b in the X direction, the amount of “(frame extension) − (support leaf spring extension)” in the above-mentioned formula (1) is reduced by the center shift and the center twist amount X. To decide. Pins 26a, 2
The distance of 6b from the Y-axis is
2c, the thermal expansion coefficients of the frames 22a to 22d, the lengths of the supporting leaf springs 24b, 24c, 24d, etc., and the thermal expansion coefficients of the supporting leaf springs 24b, 24c, 24d, etc. .

In the cathode ray tube according to the present embodiment, the temperature of the aperture grill 11 rises during operation and thermal expansion occurs. However, in the cathode ray tube color selection electrode supporting device of the present embodiment, the aperture grill 11 and the fluorescent light are lit. The change in the relative position with respect to the surface 2 is suppressed. That is, when thermal expansion occurs in the color selection electrode supporting device 20 during the operation of the cathode ray tube, the frames 22a to 22d extend in the X direction in FIG.
The position of the aperture grille 11 in the X direction is determined by the expansion of 4a to 24d and the amount of movement due to the bending of the holder 25b and the like. At this time, the aperture grill 11
Tends to move in the X ₊ direction shown in FIG. 1 due to the expansion of the frames 22a to 22d, and the support spring 24a
It tries to move in the X _- direction by the extension of ~ 24d.
At the same time, the holder 25b and the like bend from the state at room temperature shown in FIG. 2A to the state at high temperature in FIG. 2B, whereby the aperture grille 11 tries to move in the X ₊ direction. To do.

Here, in the color selection electrode support device 20, in order to eliminate the positional deviation of the aperture grill 11 in the X direction at the time of thermal expansion, the lengths of the frames 22a and 22c, the thermal expansion coefficients of the frames 22a to 22d, and the support. Considering the lengths of the leaf springs 24b, 24c, 24d, etc., and the thermal expansion coefficients of the supporting leaf springs 24b, 24c, 24d, etc., the expansion of the frames 22a to 22d and the holder 25b.
Etc., the total amount of movement due to bending, and the support springs 24a to 24a.
so that the extension of d is equal to the pin 26a of the panel 1,
The position of 26b in the X direction is determined.

Therefore, according to the color selection electrode supporting device 20, even if thermal expansion occurs during the operation of the cathode ray tube, the relative positional relationship between the aperture grill 11 and the fluorescent screen 2 in the X direction is from the frame 22a to the frame 22a. 22d and the influence of the movement amount due to the bending of the holder 25b and the like, and the supporting leaf spring 24.
The influences of the elongations of a to 24d cancel each other out and do not change. As a result, the relative positional relationship between the aperture grille 11 and the fluorescent screen 2 in the X direction becomes constant before and after the operation of the cathode ray tube, and the occurrence of color misregistration is effectively suppressed.

Further, in this embodiment, after designing the mechanism for correcting the total correction amount, the pin 26 of the panel 1 is
Even if the positions of a and 26b in the X direction are changed, pin 2
Since the positions of 6a and 26b do not affect the total correction amount, the total correction amount does not change.

As described above, according to the cathode ray tube of this embodiment, the slits of the aperture grille 11 and the phosphor screen 2 can be relative to each other before and after the operation of the cathode ray tube is disclosed without changing the total correction amount at the time of design. It is possible to maintain a constant positional relationship and effectively suppress the occurrence of color misregistration.

In addition, in the above-described embodiment, the panel of the panel 1 is
X with respect to the Y axis. ₊A certain distance in the direction
The case where the pins 26a, 2 are displaced is illustrated.
The position of 6b depends on the length of the frames 22a and 22c and the frame.
Coefficient of thermal expansion of the frames 22a to 22d, the supporting leaf springs 24b, 2
4c, 24d, etc., and support leaf springs 24b, 2
Depending on the coefficient of thermal expansion such as 4c, 24d, etc.,
Then X_-You may shift in the direction.

[0027]

As described above, according to the cathode ray tube of the present invention, the total correction amount at the time of design can be changed without changing.
Before and after the operation of the cathode ray tube is disclosed, the relative positional relationship between the color selection electrode and the phosphor screen can be kept constant, and the occurrence of color misregistration can be effectively suppressed.

[Brief description of drawings]

FIG. 1 is an external perspective view of a color selection electrode support device for a cathode ray tube according to an embodiment of the present invention.

FIG. 2 is a partially enlarged view of a color selection electrode supporting device for the cathode ray tube shown in FIG.

FIG. 3 is a diagram for explaining temperature drift occurring in a color selection electrode supporting device of a cathode ray tube.

FIG. 4 is a schematic sectional view of a cathode ray tube according to an embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Panel 11 ... Aperture grill 20 ... Color selection electrode support device 22a-22d ... Frame 24b-24d ... Support spring 25b, 25c ... Holder 26a-26d ... Pin

Claims (2)

[Claims] 1. A color selection electrode support portion having a frame incorporating a stripe-shaped color selection electrode, a holder fixed to the frame, and a supporting elastic member fixed to the frame via the holder. A cathode ray tube in which the supporting elastic member is fixed to a panel pin of a panel, and when the cathode ray tube operates, in a direction orthogonal to a stripe direction of the color selection electrode, a movement amount due to extension of the frame and bending of the holder. A cathode ray tube in which the panel pin is provided at a position deviated from the center position of the panel in the orthogonal direction by a predetermined distance so that the total sum of the above and the elastic elastic member is substantially equal to the extension of the supporting elastic member. 2. The distance of the displacement of the panel pin is the length of the frame, the thermal expansion coefficient of the frame, the length of the supporting elastic member, the thermal expansion coefficient of the supporting elastic member,
The amount of movement of the holder is taken into consideration, and the sum of the amount of movement of the frame and the amount of movement due to the bending of the holder is set to be substantially equal to the amount of extension of the supporting elastic member. Cathode ray tube.