KR950002691Y1 - Supporting structure for mask frame - Google Patents

Abstract

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Description

Mask Frame Support

1 is a partial cross-sectional view showing a mask frame support according to the present invention.

2 is a view showing an embodiment according to the present invention.

3 is a partial cross-sectional view showing the configuration of a typical cathode ray tube.

4 and 5 are partial cutaway sectional views showing a conventional mask frame support.

* Explanation of symbols for main parts of the drawings

1 panel 6 shadow mask

7: frame 8: support

61: skirt

The present invention relates to a mask frame support for a cathode ray tube, and more particularly, to a support for mounting a shadow mask structure on a stud pin located at the corners of a rectangular panel in a large cathode ray tube to which an invar material shadow mask is applied. will be.

The configuration of a conventionally known shadow mask type cathode ray tube will be described with reference to FIG. 3 as follows.

A valve formed by integrally joining the panel 1 to the panel 2 and the neck 3 is an outer container, and inside the R, G, and B fluorescent films 4 on the inner side of the panel 1, respectively. The shadow mask structure 5 is disposed at a predetermined distance from the fluorescent film 4, and the electron gun 6 is disposed inside the neck 3 to emit R, G, and B electron beams on the fluorescent film. This arrangement makes one cathode ray tube.

In addition, the shadow mask structure (5) has a plurality of apertures through which the electron beam passes and consists of a shadow mask (6) made of an invar material and a frame (7) supporting the same, and the corners of the frame (7) To the support 8 is coupled.

As a method of mounting such a shadow mask structure 5 in a cathode ray tube, a method of suspending a support 8 disposed on a corner outer circumferential surface of a corner of a frame 7 to a stud pin 9 provided at a diagonal portion inside a panel. This was raised.

The conventional supporter will be described in more detail with reference to FIG. 4, and the weld 10 coupled to the corners of the frame 7 supporting the shadow mask 6 and the stud pins 9 from the weld 10. It consists of a bent portion 11 bent at an angle α in an approximately 'V' shape and a support portion 12 suspended on the stud pins 9 of the panel.

Here, if the deflection angle from the electron gun to the effective surface of the shadow mask 6 is β, the support is fixed to the stud pins 9 of the panel such that α + β = 90 °. According to this method, when the shadow mask 6 and the frame 7 are thermally expanded, the support 8 is bent and thus the shadow mask 6 expands in the direction of the fluorescent film 4, so that color reproduction error is caused. It is corrected.

On the other hand, according to the trend of large-sized cathode ray tube, not only the entire shadowing of the shadow mask, but also the problem of local doming has been seriously raised. In order to overcome this problem, the recent large cathode ray tube is applying the shadow mask of Inba materials.

The coupling structure of the Invar material shadow mask and the frame in the large cathode ray tube is shown in FIG. The shadow mask 6 shown here is manufactured by the warm press method of a plate material of Invar material having low thermal expansion and high yield strength. The skirt portion bent almost perpendicularly to the effective part of the shadow mask on which the aperture is formed ( 61 is inserted into the frame 7 and engaged at a predetermined position.

Here, the shadow mask 6 of the invar material has a high yield strength, and even after the pressing process, as shown, the gap of the skirt portion 61 appears to be quite large, so that the welding point with the frame 7 is lowered. It was desirable to move to adjust the angle of thermal compensation.

However, since the difference between the coefficients of thermal expansion of the shadow mask 6 and the frame 7 is approximately 10 times, the thermal expansion starts when the cathode ray tube is operated, the shadow mask and the frame are shown as the virtual line 14 shown. Thermal expansion, the flare angle θ ₁ of the skirt 61 is increased to θ ₂ and there is a disadvantage that the curvature change of the shadow mask occurs.

Accordingly, an object of the present invention is to overcome the above-described problems, and the mask frame support of the cathode ray tube improved to minimize the compensation angle error and the deformation of the shadow mask due to the difference in the thermal expansion coefficient of the shadow mask and the frame. To provide.

In order to realize the above object, the present invention provides a shadow mask composed of an opening angle θ of the skirt portion and an electron beam passing through the outermost aperture from the central axis and a deflection angle β to the panel by a support having an inclination angle α. In addition, the present invention proposes a mask frame support of a cathode ray tube in which the deflection angle β of the electron beam and the inclination angle α of the support are 65 ° <α + β <80 °.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a partial cross-sectional view showing a support according to the present invention. As can be seen from the drawing, the present invention considers the opening angle θ of the predetermined skirt portion 61 and the frame of the electron beam passing through the outermost aperture from the central axis to have the predetermined angle β. And a mask frame support 8 including a shadow mask 6 coupled to the frame 7 and an inclination angle α between the welding surface of the frame 7 and the bent portion bent toward the panel.

In addition, the mask frame support 8 is suspended on the corner pin 9 as in the prior art to mount the shadow mask structure including the shadow mask, the frame and the mask frame support to the panel.

Here, the support structure of the present invention is different from the suspension of the conventional support to the stud pin 9 of the panel such that α + β = 90 °, the opening angle θ of the skirt portion 61 of the Invar shadow mask 6 In consideration of the above, it is designed to minimize the compensation angle error due to the different thermal expansion coefficient from the frame 7 and the deformation of the shadow mask, so that the equation α + β + θ = 90 ° is established.

On the other hand, in the shadow mask, it is known that the skirt opening angle θ of the Invar material is usually in the range of 10 to 20 degrees.

Therefore, the mask frame support of the present invention is most preferably configured to satisfy the range of 65 ° <α + β <80 °.

2 is a view showing an embodiment according to the present invention, illustrating the distribution of the amount of movement of the electron beam (or the amount of shadowing of the shadow mask) according to the inclination angle range α + β of the present invention. Referring to the drawings the embodiment of the present invention in more detail as follows.

EXAMPLE

1. when α + β <65 ° (×); Enough time has elapsed as shown, but the compensation of the domming is extremely poor.

2. when 65 ° <α + β <80 ° (○); Doming's compensation is good.

3. When 80 ° <α + β (Δ); Occurrence of Overcompensation of Doming as Shown.

As can be seen from the above embodiment, the mask frame support of the present invention is configured to have a range of 65 ° <α + β <80 °, so that the compensation angle due to different thermal expansion coefficients between the shadow mask 6 and the frame 7 Since the error and curvature deformation of the shadow mask can be minimized, it has the advantage of good compensation of the doming and color reproduction errors.

As described above, according to the present invention, a good image can be realized by minimizing a compensation angle error of a mask frame support and a curvature deformation of a shadow mask in a cathode ray tube, particularly a large cathode ray tube to which an invar material shadow mask is applied. will be.

Claims (1)

A support for mounting a frame for supporting a shadow mask on a rectangular panel of a cathode ray tube, comprising: a shadow mask composed of a skirt portion 61 opening angle θ and a deflection angle β of an electron beam passing through an outermost aperture from a central axis. (6) is mounted on the frame (7) and suspended on the panel (1) by the support (8) having an inclination angle (alpha), while the deflection angle (beta) of the electron beam and the inclination angle (alpha) of the support (8) are 65 °. Mask frame support of a cathode ray tube, characterized in that <α + β <80 °.