KR950001494B1 - Shadow mask for stripe type c-crt - Google Patents

Abstract

The shadow mask prevents landing error, poor purity and poor white uniformity, and improves the quality of CRT. The mask includes the slots (4'), the bridges (B), the slot having the end taper (S1) between the short radius part (9') and the minimum round part (10') being greater than the middle taper (S2) between the short radius part (9') of slot (4') and the minimum round part (10'), the arc radius of minimum round part (10') is infinite, and the chopping angle ( 1) of slot end (4') is less than the section angle ( 2) of slot middle part (4').

Description

Shadow mask for stripe collar

1 is a block diagram showing a general color water pipe.

2 is a cross-sectional view showing a partial cut-out of the action of a typical stripe collar water pipe.

3 is a rear view of the shadow mask for a typical striped color water pipe.

4A is an enlarged sectional view taken along the line X-X of FIG. 3, and b is an enlarged sectional view taken along the line Y-Y.

5 is a diagram showing the relationship between the curvature of a general shadow mask and the deflected electron beam.

6a and 6b show the operation of a general shadow mask, showing the case where ∠θ ₂ -θ ₁ = 0.

7a and 7b show the operation of a general shadow mask, and when aθ ₂ -θ ₁ shows a finite value.

8 is a view showing the configuration and operation of the shadow mask for the striped color water pipe according to the present invention, 8a is a front view, 8b is a sectional view.

* Explanation of symbols for main parts of the drawings

4 ': Slot 5': Shadow mask

9 ': Short diameter part 10': Minimum diameter part

11 ': Long neck

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shadow mask for stripe-type color water pipes. In particular, the stripe allows electron beams to prevent unbalance from being obtained. The present invention relates to a shadow mask for a color collar pipe.

As shown in FIGS. 1 and 2, a general stripe type color water pipe has a rectangular panel (1) having R, G, and B fluorescent surfaces formed in a stripe shape on the inner side thereof, and the panel (1). FUNNEL 2 of cone shape fixed to the rear side of the channel, NECK part 3 formed behind the channel 2, R of the panel 1, Elliptical slots (SLOT) (4) are arranged in a position opposite to the G, B fluorescent surface, respectively, shadow mask (5) fixed to the rear side of the panel (1), and parallel to the horizontal axis of the panel (1) In-line electron gun 6 coupled to the neck portion 3 to emit R, G and B electron beams, and coupled to the rear of the channel 2, in-line type. Deflection yokes (7) consisting of vertical and horizontal coils forming deflection magnetic fields to deflect the electron beam emitted from the electron gun (6) over the front surface of the panel (1), and the outer circumferential surface of the neck portion (3) Coupled to It is composed of a magnet 8 or the like.

The shadow mask 3 has a finite thickness t and is formed of a plurality of slots 4 and bridges B, as shown in FIGS. 3 and 4.

The slot 4 is further divided into a short diameter portion 9, a minimum diameter portion 10, and a long diameter portion 11 from the side where the electron beam enters, and the bridge B is a BACK bridge B. _b ) and the front (FRONT) bridge (B _f ), and the mutual relationship is the minimum diameter portion 10 <short diameter portion 9 <long diameter portion 11, and the large air side L)> the small pore side ( S) relationship is established.

As the slots 4 of the shadow mask 5 as described above are manufactured by double-sided etching (ETCHIONG), a finite value of curvature R and a BB _b value are provided at both ends of the minimum pore portion 10 due to the nature of etching. Have.

In the conventional stripe-shaped color water pipe constructed as described above, the beam radiated from the electron gun 6 is deflected vertically and horizontally by the deflection yoke 7, and thus the slot 4 of the shadow mask 5 is removed. After passing, each of the fluorescent surface stripes of R, G, and B formed on the inner surface of the panel 1 is landed to form an image on the fluorescent screen.

At this time, not all of the electron beams emitted from each electron gun 6 are landed on the R, G, and B fluorescent surfaces, and only the electron beams passing through the slots 4 of the shadow mask 5 are R, G, and B fluorescent surfaces. Is landing on.

Accordingly, the shape of the electron beam landing on the screen is determined according to the shape of the slot 4 of the shadow mask 5 and the traveling angle of the electron beam.

When the shadow mask 5 is mounted on the color receiving pipe, the horizontal, vertical and diagonal axes are used to reduce the dominant effect caused by the trio formation of the correct electron beam and the collision of the electron beam on the inner surface of the screen. It is formed to have a constant curvature in the direction.

FIG. 5 shows the relationship between the curvature of the general shadow mask 5 and the deflected electron beam. When the reference is to the z axis, which is the central axis of the color water pipe, the position shadow mask 5 is used. A straight line 13 perpendicular to the x-axis direction tangent 12 of &_lt; RTI ID = 0.0 &gt; and &_lt; / RTI &_gt; the inclination &_lt; RTI ID = 0.0 &_gt; ₁ &lt; / RTI &_gt; 별 θ ₂ for each position.

As a result, at the x-axis and D-axis end points, the electron beam does not travel perpendicular to the slot 4 of the shadow mask 5, but is perpendicular to the vertical line of the tangent of the X axis of the shadow mask 5, which is formed. Proceed with 갖고 θ ₂ -θ ₁ .

At this time, in the case of the center CENTER of the shadow mask 3, as shown in FIG. 6A, θ ₂ -θ ₁ = 0, the electron beam is radiated in a direction perpendicular to the shadow mask 5, and FIG. As shown in FIG. 6, the electron beam is formed in the shape of the minimum diameter portion 10 of the slot 4 so that unbalance of the beam does not occur.

However, in the above-described general striped color water pipe, since θ ₂ -θ ₁ , BB _b , and R have finite values at the ends of the H axis and the D axis, as shown in FIG. It is radiated to the shadow mask 5 at a predetermined inclination angle. Accordingly, as shown in FIG. 7B, when the minimum diameter portion 10 of the slot ₄ is made into an axis, it is determined by? ₂ -θ ₁ . Since the center P (single dashed line) of the neck portion 9 has the same effect as moving to Q (double dashed line), the electron beam is blocked only at the upper and lower ends of the minimum diameter part 10 in the inclined direction. As a result, the electron beam phenomenon on the screen causes left and right unbalance like the hatched area.

The unbalance phenomenon of the electron beam is not known to the human eye because the center of the electron beam is not known at the time of the ITC adjustment for fixing the deflection yoke 7, and the actual landing is different from the actual just landing. Since the position of the deflection yoke (7) is shifted to one side during landing, it causes peripheral landing error (ERROR), purity (poority), and white uniformity defect, resulting in deterioration of the color cathode ray tube. There was a problem such as.

SUMMARY OF THE INVENTION An object of the present invention is to provide a shadow mask for stripe-type color water pipes, which can improve the quality of a color cathode ray tube by preventing landing errors, purity defects, and poor white uniformity. Is in.

In order to achieve the object of the present invention as described above, the end taper (S ₁ ) between the short diameter portion and the smallest diameter portion of the slot intermediate portion constituting the slot ≥ the intermediate taper between the short diameter portion and the minimum diameter portion of the slot intermediate portion ( S ₂ ), and the shape of the end of the minimum diameter portion is such that the radius of curvature is infinite, so that the expression of the cross-sectional angle (δ ₁ ) of the slot end portion ≤ the cross-sectional angle (δ ₂ ) of the slot end portion is satisfied. A shadow mask for a striped color water pipe is provided.

Hereinafter, the shadow mask for stripe-shaped color water pipe according to the present invention will be described according to the embodiment shown in the accompanying drawings.

8 is a front view and a cross-sectional view showing the configuration and operation of the striped color water pipe shadow mask according to the present invention. As shown in the drawing, the shadow mask 5 'for the striped color water pipe according to the present invention is conventionally used. The left and right unbalance of the electron beam is prevented from occurring at any finite value θθ ₂ -θ _{1 at} the periphery on the screen generated by the slot 4 shape of the shadow mask 5 of the mask.

That is, the value of BB _b over the entire surface of the shadow mask 5 'slotted (4 formed on') where diameter (9 ') and at least the ball neck (10' shadow mask (5 ') the shape of) the 1/2 × T × tan (Φ ₂ −Φ ₁ ) (T; thickness of shadow mask 5 ', Φ ₂ −Φ ₁ ; y-axis direction of electron beam propagating toward the small hole side of actual slot 4' In the conventional method, the shape of the ends (upper and lower ends) of the minimum diameter portion 10 'is set such that the radius of curvature R becomes almost infinity (∞), and the minimum diameter portion ( Radius of curvature R ₂ ≤ radius radius of curvature R 'of curvature radius R ₁ , radius of curvature R _{1 of the} middle portion of slot 4', and the smallest radius ( 10 ') end taper (S ₁ &gt; S ₄ &gt; slot 4'), the middle taper (S ₂ ) between the shorter diameter portion (9 ') and the smallest diameter portion (10') of the middle portion, agent (4 ') of the established dietary sectional angle ((δ ₁₎ ≤ slotted (4 of the end') intermediate cross section angle (δ ₂₎ It is configured so.

Referring to the operation and effect of the shadow mask for the striped color water pipe according to the present invention configured as described above are as follows.

That is, as shown in FIG. 8, when the electron beam B 'is incident on the BB _b line cross section of the middle part of the slot 4' with a finite value of θθ ₂ −θ ₁ , the electron beam is the minimum hole. All electron beams incident on the short diameter portion 9 'are provided with the same taper S ₂ between the short diameter portion 9' and the smallest diameter portion 10 'so as not to be blocked by the neck portion 10'. It is landing on the screen, and the electron beam A ＂is the same as the finite value of θθ ₂ −θ ₁ at the AA line cross section at the upper and lower ends of the slot 4 '. Is incident, the electron beam A 'incident to the short diameter portion 9' is different from the conventional slot 4 so that the electron beam A 'is not blocked by the minimum diameter portion 10'. Since the taper (S ₁ ) between the short diameter portion (9 ') and the smallest diameter portion (10') is provided to be much larger than the conventional case and larger than the taper (S ₂ ) of the middle portion (S ₁ ≥ S ₂ ), the slot (4 ') end All the electron beams incident on the portion 9 'are also landed on the screen, so that the shape of the electron beam landing on the screen is the same as that of the short diameter portion 9' of the slot 4 '. The unbalance phenomenon of the electron beam does not occur on the screen regardless of the finite angle ∠θ ₂ -θ ₁ of the electron beam traveling toward the small pore side.

As described above, the shadow mask for stripe-type color water pipes according to the present invention prevents unbalance of the electron beam landing on the screen regardless of the incident angle of the finite value of the electron beam θθ ₂ -θ ₁ . It is possible to adjust the visual just landing during the ITC adjustment to mount the yoke, so that the actual landing and the visual landing are the same.

Therefore, it is possible to obtain a higher quality color cathode ray tube by preventing landing errors, poor purity, and poor white uniformity as in the conventional case.

Claims (2)

In a shadow mask composed of a slot 4 'as a beam passing hole and a bridge B around, between the short diameter portion 9' and the minimum diameter portion 10 'of the middle portion of the slot 4'. End taper S ₁ ≥ Middle taper S ₂ between the short diameter portion 9 'and the smallest diameter portion 10' in the middle portion of the slot 4 ', the end of the minimum diameter portion 10' (upper) The lower end of the slot 4) so that the radius of curvature becomes infinite (∞), so that the equation of the cross section angle (δ ₁ ) of the end of the slot 4 '≤ the cross section angle (δ ₂ ) of the middle portion of the slot 4' is satisfied. A shadow mask for stripe-shaped color water pipes, characterized in that formed. A stripe type according to claim 1, characterized in that the curvature radius (R ₂ ) of the minimum corner portion (10 ') end corner portion is formed so as to satisfy the formula of the radius of curvature (R ₁ ) of the corner portion of the end portion (9'). Shadow mask for color water pipes.