KR940005266Y1 - Mask frame of crt - Google Patents

Abstract

No content.

Description

Mask frame in cathode ray tube

1 is a cross-sectional view of a cathode ray tube showing an embodiment of the present invention.

Figure 2 is a detailed cross-sectional view showing the deformation of the mask frame according to the present invention at thermal expansion.

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

* Explanation of symbols for main parts of the drawings

2: shadow mask 3: mask frame

4: corner spring 5: panel

31 frame body 32 landing landing unit

The present invention relates to a shadow mask support in a cathode ray tube, and more particularly, to an improvement of a shadow mask support capable of compensating for anomalous phenomena due to thermal expansion of a shadow mask by modifying a material and a shape of a mask frame as the support.

A typical shadow mask type cathode ray tube includes at least a panel, a funnel, and a necked bulb, and serves as color screening for the electron gun in the neck, the phosphor applied to the inner surface of the panel, and the three electron beams irradiated from the electron gun. The mask frame is fixed to the corner spring so as to mount the shadow mask opposite the inner surface of one panel at a predetermined interval, the mask frame supporting the shadow mask, and the shadow mask to be mounted at a predetermined interval opposite the inner surface of the panel. .

In the cathode ray tube as described above, the shadow mask is disposed in the proximal plane facing the three-color fluorescent surface of the cathode ray tube, and the electron beam irradiated from the electron gun passes through the through hole of the electron beam formed in the shadow mask to the fluorescent surface. Is investigated.

The electron beam is accurately projected to an edge point on the fluorescent surface by passing through a through hole drilled through the shadow mask. In other words, the shadow mask has a function of accurately irradiating the electron beam on the three-color fluorescent surface. However, since the electron beam also touches a portion of the shadow mask that is not a through hole, the temperature of the shadow mask is raised to thermally expand the position of the through hole of the electron beam. In this way, the PD (Purity Drift) value is used as a value indicating that the position of the hole is displaced. In order to lower the PD value, many techniques have been proposed in which the material of the shadow mask is changed and the shape of the corner spring and the frame is modified.

3 is a partial cross-sectional view of a cathode ray tube constituting a conventional mask frame, and impinges on the shadow mask 2 having a plurality of through holes 1 through which three electron beams from the electron gun assembly can pass. ) Causes thermal expansion, the perforated through hole 1 of the shadow mask attempts to change its position outward, and the thermal expansion rate of the mask frame 3 and the corner spring 4 is relatively lower than that of the shadow mask 2. Because of this, the shadow mask 2 has to be moved by the corner spring 4 and the mask frame 3 in the direction of the panel 5 as much as the position of the shadow mask 2 is changed outward. In other words, it causes a so-called long time purity drift phenomenon that can be seen when 30 minutes or more have elapsed since the start of operation.

In order to compensate for the above drawbacks, the material of the shadow mask uses a material such as Inba alloy with a low thermal expansion rate, but this is also in a state in which only the change of the material does not obtain sufficient satisfaction.

This invention is devised to solve the problems of the prior art as described above, by changing the material and phenomenon of the frame to correct the phenomenon of the Purity Draft caused by thermal expansion with only the frame to accurately land the beam The purpose is to provide a mask frame of the tube.

In order to realize this, the present invention has a shadow mask composed of a plurality of through holes through which an electron beam passes, a mask frame supported by being coupled with the shadow mask, and a cathode ray tube composed of a corner spring. It consists of a frame body and a landing compensator formed by giving an inclination angle of 0 <θ <90 to the front of the body in accordance with the size of the cathode ray tube, and the body of the mask frame combined with the corner spring is a low thermal expansion metal, shadow The landing compensator combined with the mask provides a mask frame for a cathode ray tube using a general frame material.

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

1 is a cross-sectional view showing an embodiment of the present invention, a shadow mask 2 formed inside the panel 5 and forming a plurality of through holes 1 through which an electron beam passes, and a mask frame supporting the same. 3) and corner spring (4).

Accordingly, the mask frame 3 provided by the present invention has a landing compensator formed by giving an angle of about 0 <θ <90 depending on the size of the cathode ray tube toward the mask body 31 and the mask body 31. 32, the landing compensator is composed of a bending portion 321 and the shadow mask coupling portion 322, the frame body 31 is coupled to the corner spring using a low thermal expansion metal, landing landing portion (32) ) Used a normal frame material.

As described above, the material of the mask frame 3 is used by combining two metals having different coefficients of thermal expansion, the shape of which is angled to the landing compensator 32 of the frame, and the corner spring 4 is simply a mask frame. The shadow mask coupling portion 322 has only a normal frame member for thermal expansion during thermal expansion of the frame 3 so that the angle of the bent portion 321 becomes smaller, so that the space between the frame 3 and the panel 5 is kept constant. Moves toward the panel 5 and pulls the shadow mask 2 outwards and raises it toward the panel 5 as shown by the dotted line, and the frame body 31 is made of a low thermal expansion material. Since it is negligible to ignore, it is possible to keep the landing point of the beam as the initial landing point.

2 shows the deformation of the mask frame upon thermal expansion of the shadow mask.

In the mask frame 3 before thermal expansion and the mask frame 3 after thermal expansion, the angle of the bend 321 resulting from the angle of the mask frame 3 becomes θ ₁ > θ ₂ , and the shadow mask coupling portion ( 321) rises towards the panel so that the height of the frame becomes 1cosθ ₁ (L3)> 1cosθ ₂ (L5) and the length of the change to the side becomes 1sinθ ₁ (L2)> 1sinθ ₂ (L4), so 1cosθ ₁ (L3) This results in pulling the shadow mask ₂ by) -1cosθ ₂ (L5) and pushing the shadow mask 2 toward the panel 5 by 1sinθ ₁ (L2)> 1sinθ ₂ (L4). That is, since the shadow mask 2 is pulled outward and pushed toward the panel 5 simultaneously, the initial landing point is maintained.

Meanwhile, the material of the corner spring 4 supporting the mask frame 3 solves the detachable problem by using a material having a certain elastic modulus, and the shape of the mask body 31 is a low thermal expansion metal part of the mask frame 3. ) Should be able to contract outwards by thermal expansion.

As described above, according to this design, since the material and the shape of the mask frame are deformed, the purity drift can be improved with good efficiency without having to pay much attention to the shape and the material of the conventional corner spring, so that good image quality can be maintained.

Claims (2)

A shadow mask (2) consisting of a plurality of through holes (1) through which an electron beam passes through the panel (5), and a mask frame (3) and a corner spring (4), which are combined and supported by the shadow mask (2), are supported. In the cathode ray tube comprising a landing correction portion 32 for holding the bent portion 321 toward the front of the main body of the mask frame 4, the main body 31 is a landing correction portion 32 Mask frame for cathode ray tube, characterized in that made of a material having a low thermal expansion coefficient. The mask frame for a cathode ray tube according to claim 1, wherein an angle (θ) of the bent portion (321) of the mask frame (3) is within a range larger than 0 degrees and smaller than 90 degrees depending on the size of the cathode ray tube.