KR20030071365A - A Flat Type CRT - Google Patents

Abstract

PURPOSE: A flat type CRT(Cathode Ray Tube) is provided to be capable of being applied with high tension to a shadow mask when removing the compression of a frame after fixedly welding the shadow mask by improving the compressive strength of the frame using a bead part. CONSTITUTION: A planar CRT comprises a shadow mask having a plurality of electron beam passing holes, connected to the inner portion of a panel for discriminating colors and a frame having a main frame(7) for supporting the shadow mask and a sub-frame for supporting the main frame. The main frame includes a mask support part(7a) for supporting the shadow mask and a sub-frame support part(7b) for supporting the sub-frame. Preferably, at least one bead part(20) is formed at the mask support part or the sub-frame support part.

Description

Flat Cathode Ray Tube {A Flat Type CRT}

The present invention relates to a planar cathode ray tube, and more particularly, to a frame of a planar cathode ray tube capable of preventing wrinkles and howling of a shadow mask.

FIG. 1 is a view showing a schematic structure of a general cathode ray tube, in which a front glass called panel 1 and a rear glass called funnel 2 are combined, and an inner surface of panel 1 plays a predetermined light emitting role 4. And a shadow mask (3) for sorting the color of the electron gun (6), which is the source of the electron beam (6) for emitting the fluorescent surface (4), and a predetermined phosphor, and a main frame (7) for supporting the shadow mask (3). And it is composed of a reinforcing band (11) wrapped outside the funnel (2) to ensure safety.

The spring (8) for coupling the frame assembly on which the shadow mask (3) is mounted to the funnel (2), and the inner shield (9) serving as a shield so that the cathode ray tube is less affected by an external geomagnetic field during operation, serve as a sub. It is sealed by high vacuum in the state fixed to the frame 14.

Referring to the operation principle of the cathode ray tube disclosed in Figure 1 as follows.

In the electron gun embedded in the neck of the funnel 2, the electron beam 6 strikes the fluorescent surface formed on the inner surface of the panel 1 by the anode voltage applied to the cathode ray tube, before the electron beam reaches the fluorescent surface. The deflection yoke 5 is deflected up and down and left and right to form a screen.

In addition, there are 2, 4, and 6 pole magnets 10 that correct the traveling trajectory so that the electron beam 6 strikes a predetermined phosphor, thereby preventing poor color purity.

In addition, the damper wire 12 is arranged horizontally on the shadow mask 3 in order to suppress the vibration to reduce the vibration of the shadow mask due to the external wavelength.

In the tension type cathode ray tube as shown in FIG. 1, external vibrations or sound waves from a speaker mounted inside a television or a monitor are transmitted to the frame 7 via the stud pin and the spring 8 through the panel 1 and the frame 7. Vibrate.

The vibration transmitted to the frame 7 is transmitted to the shadow mask 3 welded to the frame 7 to receive the tension to vibrate the shadow mask 3, in which the external transmitted to the shadow mask 3 Resonance occurs between vibration and the natural frequency of the shadow mask.

The vibration of the shadow mask 3 causes the electron beam 6 to be deflected from its original position when the electron beam 6 generated by the electron gun 5 is deflected by the deflection yoke 5 and passes through the hole of the shadow mask. When the light reaches the phosphor and emits light, the color purity is reduced, causing the screen to shake.

In order to prevent the howling phenomenon as described above, applying high tension to the shadow mask as much as possible serves to suppress the vibration of the shadow mask.

In order to apply the high tension to the shadow mask as much as possible, in FIG. 2, the compressive force must be increased on the mask support part 7a of the main frame 7 supporting the shadow mask 3, which is the mask support part 7a. Compression is possible only within the yield strength of.

This is because the mask support 7a is changed or broken when the compressive force of the mask support 7a is increased beyond the yield strength.

In addition, when the thickness of the mask support 7a is increased or a high-strength material is used to improve the yield strength of the mask support 7a, the weight of the shadow mask assembly increases or the material cost increases.

Conventionally, by applying the damper wire 12 as shown in FIG. 2 to prevent the vibration of the shadow mask as described above, the mask is compressed within the yield strength range of the mask support to apply tension to the shadow mask. The problems were not sufficiently prevented.

In the tension type cathode ray tube as shown in FIG. 1, the compressive force applied to the frame when applying the shadow mask should apply a strong compressive force of more than 2 tons.

However, when the high compression force is applied to the shadow mask, the shadow mask is uneven in tension occurs.

In FIG. 2, when the frame compressed as described above applies the tension to the shadow mask 3, the tension applied to the shadow mask 3 in the structure of the subframe 13 is greatly applied in the left and right portions of the shadow mask. And it is applied small in the center, as shown in Figure 4, the vibration frequency of the shadow mask is a tension nonuniformity is distributed high in the left and right and low in the center.

FIG. 5A illustrates a deformation of the frame after compressing the frame. FIG. 5B illustrates a state in which a shadow mask is welded to the frame of FIG. 5A to apply tension to the shadow mask.

As shown in Figure 5a, in order to compress the frame to apply the tension to the shadow mask to compress the frame using a compression tip in several positions of the main frame (7), the compression point of the frame must be localized by compression Phosphorus deformation occurs.

As shown in FIG. 5B, when the shadow mask 3 is welded to the mask support part 7a of the main frame in which the local deformation occurs, the compression of the frame is removed, so that the tension acting on the shadow mask is local as illustrated in FIG. 4. It becomes uneven and causes wrinkles in the shadow mask.

In particular, wrinkles of the shadow mask are more generated at the left and right portions of the shadow mask 3 that are greatly subjected to the application of the tension.

If the shadow mask (3) before and after welding does not occur as described above, due to the thermal process that passes through the manufacturing process, and the creep (Creep) phenomenon that causes the deformation of the shadow mask by heat, tension and time applied to the entire shadow mask This decreases the tension, which increases the likelihood of wrinkles in the shadow mask that did not occur in the previous process.

In order to solve the above problem, the position of the compression point of the frame should be compressed at the lowest end of the main frame as far as possible from the welded portion where the shadow mask is welded. Such a change in the compression position is limited due to the mechanical characteristics of the frame. When modifying the compression method itself, a problem occurs that requires additional cost.

Therefore, an object of the present invention is to solve the conventional problems, the mask support portion for supporting the shadow mask has a high yield strength, to improve the compressive strength of the frame to weld the shadow mask after welding to decompress the frame The purpose is to allow high tension to be applied to the shadow mask.

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

Figure 2 is a view showing the configuration of the frame and the shadow mask tensioned in the frame according to the prior art.

3 is a view showing the curvature of the mask support of the main frame.

Figure 4 is a view showing the vibration frequency for each position of the shadow mask according to the prior art.

5a shows a deformation of a frame after compression in accordance with the prior art;

Figure 5b is a view showing the crease of the shadow mask appearing after welding the shadow mask to the frame of Figure 5a.

6 is a view showing a bead portion formed in the mask support portion of the main frame according to the present invention.

7 is a view showing a bead portion formed in the mask support portion and the subframe support portion of the mainframe according to the present invention.

8 is a view showing a deformation of the frame after the frame is compressed according to the present invention.

9 is a view showing a state in which the shadow mask is welded to the bead portion formed frame according to the present invention.

10 is a graph showing the frequency of each position of the shadow mask that appears when the frame is not formed according to the prior art and the frame is formed according to the present invention when the tension is applied to the shadow mask.

*** Explanation of symbols for the main parts of the drawing ***

12: damper wire 7: main frame

7a: Mask support part 7b: Subframe support part

13: Subframe 20: Bead part

The present invention for achieving the object as described above, is coupled to the inner surface of the panel to support the main frame and the main frame and the main frame for supporting the shadow mask and the eye mask through the electron beam through hole to perform the color discrimination function of the electron beam A planar cathode ray tube comprising a frame composed of subframes, the mainframe comprising a mask support for supporting a shadow mask and a subframe support for supporting the subframe; At least one bead is formed on the mask support or the subframe support.

Hereinafter, with reference to the accompanying drawings, the present invention to achieve the above object will be described in detail.

According to the present invention, the mask supporting portion of the main frame supporting the shadow mask has a high yield strength without a change in materials or specifications, so that the frame is applied with high tension to the shadow mask, thereby preventing wrinkles of the shadow mask and preventing external vibration. It is to reduce the vibration of the shadow mask due to.

The following equation shows the relationship between the natural frequency and the length of the string during vibration of the string.

f =

f: natural frequency of the string

L: Vertical length of shadow mask effective surface

P: tension on both ends of string

ρ: mass per unit length

When the natural frequency of the shadow mask is considered to be equal to the string vibration (f) in the above equation, the higher the tension applied to the shadow mask, the higher the natural frequency of the shadow mask is.

In order to increase the tension of the shadow mask, the compression amount of the frame applying tension to the shadow mask must be increased. In order to do so, the yield strength of the frame must be high.

6 is a view showing the structure of the main frame for supporting the shadow mask in accordance with the present invention.

According to the present invention, as shown in FIG. 6, the bead part 20 which faces inward is formed in the mask support part 7a of the main frame which supports the shadow mask.

By forming the bead portion 20 in the mask support portion 7a as shown in FIG.

If the mask support part 7a of the main frame does not have curvature, the bead part 20 does not have an effect, but rather tends to weaken the yield strength.

However, in the case of the tension shadow mask welded to the frame in order to receive the tension, as shown in FIG. 3, the mask support part must have curvature, considering the tension distribution after applying the tension and the thermal process. Bead portion 20 as shown in 6 can improve the yield strength of the main frame to increase the tension applied to the shadow mask.

Figure 10 shows the distribution of the frequency of each position of the shadow mask when the bead is formed frame and the frame is not formed according to the prior art when the tension is applied to the shadow mask.

In general, the effect on the howling phenomenon is better when the frequency of the shadow mask is more than 150Hz, as shown in Figure 10, the shadow mask received a tension from the frame formed with a bead according to the present invention is a frame without a shadow bead conventional It can be seen that it has a higher natural frequency than when applying a tension.

In addition, as shown in FIG. 4, the tension is less applied due to the imbalance of the tension of the shadow mask, so that the center portion of the shadow mask having a low vibration frequency may be effective to prevent the howling phenomenon at 150 Hz or more.

7 shows that a bead portion is formed in the mask support portion and the subframe support portion of the main frame.

As shown in FIG. 7, the bead part 20 which increases the yield strength is formed on the subframe support part 7b as well as the mask support part to increase the natural frequency of the shadow mask.

Figure 8 shows the deformation of the frame after the frame is compressed according to the present invention.

According to the present invention, a bead part formed in the mask support part to apply a high tension to the shadow mask is formed between a compression part to which the frame is compressed and a weld part to which the shadow mask is welded, and the length (D) of the bead part is in the range of the following equation. Must be satisfied.

<D <

In the above formula, L represents the long axis length of the frame, and N represents the number of compression points applied to the main frame.

The bead part according to the present invention has a different length depending on the number N of compression points applied to the main frame because the stress received in the frame is different depending on the long axis length L of the frame.

Therefore, when the bead part according to the present invention satisfies the range value of the above equation and the length varies depending on the frame long axis length (L) and the number of compression points (N) applied to the main frame, the compression point position and the spring holder Interference can be avoided.

When the bead portion is formed in the mask support portion and the shadow mask is welded to the weld portion of the mask support portion where deformation does not occur, it is possible to prevent wrinkles of the shadow mask as shown in FIG. 5B, which may occur even before and after the thermal process.

The bead part 20 may be generally formed on the mask support part 7a, but may be formed at the left end or the right end point or the end of the mask support part to prevent wrinkles of the shadow mask as shown in FIG. have.

This is because the wrinkles of the shadow mask are generated at the end points of the left and right sides of the mask support part or the compression point of the end of the mask support, where tension is most applied due to the imbalance of the tension of the shadow mask as shown in FIG. 4.

Therefore, the bead part for preventing wrinkles of the shadow mask as described above must be formed at the left and right end points of the mask support part or the compression point at the end of the mask support part to prevent wrinkles of the shadow mask as well as howling. The phenomenon can be prevented.

Therefore, according to the present invention, by forming a bead portion on the main frame to increase the yield strength of the frame, it is possible to increase the natural frequency of the shadow mask to prevent howling of the screen shaking and to prevent wrinkles occurring in the shadow mask. have.

Claims (3)

In the planar cathode ray tube comprising a frame composed of a shadow mask which is coupled to the inner surface of the panel to perform the color discrimination function of the electron beam, and a main frame supporting the shadow mask and a subframe supporting the main frame. , The mainframe includes a mask support for supporting a shadow mask and a subframe support for supporting the subframe; And at least one bead portion is formed in the mask support portion or the subframe support portion. The method of claim 1, When the major axis length of the frame is L, the number of compression points applied to the main frame is N, and the length of the bead part is D, <D < Planar cathode ray tube, characterized in that to satisfy. The method of claim 1, And the bead portion is formed inwardly at end points of the left and right sides of the mask support portion.