KR19980016508A - Vibration Absorber of Color Brown Tube - Google Patents

Abstract

The present invention relates to a vibration absorber of a color brown tube, in which a shadow mask of a color cathode ray tube is vibrated by an external impact to prevent vibration and reduce image quality by attaching a separate vibration absorber to a spring to reduce vibration and sharpen image quality. It is an invention for.

The present invention has an object to minimize the energy delivered to the mask by absorbing the energy delivered to the air, such as sound in addition to the external impact delivered to the conventional apparatus.

In the configuration of the present invention, the transmission energy transmitted to the inside is transmitted to the spring from the stud pin attached to the panel through the panel funnel in contact with the outside. The present invention absorbs energy by using a material with a large damping energy transmitted to the spring to add a vibration absorber to the existing internal structure.

In the illustrated vibration absorber, a vibration absorber groove is formed in a U-shape at an inner middle portion so as to be fitted into a spring, and the vibration absorber groove is mounted to the spring.

Description

Vibration Absorber of Color Brown Tube

1 is a cross-sectional view of the inner color tube.

2 is a deterioration phenomenon.

3 is an external shape of a color brown tube.

4 is a conventional spring configuration.

5 is a spring plan view and a side view.

6 is a vibration absorber state diagram of the present invention.

7 shows the vibration transfer rate with respect to the frequency ratio.

Explanation of symbols on the main parts of the drawings

100: vibration absorber 101: vibration absorber groove

102, 11: Spring 5: Mask

The present invention relates to a vibration absorber of a color brown tube, in which the shadow mask of the color cathode ray tube is attached to a separate vibration absorber on a spring to prevent vibration from vibrating due to an external impact, thereby reducing vibration and sharpening image quality. It is an invention for.

The general structure of the CRT is the same as that of FIG. 1, and the structure thereof is that the electron beam 19 generated by the electron gun 14 is applied to the inner surface of the panel 1 by entering the mask 80 with a desired path by the deflection coil 13. The fluorescent substance 15 is emitted to reproduce the fire.

In the above color CRT, black streaks 16 are generated on the screen as shown in FIG. 2 due to external impacts, causing a deterioration in image quality.

In the conventional color-brown tube, the external energy, in particular, the sound energy caused by the speaker impacts the outside of the CRT as shown in FIG. 3, and the energy is transmitted to the inside to finally vibrate the mask 8.

As a result of the above, black stripes 16 are generated on the screen as shown in FIG.

The above black streaks are generated because the path of the electron beam changes due to the vibration of the mask 8 and a luminance difference occurs.

The path of sound energy to the mask is outside the CRT ⇒ stud pin (12) ⇒ spring (11) ⇒ frame (9) ⇒ mask (8).

Since the components on the path are made of metal with a small damping ratio, it is difficult to reduce the size of the sound noise, which is always accompanied by the deterioration of the image quality.

As described above, since the conventional color-brown tube has many problems, the present invention is an invention created to improve and supplement the conventional problems.

Accordingly, the configuration and operation of the present invention will be described in detail with reference to FIGS. 5, 6 and 7 as follows.

The present invention aims to minimize energy transmitted to the mask 5 of FIG. 2 by absorbing energy delivered to the air, such as sound, in addition to external impact delivered to a conventional apparatus.

In the configuration of the present invention, the electric energy transmitted to the inside is transmitted to the spring 102 from the stud pin 12 attached to the panel 1 through the panel 1, the funnel 2 in contact with the outside. The present invention is configured by adding a vibration absorber 100 for absorbing energy using a material with a large damping energy transmitted to the spring 102 to the existing internal structure.

The vibration absorber 100 shown in FIG. 6 has a U-shaped vibration absorber groove 101 formed in the inner middle portion of the vibration absorber 100 to be fitted to the spring 102, and the vibration absorber groove 101 is shown in FIG. It is mounted to the spring 102 as one.

The vibration absorber 100 is made of a material having a ceramic or rubber property.

As another method, the same effects can be obtained even when the vibration absorber is formed on the stud pin.

Referring to the function of the vibration absorber 100 according to the present invention taking a single degree of freedom of vibration theory as an example, the transmission rate (TR) is as shown in equation (1) (2) (3).

(TR: transfer rate, r: frequency ratio, ω: vibration frequency, ω _n : intrinsic frequency, k: elastic modulus, C: viscosity coefficient, ζ: attenuation ratio)

As shown in FIG. 7, as the value of the damping ratio ζ increases, the vibration transfer rate decreases. The reason is that the natural frequency of the spring is more than 800Hz, and the image quality deterioration due to the mask vibration is largely generated in the range of 300 to 600Hz. Therefore, the value of the frequency ratio r is smaller than 1 in the above-described deterioration frequency range, which is as shown in FIG. In order to increase the value of the damping ratio, there are two cases of decreasing the modulus of elasticity (k) and increasing the value of the viscosity coefficient (C).

The function of the basic spring 11 shown in FIG. 4 has a limitation in reducing the elastic modulus k, since the frame 9 and the mask 5 must be sufficiently supported and mounted on the stud pin 12.

According to the above description, the damping ratio is made of a material which is significantly larger than that of the metal, and is attached to the spring 10, thereby reducing the vibration transmission rate and reducing the deterioration in image quality during CRT operation.

In the case of the spring 11, the damping ratio is about 0.0006 and very small. To supplement these material properties, materials with high damping ratios should be added.

In particular, as shown in FIG. 5 and FIG. 6, heat resistant rubber or resin can be mounted and used, and the vibration energy is high because the damping ratio is large due to the material of the spring 11 having a viscosity coefficient C of about 0.04. The effect of absorbing is great.

The present invention is to reduce the amount of vibration transmitted to the inner structure of the color CRT by attaching / depositing a material with high damping to the spring 11 to reduce the black streaks appearing on the screen by the external impact during the operation of the color CRT. It works.

Claims (4)

The vibration absorber of the color-brown tube, characterized in that the vibration absorber is coupled to the stud pin to absorb the vibration transmitted to one side of the spring for supporting the frame. The method of claim 1, The vibration absorber is a vibration absorber of the color brown tube, characterized in that coupled to the stud pin coupling portion or frame support. The method of claim 1, The vibration absorber is a vibration absorber of the color-brown tube, characterized in that the detachable groove is formed to be detachable with the spring. The method of claim 1, The vibration absorber is a vibration absorber of the color brown tube, characterized in that the heat-resistant resin.