KR20010055153A - device for damping a mask in plat type the braun tube - Google Patents

Abstract

PURPOSE: A mask damping device for a flat CRT is provided to prevent a damper wire as the welding by inserting a damper wire into a recessed part on the mask. CONSTITUTION: A recessed part(41) is formed at the position of damper wire(17) in the mask(40) to insert the damper wire(17). The damper wire(17) is fixed by the recessed part(41). Both ends of the damper wire(17) is directly welded at a skirt part(42) of a mask(40). The damper wire(17) is 60-80um in diameter. The tension of the damper wire(17) is approximately 600gf. The mask(40) is 35-80um in thickness. The damper wire(17) is contacted with the concave part of the mask(40) so that the damper wire(17) is capable of the fixed position welding in the mask(40). The mask(40) is mounted at the progressing path to sort the color of electronic beam. The damper wire is installed at the center of the mask(40).

Description

Device for damping a mask in plat type the braun tube}

FIELD OF THE INVENTION The present invention relates to flat CRTs, and more particularly to an improved mask damping device for preventing and reducing howling phenomena caused by vibration of the mask in flat CRTs.

In general, a flat CRT is shaped by a flat panel (1) and a bulb-shaped funnel (3) joined to the rear thereof, and the inside thereof maintains a high vacuum of about 10 ^-7 Torr. have.

The safety glass 5 is bonded to the front surface of the panel 1 by resin resin, and the fluorescent film 2 is coated in a constant pattern on the effective area of the inner surface (rear surface).

In addition, a rectangular frame-shaped rail assembly 7 is bonded to the inner edge of the panel 1 by frit glass, and the rail assembly 7 is slit or formed so that the electron beam 9 can pass therethrough. The mask 11, which has a myriad of fine beam passing holes 10 having a predetermined interval, is welded in a tensile state.

The neck portion 4 formed behind the funnel 3 has an electron gun 13 which emits red, green, and blue electron beams (thermal electrons), and has an outer circumference of the neck portion 4. On the top, a deflection yoke 15 is provided which forms a magnetic field in the vertical and horizontal directions and deflects the electron beam 9 so as to have a prescribed traveling direction.

In the planar CRT having such a configuration, when power is applied to the electron gun 13, the electron beam, which is hot electrons, is emitted from the cathode by the heat of a heater (not shown), and the emitted electron beam is controlled while passing through a plurality of spatulas constituting the electron gun. Then, color is selected while accelerating and focusing through the mask 11 positioned on the path of the electron beam, and the selected electron beam finally collides with the fluorescent film 2 to reproduce a color image.

On the other hand, the mass-produced mask 11 is a thin plate having a thickness of about 25 μm in consideration of the tensile force, thus causing vibration even in a fine impact force.

Accordingly, the so-called howling phenomenon in which the image is shaken by the electron beam 9 not passing through the promised beam through hole 10 of the mask 11 and periodically blocked by the no-hole 12. This will occur.

Conventionally, as a vibration suppressing measure of such a mask 11, as shown in FIG. 2, the mask 11 is tensioned and fixed on the rail assembly 7, and a plurality of pieces having a diameter of about 60 µm (usually three) The damper wire 17 is installed so as to contact the mask 11 in a tensioned state.

In particular, since the damper wire 17 has a fine diameter, it is impossible to weld the damper wire 17 onto the rail assembly 7, so that the bracket 19 and the plate having the welded areas at both ends of the damper wire 17 are secured. (21) is manufactured in the form of an assembly in which brackets, plates, and damper wires are integrated by welding them in a state where they are positioned up and down.

Then, the rail assembly 7 and the damper assembly are joined by welding in a state where each bracket 19 portion of the damper assembly is positioned on the recessed step surface 7a of the rail assembly 7.

However, since the damper assembly has a structure in which the bracket 19, the plate 21, and the damper wire 17 are integrated as described above, the damper assembly must go through a process of manufacturing each component and a process of integrating them. Therefore, it is acting as a factor that delays the CRT manufacturing process and decreases the efficiency of the process.

In addition, since the damper assembly is generally installed three to obtain the desired level of damping effect, there is a problem in that the number of parts is increased to increase the product price.

In addition, when the damper assembly is welded onto the rail assembly 7, the damper assembly is moved out of position and the image quality is degraded as the damper wire 17 is invaded into the beam through hole 10 region of the mask 11. There was also a problem.

Also, after welding the mask 11 to the protruding step 7b of the rail assembly 7, debris generated in the process of cutting the unnecessary edge of the mask 11 is located on the damper wire 17 installation surface. As a result, when the damper wire 11 is installed, the adhesion between the damper wire 17 and the mask 11 is reduced.

As a result, the damper wire 17 and the mask 11 may be lifted by the volume of the debris, thereby preventing the desired vibration suppression effect.

The present invention has been made to solve the above-mentioned conventional problems, by forming a depression so that the damper wire can be inserted on the mask, to enhance the contact force between the mask and the damper wire and to constrain the flow of the damper wire. Leave.

It also aims to simplify the process and component construction by fixing the damper wire directly to the mask.

1 is a longitudinal cross-sectional view of a typical flat CRT

Figure 2 is a perspective view showing the installation structure of a conventional damper wire

3 is a perspective view showing a mask structure according to the present invention

Figure 4 shows the combined state of the mask and the damper wire according to the present invention, in particular the A direction of Figure 3

5 is a B-direction of FIG.

Explanation of symbols for main parts of the drawings

17. Damper Wire 40. Mask

41.Depression 42.Skirt

According to the first aspect of the present invention for achieving the above object,

In the planar CRT having a mask which is provided on the path of the electron beam and serves as color screening of the electron beam of the electron beam,

A mask damping device for a flat CRT tube is provided, including a depression provided to insert a damper wire on a damper wire installation position of the mask.

According to a second aspect of the present invention for achieving the above object,

In the planar CRT having a mask which is provided on the path of the electron beam and serves as the color discrimination of the electron beam,

A depression for inserting the damper wire on the damper wire installation position of the mask; Both ends of the damper wire is provided with a mask damping device for a flat CRT tube, which is fixed by welding to a skirt portion of the mask.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to FIGS. 3 to 5 as follows.

The present invention forms the depression 41 so that a part of the outer circumferential surface of the damper wire 17 is inserted on the damper wire 17 installation position of the mask 40, so that the damper wire 17 is formed by the depression 41. The contact force between the damper wire 17 and the mask 40 together with the restraint so as to hold the installation position is to be strengthened.

In addition, both ends of the damper wire 17 are bonded to the skirt portion 42 of the mask 40 by welding.

At this time, the thickness t of the mask 40 should be determined within the range of 35 to 80 µm to enable the formation of the depressions 41.

If the thickness of the mask 40 is less than the above range, it is difficult to form the depression 41 because the thickness of the mask is thin, and even if the depression 41 can be formed, the depth is not so deep that the damper wire (17) the binding force is reduced.

On the other hand, when the thickness of the mask 40 is more than the above range, it has its own strength that can suppress the vibration of the mask 40 without the help of the damper wire 17, but it is difficult to increase the material cost and add tensile force It is preferable that this occurs because it occurs.

In addition, since the mask 40 of the present invention has a thicker thickness than the existing mask, even if only one damper wire 17 is installed at the center portion where vibration is greatest, a desired level of vibration suppression effect can be obtained.

Instead, in order to double the vibration suppression effect, the diameter of the damper wire 17 is determined in the range of 60 to 80 µm larger than the existing damper wire diameter, and the tension of the damper wire 17 is more preferably about 600 gf.

According to the present invention having the above configuration, both ends of the damper wire are inserted into the skirt portion of the mask 40 in a state in which the damper wire 17 is inserted into the depression 41 formed in parallel with the short side portion in the center of the mask 40. By directly welding to 42, the mask 40 and the damper wire 17 can be easily combined.

This reduces the number of parts such as brackets and plates that were previously used to secure both ends of the damper wire to the rail, and also simplifies the process by eliminating the manufacturing process and joining process between these parts. It can be achieved.

In addition, since the damper wire 17 is inserted into the recess 41 formed in the mask 40 when the damper wire 17 and the mask 40 are welded, the damper wire as shown in FIG. 5. Numeral 17 is in a state of making surface contact with the recessed surface of the mask 40.

Therefore, the welding area can be secured and the damper wire 17 can be prevented from flowing during welding, so that the damper wire 17 can be welded to the mask 40 in position.

In addition, as the damper wire 17 and the mask 40 make surface contact, the vibration suppression effect of the mask 40 by the damper wire 17 can be doubled.

According to the experimental data, in the conventional case in which three damper wires having a diameter of 60 μm were welded under a tension of 400 gf, the howling phenomenon caused by the vibration of the mask was 15 seconds, but in the present invention, the damper wire having a diameter of 80 μm was used. Even if only one (17) is installed with a tension of 600 gf, the duration of the howling phenomenon can be reduced to less than about 7.5 seconds, which is less than half compared to the existing one.

As described above, the present invention excludes components such as brackets and plates, which have been conventionally used for welding of damper wires, and since only one line of damper wires is used, configuration can be simplified.

Accordingly, since the combination process is not necessary, the process can be simplified.

In addition, by inserting the damper wire into the recess provided on the mask, it is possible to prevent the flow of the damper wire during welding, as well as to expand the contact area between the mask and the damper wire to improve the vibration suppression effect of the mask. .

This prevents howling and improves the picture quality of the CRT.

Claims (4)

In the planar CRT having a mask which is provided on the path of the electron beam and serves as color screening of the electron beam of the electron beam, Mask damping device for a flat CRT tube comprising a depression so that the damper wire is inserted on the damper wire installation position of the mask. In the planar CRT having a mask which is provided on the path of the electron beam and serves as the color discrimination of the electron beam, A depression for inserting the damper wire on the damper wire installation position of the mask; And both ends of the damper wire are fixed by welding to a skirt portion of the mask. The method according to claim 1 or 2, Mask damping device for flat CRT tube, characterized in that the thickness of the mask is 35 ~ 80㎛. The method according to claim 1 or 2, Mask damping device for a flat CRT tube, characterized in that the diameter of the damper wire is 60 ~ 80㎛.