KR910008154B1 - Method of setting up the antiexposion band in cathode ray tube - Google Patents

Abstract

The method comprises the steps of applying high current and low voltage on an explosion-proof band (11) to expand it with heat, coupling the explosion-proof band and a CRT (10), and cooling them to adhere the explosion-proof band adjacent to a panel of the CRT (10) firmly. The applied voltage is increasing and decreasing by steps or linearity. The method reduces the cracks and implosion generated upon coupling of the explosion-proof band and CRT.

Description

Explosion proof band mounting method of cathode ray tube

1 is a view showing a device suitable for implementing the explosion-proof band mounting method of a conventional cathode ray tube, a is a partial cross-sectional view, b is a perspective view showing the burner taken.

2 is a partial cutaway side view of a device suitable for implementing the method of mounting the explosion-proof band according to the present invention.

Figure 3a, b is a graph showing the voltage applied to the explosion-proof band in accordance with the present invention.

* Explanation of symbols for main parts of the drawings

10: cathode ray tube 11: explosion-proof band

30: base plate 33: lifting rod

34: adsorption head 40: fixed plate

41: heating electrode 42: fixed electrode

43: moving electrode

The present invention relates to a method of mounting an explosion-proof band of a cathode ray tube, and more particularly, to a method of heating an explosion-proof band coupled to a cathode ray tube.

In general, the cathode ray tube is a high-vacuum state product consisting of a funnel and a panel in appearance and is a fragile product that may be easily destroyed by a slight impact.

In order to suppress the breakdown due to such a small impact, explosion-proof bands are adopted in most cathode ray tubes, which are banded by a constant tensile force on the most fragile part of the structure, that is, the side surface of the panel. Looking at the conventional explosion-proof band mounting apparatus for mounting such an explosion-proof band as shown in Figure 1, the explosion-proof band 11 is a base that can be caught by the fixing lug or ear (EAR; 12) of the four corners In the central space portion 21 of the 20, the suction head 14 is lifted up and down by the lifting bar 13, and the suction head 14 for holding and mounting the cathode ray tube 10 by vacuum suction force. And the burner 15 of the □ type for heating the explosion-proof band 11 placed on the base 20 is coupled to the suction head 14 below. Explosion-proof band mounting method using a conventional explosion-proof band mounting device is configured as follows. First, the explosion-proof band 11 to be mounted on the central space 21 of the base 20 is mounted, and the cathode ray tube 10 is mounted on the suction head 14 supported by raising and lowering the lifting bar 13. do. In this state, the explosion-proof band 11 is heated and thermally expanded by the burner 15 installed below the adsorption head 14, and then the lifting rod 13 is lowered to lower the cathode ray tube 10 and the explosion-proof band 11. To combine. At this time, the burner 15 emits a flame (flame) from the nozzle 15a to the inner surface of the explosion-proof band 11 to heat the explosion-proof band 11. The heating of the explosion-proof band 11 is not applied to the explosion-proof band 11 uniformly under the influence of the gas pressure or the outside air that the flame of the burner 15 is supplied to the burner 15 of the explosion-proof band 11 The heating state becomes uneven.

If the heating state of the explosion-proof band 11 is uneven, the explosion-proof band is non-uniformly thermally expanded, which adversely affects the cathode ray tube 10 and further, the mounting state of the band becomes unstable, so that the lug, which is a fixing means of the cathode ray tube, is abnormal. To be located at the site.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a method of mounting an explosion-proof band for a cathode ray tube that can improve productivity and improve reliability and stability of the cathode ray tube.

In order to achieve the above object, the present invention provides a explosion-proof band mounting method of the cathode ray tube for reinforcing the structurally weak part of the cathode ray tube, by applying a high current and low voltage to the explosion-proof band, the explosion-proof band is generated and expanded by its resistance It is characterized in that to be mounted on the cathode ray tube by cooling the combined with the cathode ray tube.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

Figure 2 shows the explosion-proof band mounting device of the cathode ray tube suitable for practicing the present invention, the central space portion 31 is provided in the center of the base plate 30 is provided on the four corners of the explosion-proof band (11) Ear (11a) is to be mounted, the central space portion 31, the suction to hold the cathode ray tube 10 as a vacuum suction force to the end of the elevating rod 33 which is lifted up and down by the cylinder (32) Head 34 is located. A fixing plate 40 is installed below the suction head 34, and a pair of heating electrodes 41 are installed at both sides of the fixing plate 40 to heat the explosion-proof band 11 according to the characteristics of the present invention. It is. In this case, the heating electrode 41 is fixed by the fixed electrode 42 and the cylinder 44 fixed to the support 41a of the fixed plate 40 so that the body of the explosion-proof band 11 can be held on both sides. It is divided into a moving electrode 43 installed in contact with the.

In order to mount the explosion-proof band 11 to the cathode-ray tube 10 as the mounting apparatus using the explosion-proof band of the cathode ray tube configured as described above, first, the explosion-proof band 11 is inserted into the central space 31 provided in the base plate 30. However, the ear 11a is placed on the base plate 30 and the lifting bar 33 is lifted by the cylinder 32 to adsorb the cathode ray tube 10 to the adsorption head 34 provided at the end thereof. do. At this time, as the elevating bar 33 is raised, the fixed plate 40 supported thereon rises and moves by the heating electrodes 41, that is, the fixed electrode 42 and the cylinder 44 on both sides of the fixed plate 40. Both sides of the body of the explosion-proof band 11 are gripped by the moving electrode 43. In this state, a high current low voltage with different poles is applied to a pair of heating electrodes 41 holding both sides of the explosion-proof band 11.

When voltage is applied from both sides of the explosion-proof band 11 as described above, the explosion-proof band 11 body is heated and thermally expanded by its resistance. Here, the voltage applied to the heating electrode 41 is increased steplessly as shown in FIG. 3a or stepped up and down as shown in FIG. It prevents the change of physical properties. When the thermal expansion of the explosion-proof band 11 is completed, the heating electrode 41 is separated from the body of the explosion-proof band 11 and the lifting bar 33 is lowered by the cylinder 44. As the elevating bar 33 descends, the cathode ray tube 10 adsorbed to the adsorption head 34 installed at the end thereof is inserted into the thermally expanded explosion-proof band 11 to be coupled to the explosion-proof band 11. .

As described above, the method of applying a voltage from both sides of the explosion-proof band 11 to heat it can significantly shorten the time compared to when heating with a conventional burner, thereby significantly improving productivity. That is, according to the experiment of this cause, about 66% of productivity was improved based on the conventional production volume.

In particular, when the explosion-proof band is heated according to the present invention, the explosion-proof band can be uniformly heated, and thus, when the explosion-proof band is attached, a uniform tensile force is applied to the entire explosion-proof band, thereby preventing the occurrence of cracks in the cathode ray tube.

As described above, the present invention can significantly improve the conventional problem by uniformly heating the explosion-proof band, and can suppress cracking and shrinkage that occur when the explosion-proof band and the cathode ray tube are coupled, thereby reducing the reliability of the cathode ray tube. And there is an advantage that can improve the stability.

Claims (2)

In the explosion-proof band mounting method of the cathode ray tube, a high current low voltage is applied to the explosion-proof band to thermal expansion by its own heat generation, and after being sufficiently thermally expanded, it is coupled to the cathode ray tube and cooled so that it is firmly mounted around the panel of the cathode ray tube. Explosion-proof band mounting method of the cathode ray tube, characterized in that to make. The method of claim 1, wherein the voltage is raised or lowered step by step or steplessly by applying a voltage to the explosion-proof band.

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