KR940008758B1 - Bead glass assembling apparatus of electron gun for crt - Google Patents

Abstract

The bead glass construction apparatus includes a movable member capable of being horizontally moved along a rail on both sides of a supporting member fixed on a supporting board, and a base mounted on the movable member, and capable of being rotated by a predetermined angle on a hinge pin in the center, in which the bead glass is moved under the uniform pressure according to the rotation and horizontal movement of the base, and assembled into a cathode supporter and electrodes, thereby uniformely burying the bead glass in the cathode supporter and electrodes.

Description

Bead glass assembly device of electron gun for cathode ray tube

1 is a schematic view showing the structure of an electron gun for a cathode ray tube.

2 is a functional diagram showing a state in which bead glass is assembled by a conventional device.

3 is a partial action diagram for explaining a problem of the conventional apparatus.

4 is a functional diagram showing a state in which bead glass is assembled by the apparatus of the present invention, (a) is a state in which the base is rotated to form a vertical, (b) is a state in which the base is horizontally moved to assemble the bead glass.

* Explanation of symbols for main parts of the drawings

7: support plate 8: support member

9: rail 10: moving member

11 base 12 suction hole

13: vacuum pump 15: detection sensor

The present invention relates to a bead glass assembly apparatus of an electron gun for a cathode ray tube, and more particularly, to be able to stably assemble bead glass to a cathode support and a plurality of electrodes forming an electron gun for a cathode ray tube to improve the assembly precision. will be.

In general, an electron gun for a cathode ray tube includes a cathode support (2), a first electrode (3), a second electrode (4), and a third electrode (5) on a pair of bead glass (1) as shown in FIG. Both ends of the fourth electrode 6 are buried so as to maintain a constant interval.

In addition, although not shown, a cathode is connected to the cathode support 2, and a plurality of feed lines are connected to each electrode 3, 4, 5, and 6 so as to apply an operating voltage of the cathode ray tube. When the electron beam is formed by the operating voltage, the electron beam passes through each of the electrodes 3, 4, 5, and 6 to arrive at the surface of light.

In the above, the cathode support 2 and the electrodes 3, 4, 5, and 6 are kept at regular intervals perpendicular to the path through which the electron beam passes, because of the occurrence of a cathode. This is to allow the electron beam to be controlled to a certain intensity and shape to reach the screen.

Therefore, the cathode support 2 and the electrodes 3, 4, 5, and 6 constituting the electron gun for the cathode ray tube can be maintained using a separate jig to maintain a predetermined interval thereafter. What is necessary is just to assemble the bead glass 1 by the granulation apparatus in the both ends of each electrode 3, 4, 5, 6.

The beadgrass assembly apparatus of the electron gun for the conventional cathode ray tube, as shown in Figure 2 of the accompanying drawings, the base member 23 to the left and right, respectively, to be rotated by a predetermined angle around the hinge axis to the support member 22 fixed to the support plate 21. It is a structure made by installing).

Therefore, each of the electrodes 3, 4, 5 and 6 of the cathode support 2 is vertically positioned in order to form a predetermined interval by a jig toward the upper center of the support member 22 fixed to the support plate 21. Next, the bead glass 1 is placed on the inner surface of the base 23 in a state in which the base 23 rotatably mounted on the support member 22 is inclined at a predetermined angle as shown by the solid line in the drawing, and heating is not shown. The beadgrass 1 is heated by means.

When the bead glass 1 thus heated is in the semi-melt state, the base 23 is rotated vertically as a dashed line in the drawing by the base pivoting means installed in the support member 22, with the base axis being rotated. 23, the bead glass 1, which was in a semi-melt state, was buried and assembled at both ends of the cathode support 2 and the electrodes 3, 4, 5, and 6, and when the investment was completed, the base 23 Rotates back to its original state about the hinge axis.

Meanwhile, the bead glass 1 embedded in the cathode support 2 and the electrodes 3, 4, 5, and 6 is cooled for a predetermined time, and thus the cathode support 2 and the electrodes 3 are cooled. (4) (5) (6) are installed in the bead glass 1 at regular intervals.

However, as described above, the bead glass is assembled by rotating the base by a certain angle about the hinge axis as described above, so that when the bottom of the bead glass is buried in the fourth electrode as shown in FIG. The upper end of is maintained at a considerable distance from the cathode support, and as a result, a difference by θ angle is generated. Therefore, a large pressure is applied to the electrode width close to the rotation center of the base. The small pressure is applied, the assembly state of the bead glass due to the pressure difference is not uniform, which causes a problem of shortening the life of the product as the assembly precision falls.

The present invention has been made to solve the above problems, the bead glass can be assembled to the negative electrode support and each electrode at the same pressure to improve the performance of the product by precision and bead glass is connected stably to the base Its purpose is to improve productivity.

According to the present invention for achieving the above object is provided with a movable member to move horizontally along the rail to both sides of the support member fixed to the support plate and to the movable member by installing a base to be rotated by a predetermined angle around the hinge axis There is provided a beadgrass assembly apparatus of an electron gun for a cathode ray tube of the present invention in which bead glass is assembled to a cathode support and each electrode while the beadgrass moves at the same pressure according to the rotation and horizontal movement of the base.

Hereinafter, the present invention will be described in more detail with reference to FIG. 4 of the accompanying drawings.

4 is an operation diagram showing a state in which bead grass is assembled by the apparatus of the present invention, a) is a state diagram in which the base is rotated so as to be vertical, and b) is a state diagram in which the base is horizontally moved to assemble beadgrass. .

The present invention and the movable member 10 installed to be horizontally moved along the rail 9 on both sides of the support member 8 fixed to the support plate 7, and the movable member to be rotated by a predetermined angle around the hinge axis It consists of a base 11 installed so that.

In addition, the suction holes 12 are formed in the base 11, respectively, so that the suction force of the vacuum pump 13 is transmitted to the suction holes through the hoses 14, and the sensing sensors 15 are provided on both sides of the support member 8, respectively. By installing the sensor so as to detect the moving member 10 to control the operation of the vacuum pump (13).

According to the present invention configured as described above, the cathode support 2 and each of the electrodes 3, 4, 5, and 6 are sequentially formed at a predetermined interval by a jig to the upper center of the support member 8 as described in the related art. As shown in FIG. 3A, the base 11, which is vertically positioned and rotatably installed on the movable member 10, is beaded on the inner surface of the base 11 in a state inclined at a predetermined angle as shown by a solid line in FIG. 1) is put on each of the bead glass (1) by heating means not shown.

At this time, the suction force is generated according to the operation of the vacuum pump 13 so that the suction force is transmitted to the suction hole 12 formed in the base 11 through the hose 14, so that the bead glass 1 is in the base 11. In this state, the bead glass 1 falls stably from the base 11 during rotation and horizontal movement of the base 11.

When the bead glass 1 is placed on the base 11 in this manner, the bead glass 1 is semi-melted by a heating means (not shown), and then the cathode support 2 and the electrodes 3 and 4 are immediately melted. What is necessary is just to assemble the bead glass 1 to (5) (6).

That is, when the bead glass 1 is in the semi-melt state, the base 11 is rotated about the hinge axis by the base pivoting means installed in the movable member 10, and the base 11 is vertically moved and moved by the base movable means. Since the 10 is moved along the rails 9 toward the supporting member 8, the base 11 installed on the moving member 10 is also moved together as shown by the dashed-dotted line in FIG. Bead glass (1) mounted on (11) is buried and assembled at both ends of the cathode support (2) and the electrodes (3) (4) (5) and (6), respectively. Meanwhile, the bead grass 1 mounted on the base 11 moved together when the moving member 10 moves horizontally along the rail 9 is provided with the cathode support 2 and the electrodes 3, 4, 5 ( 6) At the point of contact with the sensor, the detection sensors 15 installed on both sides of the support member 8 detect this, and the suction force is not transmitted to the suction hole 12 formed in the base 11 by turning off the operation of the vacuum pump 13. Accordingly, when the base 11 is moved to the initial state in the state in which the bead glass 1 is assembled, the base 11 reverses to the previously described operation for assembling another bead glass. Can fall easily.

In the above description, the reason why the base 11 is inclined at an angle at first is to make it easy to place the bead glass 1 on the base 11.

Therefore, the present invention has bead glass is embedded in the cathode support and each electrode at the same pressure up and down, so that the depth of investment is uniform, the precision is improved, and thus there is an effect that can greatly contribute to extending the life and productivity of the product.

Claims (2)

The movable member 10 installed to move horizontally along the rail 9 to both sides of the supporting member 8 fixed to the supporting plate 7, and the movable member installed to be rotated by a predetermined angle about the hinge axis. It is composed of a base 11 so that the bead glass 1 is assembled to the cathode support (2) and each electrode (3) (4) (5) (6) as the base is rotated and horizontally moved to the same pressure Bead glass assembly apparatus for a cathode ray tube electron gun, characterized in that. The suction hole 12 is formed in the base 11 and the sensing sensors 15 are installed at both sides of the support member 8 so that the suction hole 12 is generated in the vacuum pump 13. Bead glass assembly apparatus for the cathode ray tube electron gun to control the operation of the vacuum pump 13 while the sensing sensor 15 detects the moving member 10 that is moved when the suction force is transmitted.