KR200172894Y1 - A lighting structure moving apparatus of exposing device for crt - Google Patents

Abstract

The present invention discloses a light source assembly swinging device of an exposure apparatus for a cathode ray tube.

The present invention is a base frame, and a support plate installed on the upper surface of the base frame so as to be spaced apart a predetermined distance therefrom; A rotating member rotatably installed at the lower portion of the supporting plate, the rotating member being rotated by the driving means, a first elevating member positioned above the supporting plate, and elevating means for elevating the first elevating member according to the rotation of the rotating member; And a reciprocating transfer member installed on the upper portion of the first elevating member so as to reciprocate and having a light source assembly installed therein, and a reciprocating transfer means for reciprocating the reciprocating transfer member in association with the rotation of the rotating member. This has the advantage of forming a uniform fluorescent film pattern on the inner surface of the panel.

Description

Light source assembly rocking device of cathode ray tube exposure apparatus

1 is a cross-sectional view of a general exposure apparatus.

2 is a perspective view showing a conventional light source assembly rotating apparatus.

3 and 4 are cross-sectional views showing a light source assembly rocking device of the exposure apparatus for cathode ray tubes according to the present invention.

5 is a perspective view showing an extract of the reciprocating transfer means shown in FIG.

6 is a perspective view of the light source assembly.

* Explanation of symbols for main parts of the drawings

11: base member 14: rotating member

15: first lifting member 16: reciprocating transfer member

20: getting on and off means 30: round trip transportation means

100: light source assembly 101: light source

The present invention relates to an exposure apparatus of a cathode ray tube, and more particularly, to a light source assembly oscillation apparatus of an exposure apparatus for forming a fluorescent film of a predetermined pattern on the inner surface of the panel of the cathode ray tube.

In general, in order to form a screen film on the inner surface of the cathode ray tube, a black matrix forming process of forming a black matrix having a predetermined pattern on the inner surface of the panel, and an exposure step of exposing each phosphor on the inner surface of the panel on which the black matrix is formed And a fluorescent film forming step of forming a predetermined fluorescent film pattern through a developing step of developing the exposed fluorescent film, and a reflective film forming step of forming a reflective film on the outer surface of the fluorescent film.

As described above, in the process of forming the screen film on the inner surface of the panel, the exposure process of photosensitive the fluorescent film in a predetermined pattern is performed by irradiating the fluorescent film with light emitted from the light source passing through the electron beam passing hole of the shadow mask provided on the inner surface of the panel. In this case, the trajectory of the light irradiated from the light source is the same as the trajectory of the electron beam emitted from the electron gun of the completed cathode ray tube. Since the fluorescent film pattern formed on the inner surface of the panel varies according to the trajectory of the light emitted from the exposure light source or the intensity of the light, the distribution and the trajectory of the light irradiated to the inner surface of the panel from the light source during exposure should be the same as the electron beam trajectory of the designed electron gun.

In particular, when the fluorescent film is a dot type, it is well known to prevent landing errors during landing of the electron beam emitted from the electron gun by relatively increasing the light spot irradiated to the fluorescent film through the shadow mask.

In FIG. 1, an example of the exposure apparatus for exposing each fluorescent film apply | coated to the inner surface of the panel was shown.

The upper surface of the cabinet 10 is formed with a seating portion 12 formed with an opening 11 and the edge portion 101 of the panel 100 is seated at the edge thereof, the cabinet 10 is inside the panel 100 Shutter sequentially provided from the exposure light source assembly 21 between the exposure light source assembly 21 and the exposure light source assembly 21 and the inner surface of the panel 100 so as to irradiate light on the inner surface of shutter 22, correction lens 23, and ND filter 24. The exposure light source assembly includes a lamp housing 21a having a hollow portion 21b, a lamp 21c fixed to the lamp housing 21a across the hollow portion 21b, and the lamp housing 21a. ) Is provided with a rotating means (30) for rotating. The rotation means 30 is composed of an eccentric cam 32 rotated by a motor 31, and a rod 33 in contact with the eccentric cam and fixed to one side of the lamp housing 21a. At this time, the rod 33 may hinge the eccentric cam 32 and the lamp housing 21a.

In the conventional exposure apparatus configured as described above, the light irradiated from the lamp 21c of the exposure light source assembly 21 which is rotated in one direction by the rotation means 30 has the shutter 22 and the correction lens 23. ) And the electron beam through hole 111 of the shadow mask 110 installed on the inner surface of the panel 100 to be exposed to the front surface of the panel 100 to expose the inner surface.

However, the exposure apparatus as described above rotates the lamp housing with respect to the inner surface of the panel 100 having a predetermined curvature by the rotating means to expose the fluorescent film on the inner surface of the panel 100, but at the edge of the inner surface of the panel 100. Due to the geometric curvature of (100), the electron beam passing through the shadow mask 110 is distorted horizontally, and when the light is scanned at the center of the panel 100 and at the periphery, a difference in illuminance of light is generated to cause light As a result, there is a problem in that the degree of exposure of the fluorescent film, that is, the degree of curing of light at the central and peripheral portions of the fluorescent film is changed.

The present invention has been made to solve the above problems, an object of the present invention is to provide a cathode ray tube exposure apparatus that can form a uniform fluorescent film pattern on the inner surface of the front panel.

The present invention to achieve the above object

A base frame, a support plate provided on the upper surface of the base frame so as to be spaced a predetermined distance therefrom, a rotating member rotatably installed at a lower portion of the support plate and rotated by a driving means, and a first elevating member positioned above the support plate. And elevating means for elevating the first elevating member according to the rotation of the rotating member, a reciprocating member installed on the upper portion of the first elevating member so as to reciprocate and having a light source assembly installed thereon, and interlocked with the rotation of the rotating member. And a reciprocating means for reciprocating the reciprocating member.

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

The exposure apparatus for cathode ray tube is to irradiate light on the inner surface of the panel to which the phosphor slurry is applied and dried in a predetermined pattern to form a fluorescent film, and includes a light source assembly, a rocking device for rocking the light source assembly, and a front surface of the light source assembly. A correction lens, a filter, and the like, which are installed at the upper and lower surfaces thereof, are illustrated in FIGS. 3 to 5, which illustrate an example of a light source assembly oscillation device of an exposure apparatus for cathode ray tubes for oscillating the light source assembly in a vertical direction.

The base plate 11, the support plate 12 provided on the upper surface of the base frame 11 so as to be spaced a predetermined distance therefrom, and is rotatably installed on the lower portion of the support plate 12, the drive means 13 Lifting member for elevating the first elevating member (15) in accordance with the rotation of the rotating member 14, the first elevating member (15) located above the support plate 12, and the rotating member (14) Reciprocating in conjunction with the rotation of the means 20, the reciprocating member 16, the reciprocating member 16 is installed on top of the first elevating member 15, the light source assembly 100 is installed, and the rotation member 14 It is roughly classified into reciprocating means 30 for reciprocating the member 16.

The installation of the reciprocating conveying member 16 with respect to the first elevating member 15 may be reciprocated with respect to the first elevating member 15 by a linear bearing 16a installed in a direction parallel to the rotating member 14. Is installed.

The drive means 13 for rotating the rotary member 14 is used a conventional motor, the rotary member 14 is an eccentric cam is used.

The elevating means 20 is to elevate the first elevating member 15 installed on the upper portion of the support plate 12, the plurality of penetrating through the support plate 12 in a width narrower than the width of the first elevating member 15 Support rods 21 are installed and upper ends of each support rod 21 are fixed to both side edges of the first elevating member 15. And the lower end of each support bar 21 is located in the upper portion of the rotating member 14 therefrom is fixed to the connecting plate 23 is provided with a roller 22 in contact with the rotating member 14 on the lower surface. Here, the support rod 21 installed through the support plate 12 is supported by the tubular cover member 24 which is installed on the support plate 12 and has a locking jaw 24a formed at its upper and lower ends, and the support rod 21. In the center portion of the) is provided with a locking plate 21a, the elastic member 25 is installed between the locking plate 21a and the locking jaw (24a) of the upper and lower ends of the cover member 24, respectively.

And the reciprocating transfer means 30 is to reciprocate the reciprocating transfer member 16 with respect to the first elevating member 15, as shown in Figure 5 is installed so as to slide vertically to the support plate 12 And a second lifting member 32 provided with a guide roller 31 in contact with the rotating member 14 at a lower end thereof, and a second supporting member 12 between the support plate 12 and a lower end of the second lifting member 32. With respect to the second elevating member 32 in the longitudinal direction of the spring, which is an elastic member 33, and the linear bearing 16a supported on the first elevating member 15, which is installed at the upper end of the second elevating member 32. It is provided with the inclined slider 35 and the first and second contact rollers 36 and 37 provided on the lower surface of the reciprocating conveying member 16 and in contact with the front and rear surfaces of the inclined slider 35. .

Here, the light source of the light source assembly mounted to the reciprocating member 16 has a rectangular shape as shown in FIG. 6, so that the reciprocating direction of the reciprocating member 16 is a long side portion of the light source 101. It is made in the direction perpendicular to.

Referring to the operation of the light source assembly rocking device of the exposure apparatus for cathode ray tube according to the present invention configured as described above are as follows.

In order to expose the inner surface of the panel by using the exposure apparatus according to the present invention, the inner surface of the panel on which the shadow mask is installed is installed to face the light source of the light source assembly.

In this state, the drive means 13 rotates the motor. In this case, the connecting plate 23 is lifted by the roller 22 provided on the lower surface of the connecting plate 23 contacting the rotating member 14. Therefore, the first elevating member 15 connected by the connecting plate 23 and the support bar 21 is lifted to raise and lower the light source assembly up and down. In addition, the reciprocating transfer means (30) by the reciprocating transfer member 16 is to be moved in the yellow so as to be perpendicular to the longitudinal direction of the light source, which will be described as follows. As the rotation member 14 which is the eccentric cam is rotated at a predetermined rotational speed, the second lifting member 32 is lifted and thus the slider 33 installed at the end of the lifting member 32 is lifted. 33 is inclined at a predetermined angle, and the upper and lower surfaces thereof are in contact with the first and second contact rollers 36 and 37 so that the reciprocating transfer member 16 reciprocates with respect to the first elevating member 15. Therefore, since the light source 101 of the light source assembly 100 is reciprocated to be perpendicular to the longitudinal direction of the light source, the light spot irradiated from the light source and passed through the electron beam passing hole of the shadow mask to the inner surface of the panel is horizontally oriented. Distortion can be prevented.

As described above, the exposure apparatus of the cathode ray tube of the present invention raises and lowers the light source for irradiating light to the inner surface of the panel and reciprocates in a direction perpendicular to the length of the light source to obtain a uniform circular light spot on the inner surface of the panel. Has the advantage of forming a uniform fluorescent film pattern on the inner surface of the panel.

Claims (4)

A base plate and a support plate provided on an upper surface of the base frame so as to be spaced a predetermined distance therefrom; A rotating member rotatably installed at the lower portion of the supporting plate, the rotating member being rotated by the driving means, a first elevating member positioned above the supporting plate, and elevating means for elevating the first elevating member according to the rotation of the rotating member; And a reciprocating transfer member installed on the upper portion of the first elevating member so as to reciprocate and having a light source assembly installed therein, and a reciprocating transfer means for reciprocating the reciprocating transfer member in conjunction with the rotation of the rotating member. Common exposure apparatus Light source assembly shake device. The light source assembly oscillation device of claim 1, wherein the rotating member comprises an eccentric cam. The connecting plate of claim 1, wherein the elevating means is rotatably installed on a connecting plate positioned on an upper portion of the rotating member, and a lower surface of the connecting plate and in contact with the rotating member; 1. A light source assembly of an exposure apparatus for a cathode ray tube, comprising a support rod connecting a lifting member. According to claim 1, wherein the reciprocating transfer means is installed to be slidable vertically on the support plate and the second lifting member provided with a guide roller in contact with the rotating member at the lower end, between the support plate and the lower end of the second lifting member On the second elastic member supported on the, the upper end of the second elevating member and the slider inclined with respect to the second elevating member in the longitudinal direction of the linear bearing supported on the first elevating member, and the lower surface of the reciprocating transfer member And a first and second contact rollers provided in contact with the front and rear surfaces of the inclined slider.