KR940000381B1 - Method and apparatus of making a correction lenz of exposing apparatus - Google Patents

Abstract

The apparatus comprises multiple blocks (2) resp. with different slopes, a punch holder for sustaining the blocks by a fixing bolt (3), an acryl frame which is connected to the bottom of the punch holder to form a hollow space for injection molding of a correction lens, and injection inlet for injecting the acryl liquid into the hollow space formed between the punch holder and the acryl frame.

Description

Correction lens of exposure apparatus, manufacturing method thereof and correction lens manufacturing apparatus

1 is an exploded perspective view schematically showing a state in which a correcting lens manufactured according to an embodiment of the present invention is inserted into an exposure apparatus.

2 is a cross-sectional view showing an apparatus for manufacturing a correcting lens according to the present invention.

3 is an exploded perspective view of the exposure apparatus of the prior art.

* Explanation of symbols for main parts of the drawings

1: Correction lens 2: Block

3: Set Screw 6: Punch Holder

7: acrylic forming frame 8: injection hole

9: exposure apparatus 10: panel

11: correction shutter 12: lamp house

13: Shadow Mask

The present invention relates to a correcting lens of the exposure apparatus, a method of manufacturing the same, and a manufacturing method of the correcting lens, and in particular, a correcting lens of the exposure apparatus capable of forming a phosphor on the screen surface inexpensively and conveniently in accordance with a deflection operation of the deflection coil, and a A manufacturing method and a corrective lens manufacturing apparatus.

In general, three types of phosphors of red (R), green (G), and blue (B) are formed in a stripe-shaped stripe shape on the inner surface of the panel of the color brown tube, and the red, green, and blue three-color phosphors are formed. A black matrix is formed between the stripes as a light absorbing material. On the other hand, looking at the manufacturing process of the stripe of red, green, blue phosphor, a predetermined photosensitive agent is applied to the inner surface of the panel, the light source (not shown) mounted on the exposure apparatus 60, for example, shadows emitted from the mercury lamp The phosphors of three colors are formed by irradiating through the micropores of the mask 61 and exposing them.

Here, when the main components of the conventional exposure apparatus 60 as described above are briefly examined, the light emitted from the lamphouse 62 to which the light source is mounted is irradiated from the periphery inside the panel 63 to the center and back to the other periphery. It consists of a correction shutter (64) for moving the left and right while partially blocking the light, and a correction lens (65) for preventing the light passing through the correction shutter (64) from being refracted. Light irradiated to the inner surface of the panel 63 through the correction shutter 64, the correction lens 65, and the shadow mask 61 from the correction shutter 64 as the correction shutter 64 moves to the left and right. The photosensitive resin composition applied to the inner surface of the panel 63 is exposed to form a predetermined phosphor.

However, the correction lens 65 of the conventional exposure apparatus configured as described above, when the landing of the light irradiated on the inner surface of the panel 63 is shifted, in correcting the correction position, when the landing correction of the point to be corrected, the point There is a limitation in the correction since only correction cannot be made and correction must be performed by the correlation between the corresponding point and the left and right symmetrical points. Therefore, since light is irradiated to the inner surface of the panel 63 corresponding to the edge of the panel 63 having a large degree of flatness of the electron beam through the edge of the correction lens 65, the corrected correction points can be accurately corrected. Since it is impossible to reduce the brightness or to be greatly influenced by the geomagnetic field, there is a disadvantage of degrading the quality of the CRT.

In addition, since the entire conventional correction lens 65 is integrally formed, even if a portion thereof is defective, only the portion of the correction lens 65 cannot be corrected. Therefore, the correction lens 65 must be discarded and replaced with a newly corrected correction lens. The drawback was that the economic losses were high, including high maintenance costs.

Accordingly, the present invention has been invented to solve the above-mentioned shortcomings, and an object of the present invention is to manufacture a correction lens composed of a plurality of divided blocks, each of which can be replaced using a low-cost acrylic material. The present invention provides a correction lens for an exposure apparatus, a method of manufacturing the same, and an apparatus for manufacturing the correction lens to form a phosphor matching the deflection operation of the deflection coil to improve the quality of the CRT.

Correction lens of the exposure apparatus according to the present invention for achieving the above object, made of acrylic and has a plurality of different inclination on one side, and has a flat surface made the other side flat, An apparatus for manufacturing a correcting lens of an exposure apparatus used for manufacturing a correcting lens of a shape includes a punch holder for dividing a block having a predetermined inclination and a block having a predetermined inclination with a fixing screw, and a punch holder. On the other hand, a method of manufacturing a correction lens of the exposure apparatus having the shape includes a punch holder for supporting a plurality of divided blocks and a lower portion of the punch holder. At a low temperature, the acrylic stock solution is injected through the injection hole in the space formed between the Bite-injection molding, and then, after a predetermined time to separate the punch holder and acrylic forming mold to produce a correction lens of the acrylic.

If the landing lens is incorrectly formed on the inner surface of the CRT panel, the correction lens manufactured as described above corrects the inclination so that the landing position of the light is corrected by taking out only the necessary correction lens block at a position corresponding to the correction point on the inner surface of the CRT panel. After reinsertion, the light is accurately landed on the phosphor, thereby reducing the influence on the CRT brightness and the geomagnetic properties, thereby improving the CRT quality.

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

FIG. 11 is an exploded perspective view schematically showing a state in which a correcting lens manufactured according to an embodiment of the present invention is inserted into an exposure apparatus, and FIG. 2 is a cross-sectional view showing an apparatus for manufacturing a correcting lens according to the present invention.

As shown in detail in FIG. 2, an apparatus for manufacturing a correcting lens 1 according to an embodiment of the present invention is divided into a plurality of blocks 2 having a predetermined slope, and a plurality of blocks 2 divided into a plurality of them. Is formed of a punch holder 6 supported by the fixing screw 3 and an acrylic forming frame 7 coupled to a lower portion of the punch holder 6 to form a space portion for injection molding the correction lens 1. have. In the above description, a space portion is formed between the punch holder 6 and the acrylic mold 7 at the same time, and an injection hole 8 is formed at one side to inject an acrylic stock solution into the space portion. Of course it becomes.

The correction lens 1 manufactured by the correction lens manufacturing apparatus of the exposure apparatus configured as described above is made of acrylic, as shown in detail in FIG. 1, and a plurality of different inclinations are arranged on one side and a flat surface on the other side. Have.

Next, a method of manufacturing the corrected lens of the exposure apparatus 9 according to the present invention will be described.

According to an embodiment of the present invention, a method of manufacturing a correcting lens 1 includes a punch holder 6 supporting a plurality of divided blocks 2 and an acrylic mold 7 coupled to a lower portion of the punch holder 6. And injection molding the acrylic stock solution at low temperature through the inlet 8 through the injection hole 8, and after a predetermined time, the punch holder 6 and the acrylic forming mold 6 are separated and The manufacture is completed by drawing out the correction lens 1 formed in the lens.

The operational effect of the correction lens of the present invention manufactured by the above method will be described.

The correction lens 1 of the present invention is adjusted so that phosphors of three colors R, G, and B on the screen surface of the color receiving tube are formed at appropriate positions in order to properly match the deflection operation of the deflection coils during the landing of light. That is, the correction lens 1 is inserted between the inner surface of the panel 10 of the exposure apparatus 9 and the correction shutter 11, as shown in FIG. 1, and the lamp house 12 through the correction shutter 11. When light is emitted from the light, the light passes through the correction lens 1 and then passes through the microholes of the shadow mask 13 to be landed on the inner surface of the panel 10. At this time, when the landing of the light shifts on the inner surface of the panel 10, the slope of the necessary block 2 of the correction lens 1 corresponding to the correction point is corrected by cutting or grinding, and then the punch holder 6 Be sure to lock it in place. Therefore, the correction position range can be subdivided and corrected.

As described above, the correction lens manufactured according to the present invention is manufactured by injection molding the correction lens 1 having a block structure by a device for manufacturing a correction lens separated into a plurality of blocks using an inexpensive acrylic material. Thus, when the landing position of the light emitted from the electron gun is incorrectly formed in the phosphor on the inner surface of the panel 10, only the block 2 of the correction lens 1 corresponding to the correction point of the wrong landing position is taken out and the slope is cut differently. It is possible to precisely correct the landing position of the light by grinding or grinding by grinding, thereby reducing the influence on the brightness and the geomagnetic properties, thereby improving the quality of the CRT and using low-cost acrylic materials. The effect of reducing the cost of the lens can be obtained.

Claims (3)

The correction lens of the exposure apparatus, characterized in that made of acrylic and having a plurality of different slopes on one side, the other side is a flat surface. A block 2 divided into a plurality of blocks having a predetermined inclination, a punch holder 6 supporting the plurality of divided blocks 2 by a fixing screw 3, and a lower portion of the punch holder 6; Compensation lens manufacturing apparatus of the exposure apparatus, characterized in that made of an acrylic forming frame (7) coupled to form a space portion for injection molding the correction lens (1). At a low temperature through the injection hole 8 in the space formed between the punch holder 6 supporting the plurality of divided blocks 2 and the acrylic mold 7 bonded to the lower part of the punch holder 6. After injection molding with injection of the acrylic stock solution, after a predetermined time, the punch holder 6 and the acrylic forming frame 6 are separated to produce an acrylic correction lens 1. Lens manufacturing method.