KR100432768B1 - Apparatus for forming crt flat panel and the crt flat panel formed by the apparatus - Google Patents

Abstract

The present invention relates to a flat panel molding apparatus for a cathode ray tube and a flat panel for a cathode ray tube molded using the same, characterized in that at least one depression is formed on the bottom plate surface of the receiving portion along the circumferential direction. As a result, a flat panel forming apparatus for a cathode ray tube and a flat panel for a cathode ray tube manufactured without warping are provided, thereby removing distortion and improving the efficiency of the polishing process.

Description

Flat Panel Forming Apparatus for Cathode Ray Tubes and Flat Panel Formed by Cathode Ray Tubes Using Them {APPARATUS FOR FORMING CRT FLAT PANEL AND THE CRT FLAT PANEEL

The present invention relates to a flat panel molding apparatus for a cathode ray tube and a flat panel for a cathode ray tube molded using the same, and more particularly, to a flat panel molding apparatus for a cathode ray tube having an improved shape of a lower mold and a cathode ray tube molded using the same. It relates to a flat panel.

Generally, a cathode ray tube has a panel on which an image is displayed, a funnel-shaped funnel coupled to the rear of the panel, and a neck coupled to the funnel. The panel has a face portion on which an image is displayed and a skirt portion bent backward from the edge of the face portion.

The conventional cathode ray tube panel is formed such that the front face portion is curved toward the front, so that the overall installation space increases, and image recognition of the edge region is not easy. Therefore, in recent years, flat panel flattening the front face of the panel has been devised and used. However, if the face portion is simply flattened, the mechanical strength of the cathode ray tube may be reduced, and damage may occur at the joint portion between the panel and the funnel during the vacuum treatment in the manufacturing process. In view of such a problem and the like, recently, a flat panel having a skirt portion removed is used.

The conventional flat panel 210 for cathode ray tube is formed in a substantially rectangular plate shape, as shown in Figure 4, has an upper surface 212 and the lower surface 213 and the side 214 connecting them. The lower bevel 218 is formed at the corner where the lower surface 213 and the side surface 214 meet, and the upper bevel 216 is formed at the corner where the upper surface 212 and the side surface 214 meet.

As shown in FIG. 5, the flat panel forming apparatus for forming the flat panel 210 is lifted with respect to the pedestal 280 and the pedestal 280 disposed on a rotatable turntable (not shown). It has a ram (not shown) installed to be possible.

At the upper end of the pedestal 280, a lower mold 270 for forming the lower surface 213, the lower bevel 218 and the side surface 214 of the flat panel 210 is installed, the lower mold 270 At the upper end, a shell mold 260 having a rectangular loop shape for forming the upper bevel 216 of the flat panel 210 is disposed. And inside the shell mold 260, a plunger 250 for compressing the glass gob provided in the lower mold 270 to form the flat panel 210 is provided to be elevated.

By this configuration, when the glass gob is introduced into the lower mold 270 from the glass melting furnace (not shown), the plunger 250 is lowered toward the lower mold 270 to press the glass gob. The flat panel 210 formed in the lower mold 270 and the shell mold 260 by the pressure of the plunger 230 passes through a predetermined cooling process and then moves to a post process such as a polishing process.

By the way, in the conventional flat panel molding apparatus for cathode ray tube, as shown in the dashed line in Figure 4 (exaggerated for convenience of description) in the process of cooling the flat panel 210 from the molding, flat panel A distortion phenomenon occurs in which the edge region of 210 is raised with respect to the center region, thereby lowering the efficiency of the polishing process for the raised portion.

Accordingly, an object of the present invention is to provide a flat panel molding apparatus for a cathode ray tube to remove the distortion phenomenon to increase the efficiency of the polishing process.

Another object of the present invention is to provide a flat panel for a cathode ray tube manufactured without distortion.

1 is a longitudinal sectional view of a flat panel for a cathode ray tube according to the present invention;

2 is a partial longitudinal cross-sectional view of a flat panel forming apparatus for a cathode ray tube according to the present invention;

3 is an enlarged view of region “A” of FIG. 2;

4 is a longitudinal sectional view of a conventional flat panel for cathode ray tubes;

5 is a partial longitudinal sectional view of a conventional flat panel molding apparatus for a cathode ray tube.

* Explanation of symbols for the main parts of the drawings

10: flat panel 19: protrusion

50: plunger 60: shell mold

70: lower mold 71: depression

The object is, according to the present invention, the lower mold having a receiving portion for receiving the glass gob, and the plunger is mounted to the lower mold to be raised and lowered to press the glass gob received in the receiving portion of the lower mold to form a flat panel In the flat panel molding apparatus for a cathode ray tube having at least one recessed portion formed in the bottom plate surface of the receiving portion along the circumferential direction is achieved by a flat panel molding apparatus for cathode ray tubes.

Here, the recess is advantageously formed adjacent to the side wall of the lower mold and continuously formed along the circumferential direction of the lower mold.

On the other hand, according to another field of the present invention, the object is produced by the flat panel molding apparatus for cathode ray tube of claim 1, the upper surface is formed by the plunger and the lower surface is formed by the receiving portion of the lower mold And at least one protrusion corresponding to the depression is formed along the circumferential direction of the lower surface.

Here, the protrusion is advantageously formed continuously along the circumferential direction of the lower surface.

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

The flat panel 10 for a cathode ray tube according to the present invention, as shown in FIG. 1, is molded into a substantially rectangular plate shape, and has an upper surface 12 and a lower surface 13 and a side surface 14 formed therebetween. .

The lower bevel 18 is formed at the corner where the lower surface 13 and the side surface 14 meet, and the upper bevel 16 is formed at the corner where the upper surface 12 and the side surface 14 meet. And the lower surface 13 is formed with a projection 19 protruding from the plate surface in the circumferential direction. The protrusion 19 is formed by the recess 71 of the lower mold 70 to be described later, and prevents the warp phenomenon in which the edge region of the flat panel 10 is raised with respect to the center region.

The flat panel molding apparatus for a cathode ray tube according to the present invention for molding the flat panel 10, as shown in Figure 2, the pedestal 80 is disposed on a rotatable turntable (not shown), and the pediment It has a ram (not shown) installed so that it can be elevated with respect to the hair 80.

The ram adapter 20 is coupled to the lower region of the ram, and the plunger head 30 is coupled to the lower portion of the ram adapter 20. The plunger head 30 forms a cooling fluid dispensing space 53 with the plunger head 30 and is coupled to the plunger head 30 so as to be liftable integrally to form the upper surface 12 of the flat panel 10. The plunger 50 in which the shaping | molding surface 51 to make is combined.

The cooling fluid distribution space 53 is a molding surface so that the molded surface 51 can be cooled so that the molded flat panel 10 is not fused to the molding surface 51 of the plunger 50 after the molding of the glass gob is completed. It is recessed toward 51. The cooling fluid distribution space 53 is provided with a fluid distribution member 40 that receives the cooling fluid from the plunger head 30 and sprays the cooling fluid into the cooling fluid distribution space 53 to cool the plunger 50.

A fluid receiving space 41 recessed downward from the upper side is formed inside the fluid distribution member 40, and the bottom region of the fluid receiving space 41 is spaced a predetermined distance from each other so as to be coupled to the plunger head 30. A plurality of pairs of boss portions 43 are formed. A fluid passage hole 45 is formed in the adjacent region of each boss portion 43 through the plate surface, and the plunger 50 is discharged through the fluid passage hole 45 in the central region of the fluid distribution member 40. The fluid discharge passage 47 is formed to be partitioned from the fluid receiving space 41 so that the cooled cooling fluid can be discharged.

In the central region of the plunger head 30, a return flow path 39 of the cooling fluid is formed in communication with the fluid discharge path 47 of the fluid distribution member 40 along the axial direction, and around the return flow path 39. A plurality of fluid supply passages 38 for supplying a cooling fluid to the fluid receiving space 41 are arranged radially in parallel with the return passage 39.

At the upper end of the pedestal 80, a lower mold 70 for forming the lower surface 13, the lower bevel 18 and the side surface 14 of the flat panel 10 is installed, and the lower mold 70 On the upper side, a shell mold 60 for molding the upper bevel 16 of the flat panel 10 is disposed. The shell mold 60 has a substantially rectangular loop shape and is selectively disposed on the upper end of the lower mold 70 in the compression molding facility.

As shown in FIG. 3, the receiving portion of the lower mold 70 containing the glass gob has a bottom plate surface 73 and a side wall 74 depending on its position. At least one recessed part 71 is formed in the bottom plate surface 73 along the circumferential direction.

The depression 71 is preferably continuously formed along the circumferential direction of the lower mold 70 so as to be adjacent to the sidewall 74 of the lower mold 70. However, the recess 71 may be formed only in a specific region of the lower mold 70.

The depression 71, as shown in FIG. 1, forms a protrusion 19 on the lower surface 13 of the flat panel 10, and due to the protrusion 19, the flat panel 10 immediately after molding. The edge region of is made thicker than the central region. Therefore, it is possible to prevent the flat panel 10 from being warped due to the cooling speed difference with respect to the difference in thickness between the center region and the edge region.

The recess 71 may not only allow the recess 71 to be integrally formed when the lower mold 70 is manufactured, but also drill or discharge machining the bottom plate 73 of the existing lower mold 70. It can also be formed through. At this time, the size of the depression 71 can be appropriately adjusted according to the size of each type of flat panel 10 to be molded, the shape is irrelevant.

By this configuration, when the glass gob is introduced into the lower mold 70 from the glass melting furnace (not shown), the plunger 50 is lowered toward the lower mold 70 to pressurize the glass gob. The flat panel 10 formed in the lower mold 70 and the shell mold 60 by the pressure of the plunger 50 passes through a predetermined cooling process and then moves to a post process such as a polishing process.

At this time, since the recessed portion 71 is formed in the lower mold 70, the protrusion 19 is formed on the lower surface 13 of the flat panel 10 formed by the pressure of the plunger 50. Therefore, immediately after molding, in the process of the flat panel 10 undergoing a cooling process, the flat panel 10 may be prevented from being twisted due to a cooling speed difference due to a different thickness between the center region and the edge region.

As described above, in the present invention, at least one depression 71 is formed in the bottom plate surface 73 of the receiving portion of the lower mold 70 in the circumferential direction, whereby occurrence of defects in the flat panel 10 to be molded can be suppressed. It becomes possible.

In the above-described embodiment, the protrusions are formed in the flat panel due to the depressions formed in the lower mold, and thus the flat panel is prevented from being twisted. However, after molding, the flat panel is subjected to a polishing process of polishing the plate surface by the polishing wheel, and the protrusion formed on the flat panel may provide an additional effect of preventing the glazing of the polishing wheel during polishing.

As described above, according to the present invention, there is provided a flat panel molding apparatus for a cathode ray tube to remove the distortion phenomenon to increase the efficiency of the polishing process.

In addition, according to the present invention, there is provided a flat panel for a cathode ray tube manufactured without warping phenomenon.

Claims (4)

A flat panel forming apparatus for a cathode ray tube having a lower mold having a receiving portion for accommodating the glass gob, and a plunger installed to be liftable with respect to the lower mold to press the glass gob received in the receiving portion of the lower mold to form a flat panel. In Flat panel molding apparatus for a cathode ray tube, characterized in that the bottom plate surface of the receiving portion is formed with at least one depression along the circumferential direction. The method of claim 1, The depression portion is a flat panel forming apparatus for a cathode ray tube, characterized in that formed continuously along the circumferential direction of the receiving portion. The flat panel molding apparatus for cathode ray tube of claim 1, having an upper surface molded by the plunger and a lower surface molded by a receiving portion of the lower mold, the recessed portion along the circumferential direction of the lower surface. A flat panel for cathode ray tubes, characterized in that at least one protrusion is formed. The method of claim 3, The projecting portion is a flat panel for a cathode ray tube, characterized in that formed continuously along the circumferential direction of the lower surface.