KR20000017179U - Press forming apparatus for crt glass - Google Patents

Abstract

The present invention has a turntable in which a plurality of lower molds are installed along a circumferential direction, and the turntable is provided with an apparatus for forming a glass product for cathode ray tubes, in which an air duct is provided with an air discharge opening upwardly opened from a lower portion of each lower mold. And a plurality of air guide members provided adjacent to the opening edge of the air discharge port, for directing air from the air duct to the lower mold, and having a different air flow cross-sectional area and selectively employed according to the size of the lower mold. Characterized in that it comprises a. As a result, the lower mold can be cooled while appropriately adjusting the temperature deviation between the center region and the corner region of the lower mold.

Description

PRESS FORMING APPARATUS FOR CRT GLASS}

The present invention relates to a molding apparatus for a glass tube for cathode ray tube, and more particularly, to a molding apparatus for a glass tube for cathode ray tube that can cool the lower mold while appropriately adjusting the temperature deviation between the center region and the corner region of the lower mold. It is about.

Generally, a cathode ray tube has a panel provided in front and projecting an image, a funnel coupled to the rear of the panel in a funnel shape in which a nose portion is formed, and a neck having an electron gun coupled to the nose portion of the funnel. The panel and the funnel (hereinafter, referred to as glass products throughout the panel and the funnel), which are bonded to each other by pleat sealing, heat the glass raw material in the melting furnace to form a molten glass material and provide it to each forming apparatus. By molding.

The molding apparatus is configured to press-mold the lower mold which is placed in the circumferential direction of a disk-shaped turntable rotating about an axis to form the outer surface of the glass product, and the glass material provided on the lower mold to form the inner surface of the glass product. And a plunger, a conveying device for conveying the molded glass product, and a cooling device for cooling the lower mold and the plunger. Replaced and installed in the molding machine.

On the other hand, an air duct is formed inside the turntable on which the lower mold is placed so that air can flow, and an air discharge port is formed on the lower turntable of the lower mold so that air from the air duct can be discharged.

As a result, when the molten glass material is provided to the lower mold of the molding apparatus and the glass product is molded by pressurization of the plunger, air is supplied to the air duct inside the turntable to cool the glass product. It is directed to the rear of the lower mold through the air discharge port on the turntable. In this way, as the air supplied from the air duct cools the lower mold, the glass article located in the lower mold is also cooled within a predetermined temperature range.

By the way, in the conventional apparatus for forming a glass product for cathode ray tubes, as described above, cooling of various types of lower molds selectively installed according to the size of the glass product to be molded is only performed at the air discharge port of the turntable through which air is discharged. By being dependent, it becomes impossible to control the cooling temperature appropriately between the center region and the corner region of the lower mold, and thus there is a problem in that quality deterioration such as irregularities may occur in the glass product accommodated in the lower mold.

That is, since the corner region of the glass article is formed relatively thicker than the center region, when the glass article is molded by the pressure of the plunger, the temperature of the central region is somewhat higher than that of the corner region. Therefore, in order to match the temperature gradient of the glass article, the cooling area of the lower mold must be properly adjusted by allowing the air for cooling the lower mold to be concentrated in the center region rather than the corner region of the lower mold.

However, although the amount and pressure of air discharged to the air discharge port can be adjusted through a separate pressure control valve, the diameter of the air discharge port is always constant so that the cooling of the lower mold having different sizes by simply adjusting the amount of air and the pressure It is difficult to adjust the area appropriately.

Therefore, in this case, a separate thermostat is provided in the corner area of the lower mold to adjust the cooling area of the center area and the corner area, but the inconvenience of having to re-install the thermostat respectively depends on the size of the lower mold. In addition, there is a problem that a process loss occurs due to the installation of a separate thermostat.

Accordingly, it is an object of the present invention to provide a molding apparatus for a glass product for cathode ray tubes that can cool the lower mold while appropriately adjusting the temperature deviation between the center region and the corner region of the lower mold.

1 is a schematic side cross-sectional view of a molding apparatus for a cathode ray tube glass product according to the present invention;

2 is a partially enlarged side cross-sectional view of FIG.

3 is a perspective view of an air guide member according to the present invention.

* Explanation of symbols for the main parts of the drawings

12: turntable 16: lower mold

18: air outlet 20: air duct

21: pedestal 23: air guide member

The object is, according to the present invention, has a turntable is provided with a plurality of lower molds in the circumferential direction, the turntable is a glass product for cathode ray tube glass is provided with an air duct formed with an air outlet opening upwardly from the bottom of each lower mold In the molding apparatus of claim 1, provided adjacent to the opening edge of the air discharge port, guides the air from the air duct to the lower mold, and has a plurality of different air flow cross-sectional area and is selectively employed according to the size of the lower mold It is achieved by a molding apparatus for a glass article for cathode ray tube, characterized in that it comprises an air guide member.

Here, the air guide member is composed of a cylindrical hollow body and a plate-like flange portion formed at the end of the hollow body, the flange portion is preferably screwed on the turntable.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

1 is a schematic side cross-sectional view of a molding apparatus of a glass product for cathode ray tubes according to the present invention. As shown in this figure, the molding apparatus for a glass product for cathode ray tubes according to the present invention, the support frame 10, the column 14 and the column 14 installed to stand in the central region of the support frame 10, the column 14 Has a disk-shaped turntable 12 which rotates around the lower mold 16, a lower mold 16 disposed in the circumferential direction of the turntable 12 to form an outer surface of the glass product to be molded, and a lower mold 16 coaxial with the lower mold 16. It is comprised by the lifting and lowering plunger (not shown) and many peripheral apparatuses accompanying them.

The inside of the turntable 12 is composed of a plurality of air ducts (19, 20) so that the air flows in two branches, one of which is a turntable 12 through which air is circulated for cooling the turntable 12 itself And a lower mold 16 for cooling the lower mold 16 disposed in the upper region of the air discharge port 18 by being discharged to the air discharge port 18 formed on the turntable 12. ) Is an air duct (20).

On the other hand, Figure 2 is a partially enlarged side cross-sectional view of Figure 1, Figure 3 is a perspective view of the air guide member according to the present invention. As shown in these figures, the air discharge port 18 is formed in the turntable 12 so that air flowing in the air duct 20 can be discharged, and a lower mold is formed in the upper region of the air discharge port 18. (16) is provided. A pedestal 21 supporting the lower mold 16 is provided between the lower mold 16 and the turntable 12.

On the other hand, the air guide member 23 composed of a cylindrical hollow body 26 and a plate-shaped flange portion 27 formed at the end of the hollow body 26 and having a plurality of bolt receiving holes 29 is a plan. Insert the screw 25 into the bolt receiving hole 29 of the branch portion 27 and fix it on the turntable 12 adjacent to the air discharge port 18 so that the upper surface of the hollow body 26 is on the rear surface of the lower mold 16. It is installed to be close.

When the glass material melt | dissolved in the lower mold 16 from the melting furnace which is not shown by the above structure is provided, the plunger arrange | positioned upward coaxially with the lower mold 16 will descend | fall, and the glass accommodated in the lower mold 16 may be carried out. Pressurize water. When the glass product is molded by pressurization of the plunger, air is supplied to the air duct 20 in the turntable 12 to cool the glass product, and the air is air guide member 23 provided in the air discharge port 18. Guided by the to be discharged toward the rear center region of the lower mold (16). Accordingly, the corner region of the lower mold 16 is relatively less cooled than the central region, and the glass products located in the lower mold 16 are also cooled less at the corner regions so that the temperature gradient of the glass product is appropriately adjusted and cooled. .

As such, by selectively employing the air guide member 23 having different air flow cross-sectional areas according to the sizes of the lower molds 16 deposited on the turntable 12, the cooling area of the lower mold 16 can be efficiently used. It can be adjusted.

In the above and the embodiments described with respect to the air guide member consisting of the flange portion and the cylindrical hollow body, the flange portion and the hollow body may be formed integrally, and of course, the hollow body of the air guide member is not a cylindrical truncated cone It may be formed in a shape.

As described above, according to the present invention, there is provided a molding apparatus for a glass product for cathode ray tube that can cool the lower mold while appropriately adjusting the temperature deviation between the center region and the corner region of the lower mold.

Claims (3)

In the molding apparatus of the glass tube for cathode ray tube having a turntable is provided with a plurality of lower molds along the circumferential direction, the turntable is provided with an air duct formed with an air outlet opening upwardly from the lower portion of each lower mold, It is provided adjacent to the opening edge of the air discharge port, and guides the air from the air duct to the lower mold, each having a different air flow cross-sectional area and includes a plurality of air guide member selectively employed according to the size of the lower mold Molding apparatus for a glass product for cathode ray tube, characterized in that. The method of claim 1, The air guide member, Cylindrical hollow body, Molding apparatus for a glass product for a cathode ray tube, characterized in that it comprises a plate-shaped flange formed on the end of the hollow body. The method of claim 2, And said flange portion is screwed onto said turntable.