KR100355544B1 - Cooling device for glass press forming equipment - Google Patents

Abstract

The present invention relates to a cooling apparatus for a glass product press molding facility having a blowing duct for blowing cooling air to a flat glass product having a rectangular shape molded by a glass product press molding facility for press molding a glass product. A pressing member for downwardly contact-pressing each corner region of the flat glass product; And elevating driving means for elevating and driving the pressing member. Thereby, there is provided a cooling apparatus for a glass product press forming facility which can improve the flatness of the glass product by pressing and supporting each corner region of the molded glass product.

Description

Cooling device for glass press forming equipment

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling apparatus for press forming equipment for glass products, and more particularly, to a glass product press having a blowing duct for blowing cooling air to a glass product molded by a glass product press molding equipment for press molding glass products. It relates to a cooling device for molding equipment.

The shaping of glass products is carried out by various methods. In particular, in the shaping of glass products including cathode ray tubes, etc., glass raw materials are heated to press a glass gob supplied in a predetermined mold in a predetermined molten state by a press. Press molding equipment is used.

Figure 4 is a schematic plan view of a glass press forming equipment, Figure 5 is a schematic perspective view of a conventional cooling apparatus for press molding equipment. As shown in Fig. 4, the press forming equipment for glass products has a disk-shaped turntable 1 which is installed to be rotatable, and the turntable 1 is for molding a series of glass products 6 along the circumferential direction. It is divided into several stations 2a-2l. In each station, the lower mold 4 of the glass product 6 is loaded, and in the first station 2a, a ring-shaped intermediate mold (not shown) is loaded on the lower mold 4. In the first station (2a), the glass gob from the glass melting furnace (not shown) is dropped into the lower mold (4) and the intermediate mold, and in the second station (2b), the so-called installed so as to be liftable with respect to the turntable (1). The glass article 6 is press-formed by an upper mold (not shown) called a plunger.

In the third to fifth stations 2c to 2e, a cooling process is performed in which cooling air is sprayed toward the glass product 6 by a duct member installed to be elevated relative to the turntable 1, and the sixth station 2f. In the intermediate mold is transferred to the upper side of the lower mold 4 of the eleventh station (2l).

In the seventh station (2g), natural cooling is performed, and in the eighth and ninth stations (2h, 2i), a cooling process by a conventional cooling apparatus for press molding equipment is performed. In the tenth station 2j, a take-out process of taking out the cooled glass product 6 from the lower mold 4 is performed. In the eleventh station 2k, the intermediate mold transferred from the sixth station 2f is a lower mold. It is stored in (4) phase.

Conventional cooling apparatus for press molding equipment, as shown in FIG. 5, a blower (not shown) provided to blow air on the upper side of the turntable 1, and extended downward from the blower to remove the intermediate mold It has a blowing duct 101 for injecting cooling air toward the glass product 6 formed in the lower mold (4) in the state. The blower duct 101 is fixed at a predetermined distance from the lower mold 4 placed on the turntable 1, and is centered on the glass product 6 that is forced-cooled or naturally cooled while passing through each station 2a to 2k. Concentrated cooling air is directed towards the area.

By the way, in such a conventional cooling apparatus for press forming equipment for glass products, by simply injecting air toward the center region of the molded glass product in a state where the intermediate mold is removed, the cooling of the glass product proceeds. There is a problem in that the edge area is raised to inhibit the flatness of the glass product.

Accordingly, it is an object of the present invention to provide a cooling apparatus for press forming equipment for glass articles which can improve the flatness of the glass articles by pressing and supporting each corner region of the molded glass article.

1 is a front view of a cooling device installation area for a glass product press forming equipment according to the present invention;

Figure 2 is a side cross-sectional view of the pressing member installation region of Figure 1,

3 is an enlarged perspective view of the pressing member region of FIG. 1;

4 is a schematic plan view of a glass press forming equipment,

5 is a schematic perspective view of a region of a cooling apparatus for a conventional glass press forming equipment.

* Explanation of symbols for the main parts of the drawings

13 housing 15 cylinder mechanism

21: sliding member 23: guide shaft

27: support plate 29: bellows

31: Sub duct 35: Blowing duct

39: square flange 41: pressure member

43: pressure leg 45: glass product contact foot

47: mold contact foot part

According to the present invention, there is provided a cooling apparatus for a glass product press molding facility having a blower duct for blowing cooling air to a flat glass product having a rectangular shape molded by a glass product press molding facility for press molding a glass product. A pressing member for downwardly contact-pressing each corner region of the flat glass product; It is achieved by a cooling device for glass press forming equipment, characterized in that it comprises a lifting drive means for lifting and lowering the pressing member.

Here, the pressing member is fixed to the blowing duct, it is preferable that the lifting and lowering drive means for driving the blowing duct.

The pressing member may include a plurality of pressing legs respectively disposed at each corner region of the flat glass product, and a foot part formed at an end of each of the pressing legs to be in contact with the flat glass product, respectively.

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

1 is a front view of a cooling apparatus installation region for a glass press forming equipment according to the present invention, Figure 2 is an enlarged side cross-sectional view of the pressing member installation region of Figure 1, Figure 3 is an enlarged perspective view of the pressing member region of FIG. Press molding of the glass article is performed by the glass press molding machine, as described above with reference to FIG. 4. As shown in FIG. 1, the glass press forming equipment has a turntable 1 rotatably installed and a support 3 standing upright along the axial direction of the turntable 1. On the upper side of the turntable 1, there is provided a wind drum 5 for temporarily receiving compressed air and distributing the compressed air to a lower mold 4 arranged at each station on the turntable 1. The upper region of the support 3 is provided with a press head 7 of an upper die (not shown) for pressing the glass gob provided in the combination of the lower die 4 and the intermediate die, and the upper side of the press head 7. An area is provided with an air chamber (not shown) for generating and distributing compressed air.

On the other hand, the cooling apparatus for press forming equipment for glass products according to the present invention is installed so as to be able to lift and lower the housing 13 and the housing 13 installed along the axial direction of the support 3 spaced apart from the support 3. The elevating driving means and the urging member 41 are installed to be capable of elevating by the elevating driving means and pressurizing members 41 for pressing and supporting each corner region of the molded glass product 6 accommodated in the lower mold 4. The upper support bracket 9 and the lower support bracket 11 extending in the radial direction are respectively coupled to the central region of the support 3, and the housing 13 is provided at the other end region of each of the support brackets 9 and 11. Is combined. An air inlet 14 is formed at an upper end of the housing 13 so that air from the air chamber can be introduced therein, and one side of the housing 13 is a lifting and lowering driving means of the pressing member 41 of the housing 13. The cylinder mechanism 15 is engaged along the axial direction.

The cylinder mechanism 15 has a cylinder 17 installed along the longitudinal direction of the housing 13 on the outside of the housing 13 and a cylinder rod 19 coupled to the cylinder 17 so as to be capable of linear reciprocating movement. . A sliding member 21 is coupled to the free end region of the cylinder rod 19 so as to accommodate the housing 13 so as to slide along the axial direction of the housing 13, and the sliding member 21 is coupled to the housing 13. A guide shaft 23 extended downward to the outside of the housing 13 is coupled along the axial direction of the cross-section. Each guide shaft 23 is accommodated in the shaft accommodating portion 25 formed so as to form a triangular shape on the outer side of the housing 13 to perform relative sliding movement.

A plate-like support plate 27 is coupled to the lower end of each guide shaft 23, and a corrugated bellows 29 is coupled to the area between the support plate 27 and the lower end of the housing 13 so as to be elastic. have. The lower side of the support plate 27 is coupled to communicate with the sub duct 31 forming a cylindrical shape, the lower end of the sub duct 31 is coupled in contact with the blower duct 35 to extend downward.

Meanwhile, a rectangular flange 39 having a substantially rectangular plate shape is formed at a lower end of the air blowing duct 35, and a pressing member 41 coupled to each corner area of the rectangular flange 39 is extended downward. The square flange 39 is formed with a plurality of bolt fastening holes 40 penetrating the plate surface so that the pressing member 41 is bolted, each bolt fastening hole 40 is the size of the glass product (6) Correspondingly, it is formed in various ways to change the position of the pressing member (41).

The pressing member 41 has a bolt receiving hole (not shown) formed on one side thereof, and has a plurality of pressing legs 43 which are bolted to protrude horizontally to the plate surface of the square flange 39. A glass product contacting foot 45 having a substantially “L” shape in the lower region of each pressing leg 43 and extending laterally in the longitudinal direction of the pressing leg 43 in contact with the surface of the glass article 6; A mold contacting foot portion 47 is formed which extends horizontally in the longitudinal direction of the pressing leg 43 and extends downward from the extending end in the longitudinal direction of the pressing leg 43 to contact the lower mold 4.

By this configuration, when the glass article 6 formed from the previous process is reached through each step in sequence according to the rotation of the turntable 1, the cylinder rod 19 is allowed to move in the shrinking direction with respect to the cylinder 17. do. Then, the sliding member 21 coupled to the end of the cylinder rod 19 is lowered, and each guide shaft 23 coupled to the sliding member 21 is moved downward along the shaft accommodating portion 25.

As the support plate 27 coupled to the lower portion of each guide shaft 23 moves downward, the sub duct 31 and the blowing duct 35 move downward. Each pressure leg 43 coupled to the lower portion of the blower duct 35 is lowered such that the glass product contacting foot 45 is in contact with each corner region of the glass product 6. At this time, the mold contact foot part 47 contacts the upper surface of the lower mold 4 almost simultaneously with the glass product contact foot part 45 being in contact with the surface of the glass product 6, whereby the panel contact foot part 45 ), So that flaws, chips, etc. of the glass product 6 are not caused by mutual contact between the glass product 6 and the glass product 6.

On the other hand, the air supplied from the air chamber is introduced into the housing 13 through the air inlet 14 and the air introduced into the housing 13 passes through the bellows 29 so that the sub duct 31 and the blowing duct ( It is sprayed to the glass product 6 through 35 to cool the glass product (6).

In the above description and the embodiment, the foot portion is configured to have an “L” shape, but the shape of the foot portion may be configured differently as necessary.

In addition, although the cylinder mechanism is used as the elevating driving means, it can of course be replaced by other means such as a motor.

As described above, according to the present invention, there is provided a cooling apparatus for press forming equipment for glass products which can improve the flatness of the glass products by pressing and supporting each corner region of the molded glass product.

Claims (3)

A cooling apparatus for a glass product press molding facility having a blower duct for blowing cooling air to a flat glass product having a rectangular shape molded by a glass product press molding facility for press molding a glass product, A pressure member for downwardly contacting and pressing each corner region of the flat glass product; And a lift driving means for lifting and lowering the pressurizing member. The method of claim 1, The pressurizing member is fixed to the blowing duct, the lifting driving means is a cooling apparatus for press forming equipment for glass products, characterized in that the lifting duct driving. The method according to claim 1 or 2, The pressing member may include a plurality of pressing legs disposed at each corner region of the flat glass product, and a foot part formed at an end of each of the pressing legs to be in contact with the flat glass product, respectively. Cooling equipment for molding equipment.