KR100674168B1 - Cooling device for glass forming apparatus - Google Patents

Abstract

The present invention relates to a cooling apparatus for a glass product forming facility having a blowing duct for blowing cooling air to a press-molded glass product, the apparatus comprising: a duct support for supporting a blowing duct and lifting the glass product; A plurality of lifting rods disposed in each corner region of the molded glass product and installed in a duct support portion, and a foot portion provided at one end of the lifting rod to contact the glass product, respectively, between the duct support portion and the foot portion. A pressurizing member unit having a buffer member for buffering a load acting on the foot part and pressing each corner region of the glass product; It includes an elevating drive unit for elevating the duct support, the other end of the elevating rod is formed with a male screw, screwed to the male screw, to prevent the elevating rod from the duct support to adjust the distance between the duct support and the foot It characterized in that it comprises an adjustment nut. As a result, not only the flatness of the glass product may be improved, but also the shock force transmitted to the glass product at the time of pressurization may be buffered to prevent the occurrence of defects in the glass product.

Description

COOLING DEVICE FOR GLASS FORMING APPARATUS

1 is a schematic plan view of a glass product forming facility,

2 is a front view of a cooling apparatus for forming a glass article according to the present invention,

3 is an enlarged perspective view illustrating main parts of FIG. 1;

4 is a side cross-sectional view of the pressing member unit of FIG. 3.

       * Explanation of symbols for the main parts of the drawings

1: Turntable 5: Lower mold

7: glassware 21: fluid pressure cylinder

37: ventilation duct 41: duct support

50: pressure member unit 51: lifting rod

53: adjusting nut 55: foot part

57: coil spring

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cooling apparatus for glass forming equipment, and more particularly, to a cooling apparatus for glass forming equipment in which the pressurized structure of each corner region of the glass product to be cooled is improved.

Molding of glass products is carried out by various methods. In particular, in the molding of glass products including flat panels and the like, the glass raw material is heated and pressed in a predetermined lower mold in a predetermined molten state by pressing with a plunger. Molding equipment is used.

1 is a schematic plan view of a glass forming apparatus. As shown in these figures, the glassware forming facility has a disk-shaped turntable 1 which is installed to be rotatable, the turntable 1 having a plurality of stations 2a for molding a series of glassware along the circumferential direction. ~ 2l). The lower mold 5 is stored in each station, and a ring-shaped shell mold (not shown) is deposited on the lower mold 5 in the first station 2a. In the first station 2a, the glass gob from the glass melting furnace (not shown) is dropped into the lower mold 5 and the shell mold, and in the second station 2b, the so-called installed so as to be liftable with respect to the turntable 1. Glass products are press-molded by an upper mold (not shown) called a plunger.

In the third to fifth stations (2c ~ 2e) is a cooling process is performed in which the cooling air is injected toward the press-formed glass product in the lower mold 5 by a duct member installed to be elevated relative to the turntable (1), In the sixth station 2f, the shell mold is transferred above the lower mold 5 of the eleventh station 2l.

In the seventh station 2g, natural cooling is performed, and in the eighth and ninth stations 2h and 2i, a cooling process is performed by a conventional cooling apparatus for forming glass products. In the tenth station 2j, a take-out process of taking out the cooled glass product from the lower mold 5 is performed, and in the eleventh station 2k, the shell mold transferred from the sixth station 2f is the lower mold 5 Is deposited on the phase.

Meanwhile, in the conventional cooling apparatus for glass forming equipment, air is simply sprayed toward the central region of the molded glass product in a state in which the shell mold is removed, but as the cooling of the glass product proceeds, each corner region of the glass product is raised. There is a problem that the phenomenon occurs that inhibits the flatness of the glass product.

A conventional apparatus for cooling glass forming equipment for improving such a problem is disclosed in Korean Laid-Open Patent Publication No. 2000-0001425.

In the conventional apparatus for cooling a glass forming apparatus, a pressing member is provided with a pressing member for raising and lowering the blower duct and pressing each corner region of the molded glass article, thereby improving flatness of the glass article.

However, in the conventional cooling device for glass forming equipment, the pressing member is made of a rigid body, and thus the pressing member applies a certain load to the glass product regardless of the flatness of each corner region of the glass product before cooling, so that The impact force applied to the glass product is transmitted to the glass product to be cooled as it is, may cause a defect in the glass product, and there is a problem that can not control the load applied to each corner of the glass product.

Accordingly, an object of the present invention is to provide a cooling apparatus for forming a glass product which can not only improve the flatness of the glass product but also buffer the impact force transmitted to the glass product at the time of pressurization to prevent defects of the glass product. will be.

In addition, another object of the present invention is to provide a cooling device for a glass product forming equipment capable of adjusting the load applied to each corner of the glass product.

The object of the present invention is a cooling device for a glass product forming facility having a blowing duct for blowing cooling air into a press-formed glass product, the apparatus for supporting the blowing duct, and lifting and lowering the glass product. ; A plurality of lifting rods disposed in each corner region of the molded glass product and installed in the duct support portion, the foot portions being provided at one end of the lifting rod and contacting the glass product, respectively; A pressurizing member unit provided between the foot portions and having a buffer member for buffering a load acting on the foot portion, the pressurizing member unit for pressing each corner region of the glass article; It is achieved by a cooling apparatus for forming a glassware, characterized in that it comprises a lifting drive unit for lifting the duct support.

Here, the buffer member is preferably a spring mounted on the outer circumference of the lifting rod.

In addition, a male screw is formed at the other end of the elevating rod, and is screwed to the male screw to prevent the elevating rod from escaping from the duct supporting portion, and an adjusting nut for adjusting a distance between the duct supporting portion and the foot portion. By including, the load applied to each corner of the glass product can be easily adjusted.

In addition, the lift drive unit is preferably any one of a fluid pressure cylinder and a motor.

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

2 is a front view of a cooling apparatus for forming a glassware according to the present invention, Figure 3 is an enlarged perspective view of the main portion of Figure 1, Figure 4 is a side cross-sectional view of the pressing member unit of FIG. As shown in these figures, the shaping of the glass article is made by a glass article shaping facility, as described above with reference to FIG. As shown in FIG. 2, the glass forming apparatus has a turntable 1 rotatably installed and a column 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 9 for temporarily receiving compressed air and distributing the compressed air to the lower mold 5 disposed at each station on the turntable 1.

The upper region of the column 3 is provided with a press head 11 of an upper mold (not shown) which press-forms the glass gob provided in the combination of the lower mold 5 and the shell mold, and the upper side of the press head 11. An area is provided with an air chamber (not shown) for generating and distributing compressed air.

On the other hand, the cooling apparatus for glassware forming equipment according to the present invention, the housing 17 and spaced apart from the column (3) is installed along the axial direction of the column (3) and supplies cooling air from the air chamber, the housing (17) And a pressurizing member unit 50 installed to be able to move up and down relative to the pressurizing member, and a pressurizing member unit 50 installed to be movable up and down by the lifting driving part to press each corner region of the glass product 7 molded and accommodated in the lower mold 5. Have

The upper support bracket 13 and the lower support bracket 15 extending in the radial direction are respectively coupled to the central region of the column 3, and the housing 17 is provided at the other end region of each of the support brackets 13 and 15. Is combined. On one side of the housing 17, a fluid pressure cylinder 21 as a lift drive unit is coupled along the axial direction of the housing 17.

The hydraulic cylinder 21 has a cylinder body 23 installed along the longitudinal direction of the housing 17 on the outside of the housing 17 and a cylinder rod 25 coupled to the cylinder body 23 so as to be linearly reciprocating. )

A sliding member 27 is coupled to the free end region of the cylinder rod 25 to receive the housing 17 and to slide along the axial direction of the housing 17. The sliding member 27 is coupled to the guide shaft 29 extending downward of the housing 17 along the axial direction of the housing 17. Each guide shaft 29 is accommodated in the shaft accommodating portion 31 formed to form a triangular shape on the outside of the housing 17 to perform relative sliding movement.

A plate-like support plate 33 is coupled to the lower end of each guide shaft 29, and a bellows 35 having a corrugated pipe shape is coupled between the support plate 33 and the housing 17 so as to be elastic. The lower side of the support plate 33 is coupled to the blower duct 37 forming a cylindrical shape to communicate with each other.

On the other hand, at the lower end of the blower duct 37 is provided with a duct support 41 for supporting the blower duct 37, the lifting and lowering relative to the glass product (7). The duct support part 41 has a plate shape of square cross section, and the pressing member unit 50 is provided in each corner area | region. In the duct support part 41, a plurality of through holes 43 are formed to penetrate the plate surface so that the lifting rod 51 of the pressure member unit 50 to be described later is penetrated, and each through hole 43 is a glass product. Corresponding to the size of (7) is formed in various ways to change the position of the pressing member unit 50.

The pressure member unit 50 is disposed in each corner region of the molded glass product 7 and is provided with a plurality of lifting rods 51 which are installed on the duct support 41 so as to be liftable, and at one end of the lifting rod 51. It is provided between the foot portion 55 which is provided in contact with the surface of the glass product 7, respectively, and the buffer member provided between the duct support portion 41 and the foot portion 55 to buffer the load acting on the foot portion 55.

The lifting rod 51 has a rod shape, and an external thread 51a is formed at the other end of the lifting rod 51 facing the foot portion 55. The adjusting nut 53 is screwed to the male screw 51a to prevent the lifting rod 51 from being separated from the duct support 41. In addition, the adjustment nut 53 is able to adjust the distance between the duct support 41 and the foot portion 55 by moving in the longitudinal direction of the lifting rod (51).

In this embodiment, a coil spring 57 is provided as a shock absorbing member, and the coil spring 57 is mounted on the outer circumference of the lifting rod 51 between the duct support portion 41 and the foot portion 55. Here, although the coil spring 57 is disclosed as the shock absorbing member, a conical spring, a leaf spring, a sponge, an elastic rubber, or the like may be applied as the shock absorbing member.

Thus, by adjusting the interval between the duct support 41 and the foot portion 55 with each adjustment nut 53 it is possible to easily adjust the load applied to each corner of the glass product (7).

By this configuration, when the glass product 7 formed from the previous process is reached through each step in sequence according to the rotation of the turntable 1, the cylinder rod 25 moves in the shrinking direction with respect to the cylinder body 23. Done.

Then, the sliding member 27 coupled to the end of the cylinder rod 25 is lowered, and each guide shaft 29 coupled to the sliding member 27 moves downward along the shaft accommodating portion 31.

As the support plate 33 coupled to the lower portion of each guide shaft 29 moves downward, the blowing duct 37 moves downward.

As the blower duct 37 descends, the duct support part 41 coupled to the lower end of the blower duct 37 descends, and the foot part 55 of the pressure member unit 50 faces the glass product 7. It descends and contacts each corner region of the glass product 7. At this time, the impact force applied to the glass product 7 is buffered by the coil spring 57 provided between the duct support portion 41 and the foot portion 55, the glass product 7 in accordance with the pressing of the foot portion 55 It is possible to prevent the occurrence of defects.

Subsequently, as the duct support 41 descends, the coil spring 57 is compressed while the distance between the duct support 41 and the foot portion 55 becomes smaller, in particular, the flatness of each corner region of the glass product 7. As the displacement amount of the coil springs 57 mounted on the lifting rods 51 varies, the load applied to each edge region is changed, thereby improving the flatness of the glass product 7. At this time, the air supplied from the air chamber is introduced into the housing 17 through the air inlet 14, and the air introduced into the housing 17 passes through the bellows 35 and passes through the blower duct 37. Sprayed to the product (7) to cool the glass product (7).

In some cases, as the adjusting nut 53 screwed to each lifting rod 51 adjusts the distance between the duct support part 41 and the foot part 55 on which the lifting rod 51 is mounted. The load applied to each corner of the glass product 7 can be easily adjusted.

On the other hand, in the above-described embodiment, the fluid pressure cylinder is used as the lifting and lowering drive portion, but of course, it can be replaced by other means such as a motor instead of the fluid pressure cylinder.

As described above, according to the present invention, by improving the pressing structure of each corner region of the glass product to be cooled, not only can improve the flatness of the glass product, but also buffer the impact force transmitted to the glass product at the time of pressing the glass product. It is possible to prevent the occurrence of defects, there is provided a cooling device for molding equipment for glass products that can adjust the load applied to each corner of the glass product.

Claims (4)

A cooling apparatus for a glass product forming equipment having a blowing duct for blowing cooling air to a press-formed glass product, A duct support for supporting the blower duct and lifting the glass article; A plurality of lifting rods disposed in each corner region of the molded glass product and installed in the duct support portion, the foot portions being provided at one end of the lifting rod and contacting the glass product, respectively; A pressurizing member unit provided between the foot portions and having a buffer member for buffering a load acting on the foot portion, the pressurizing member unit for pressing each corner region of the glass article; It includes an elevating drive unit for elevating the duct support, Male threads are formed at the other end of the lifting rod, And a control nut screwed to the male screw to prevent the elevating rod from escaping from the duct support portion and adjusting a gap between the duct support portion and the foot portion. The method of claim 1, The buffer member is a cooling device for a glass product forming equipment, characterized in that the spring mounted on the outer circumference of the lifting rod. delete The method of claim 1, The lifting drive unit is a cooling device for a glass product forming equipment, characterized in that any one of a hydraulic cylinder, a motor.

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