KR101149306B1 - Apparatus for manufacturing a tempered glass - Google Patents

Abstract

An apparatus for manufacturing tempered glass according to the present invention includes a cooling unit including a refrigerant material storage unit for storing a refrigerant material for cooling the heated plate glass, and transferring the heated plate glass to the cooling unit to transfer the plate glass cooled by the cooling unit to the outside. And a driving unit for moving the cooling unit to bring the cooling unit into contact with the heated plate glass conveyed by the transfer unit.

Description

Apparatus for manufacturing a tempered glass

The present invention relates to a tempered glass manufacturing apparatus, and more particularly, to a tempered glass manufacturing apparatus to be more complete through the quenching to maximize the difference in the internal and external temperature of the heated plate glass to the maximum.

In general, tempered glass has a much higher strength against pressure and temperature changes than ordinary plate glass and is broken into small grains, so there is little risk of debris. Therefore, tempered glass is widely used in doors and cooking containers of automobiles, buildings, or shops. It is used.

Tempered glass is heated to about 600 ~ 900 ℃ in the heating chamber and then moved to the cooling chamber through the conveying means and then sprayed air through the air nozzle of the air cooling device in the upper and lower parts of the heated plate glass, the surface of the heated glass Cool down the temperature to 200 ~ 400 ℃ rapidly. As a result, tempered glass having a stronger strength than that of plate glass is produced by remaining compressive stress in the surface layer of the heated glass.

However, the conventional tempered glass manufacturing apparatus has a limitation in increasing the strength of the tempered glass because it is cooled by the air cooling device that directly sucks the air of the atmosphere and sprayed into the glass. The strength of the tempered glass increases as the heated glass is cooled at a rapid rate. In the related art, since the cooling proceeds through air at room temperature, the heated glass is gradually cooled. Accordingly, the reinforcement is made incompletely and the product defect rate is increased. This phenomenon has a problem that occurs more severely in the summer when the air temperature increases.

The present invention has been proposed to solve the above problems, an object of the present invention is to provide a tempered glass manufacturing apparatus to make the tempered through the quenching to maximize the difference between the inside and outside of the heated plate glass to the maximum will be.

In order to achieve the above object, a tempered glass manufacturing apparatus according to an aspect of the present invention includes a cooling unit including a refrigerant material storage unit for storing a refrigerant material for cooling a heated plate glass, and transferring the heated plate glass to a cooling unit. The conveying part for conveying the plate glass cooled by the cooling part to the outside, and the drive part which moves a cooling part and makes a cooling part contact the heated plate glass conveyed by a conveying part.

The cooling unit of the tempered glass manufacturing apparatus according to an additional aspect of the present invention, the upper cooling portion is formed on the plate glass is formed in the center and conveyed by the conveying portion, and the space is formed in the center and below the plate glass conveyed by the conveying portion It includes a lower cooling portion formed. According to this aspect, the driving unit includes: a first driving unit including two or more first driving rollers and a first motor configured to rotate the first driving rollers spaced apart from each other by a predetermined distance from the space of the upper cooling unit; And a second driving part including two or more second driving rollers and a second motor for rotating the second driving rollers which are installed to be spaced apart from each other by a predetermined distance in the space of the cooling unit.

The tempered glass manufacturing apparatus according to the present invention is implemented to quench the plate glass heated through the cooling unit having a certain area, there is a useful effect that the strength of the tempered glass is increased and the product failure rate can be lowered.

1 is a view schematically illustrating a tempered glass manufacturing apparatus according to a first embodiment of the present invention.
2 is a view schematically illustrating a tempered glass manufacturing apparatus according to a second embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the present embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

1 is a view schematically illustrating a tempered glass manufacturing apparatus according to a first embodiment of the present invention.

As shown, the apparatus for producing tempered glass according to the present invention includes a cooling unit 130 and a driving unit 140 and a transfer unit 150 installed in the quenching chamber 110.

The cooling unit 130 cools the plate glass 1 heated up to the softening temperature in the heating chamber 120. The cooling unit 130 includes a refrigerant material storage unit 131a in which a refrigerant material for cooling the plate glass 1 heated to a softening temperature is stored, and a space portion 131b is formed at the center thereof, and is transferred by the transfer unit 150. The upper cooling part 131 formed on the conveyed plate glass 1, the refrigerant | coolant material storage part 132a which stores the refrigerant | coolant material which cools the plate glass 1 heated to near softening temperature, and the space part 132b in the center. ) Is formed, and may be implemented to include a lower cooling unit 132 formed under the plate 1 conveyed by the transfer unit 150. For example, the refrigerant material stored in the refrigerant material storage units 131a and 132a may be implemented by any one of liquid and air.

The driving unit 140 is a device for driving the cooling unit 130 to move. The driving unit 140 moves the cooling unit 130 to allow the cooling unit 130 to come into contact with the heated plate glass 1 transferred by the transfer unit 150.

For example, the driving unit 140 may include two or more first driving rollers 141a and the first driving rollers 141a which are spaced apart from each other by a predetermined distance in the space part 131b of the upper cooling unit 131. Two or more second driving rollers (1) including the first motor (141b) to rotate and the space portion (132b) of the lower cooling section (132), two or more second driving rollers are spaced apart from each other by a predetermined distance ( 142a and a second driving unit 142 including a second motor 142b for rotating the second driving roller 142a.

The transfer unit 150 transfers the plate glass 1 to the heating chamber 120, and transfers the heated plate glass 1 to the cooling units 131 and 132, and also in the cooling units 131 and 132. The cooled plate glass 1 is transferred to the outside. The transfer unit 150 may include a plurality of transfer rollers 150a for transferring the plate glass 1 and a third motor 150b for rotating the feed rollers 150a.

In the tempered glass manufacturing apparatus according to the present embodiment, after driving the feed roller 150a through the third motor 150b, when the plate glass 1 is mounted on the feed roller 150a, the plate glass 1 is a heating chamber. In a heating chamber 120 to a near softening temperature. Thereafter, the plate glass 1 heated to near the softening temperature is guided to the quenching chamber 110 through the feed roller 150a. The plate glass 1 guided to the quenching chamber 110 is cooled between the upper cooling unit 131 and the lower cooling unit 132 driven by the driving unit 140.

2 is a view schematically illustrating a tempered glass manufacturing apparatus according to a second embodiment of the present invention.

As shown, the tempered glass manufacturing apparatus according to the present invention includes a cooling unit 210, a drive unit 230, and a transfer unit 250.

The cooling unit 210 may be implemented to include a refrigerant material storage unit (not shown) in which a refrigerant material for cooling the plate glass heated by the heating unit 220 is stored. For example, the refrigerant material stored in the refrigerant material storage unit (not shown) may be implemented by any one of liquid and air.

The driving unit 230 is a device that drives the cooling unit 210 and the heating unit 220 to move. The driving unit 230 moves the cooling unit 210 so that the cooling unit 230 is in contact with the heated plate glass 1 transferred by the transfer unit 250.

For example, the driving unit 230 may be implemented including a conveyor belt, a drive roller installed inside the conveyor belt, and a motor for rotating the drive roller. The driving unit 230 may be used to maintain a constant gap between the plate glass 1 and the cooling unit 210 or the heating unit 220 or to contact the plate glass 1 and the cooling unit 210.

The transfer unit 250 transfers the plate glass 1 to the heating unit 220, transfers the heated plate glass 1 to the cooling unit 210, and also transfers the plate glass 1 cooled by the cooling unit 210 to the outside. Transfer to. The transfer part 250 includes a holding part 250a for holding the side surface of the plate glass 1 and a plate glass moving part 250b for vertically moving the holding part 250a so that the plate glass 1 passes through the cooling part 210. It can be implemented to include.

In the tempered glass manufacturing apparatus according to the present embodiment, first, the plate glass 1 is held in the holding part 250a and then transferred to the heating part 220 through the plate glass moving part 250b. The plate glass 1 is heated to the vicinity of the softening temperature in the heating unit 220, and then transferred to the cooling unit 210 through the plate glass moving unit 250b. The pane 1 heated to near the softening temperature is cooled in the cooling unit 210.

Thus far, the present specification has been described with reference to the embodiments shown in the drawings so that those skilled in the art to which the present invention pertains can easily understand and reproduce the present invention. Those skilled in the art will understand that various modifications and equivalent other embodiments are possible from the embodiments of the present invention. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

110: quenching chamber
120: Heating chamber
130: cooling unit
131: upper cooling unit 132: lower cooling unit
140: drive unit
141: first driver 142: second driver
150: transfer unit
210: cooling unit
220: heating unit
230: drive unit
250: transfer part
250a: holding part 250b: plate glass moving part

Claims (6)

A cooling unit including a refrigerant material storage unit storing a refrigerant material for cooling the heated plate glass;
A transfer unit transferring the plate glass heated to the cooling unit and transferring the plate glass cooled by the cooling unit to the outside; And
A drive unit which moves the cooling unit to bring the cooling unit into contact with the heated plate glass conveyed by the transfer unit;
Tempered glass manufacturing apparatus comprising a. The method of claim 1,
The refrigerant material stored in the refrigerant material storage unit,
Tempered glass manufacturing apparatus, characterized in that any one of liquid or air. According to claim 1, wherein the cooling unit is moved by the drive unit:
An upper cooling part formed at a center thereof and formed on the plate glass transferred by the conveying part; And
A lower cooling portion formed at a center thereof and formed under the plate glass transferred by the transfer portion;
Tempered glass manufacturing apparatus comprising a. The method of claim 3, wherein the drive unit:
A first driving part including two or more first driving rollers spaced apart from each other by a predetermined distance in a space part of the upper cooling part, and a first motor to rotate the first driving rollers; And
A second driving part including two or more second driving rollers installed in the space part of the lower cooling part spaced apart from each other by a predetermined distance, and a second motor for rotating the second driving rollers;
Tempered glass manufacturing apparatus comprising a. The method of claim 1, wherein the transfer unit:
A plurality of conveying rollers for conveying the plate glass; And
A third motor for rotating the feed roller;
Tempered glass manufacturing apparatus comprising a. The method of claim 1, wherein the transfer unit:
A holding part holding a side of the pane; And
A plate glass moving part for vertically moving the holding part to allow the plate glass to pass through the cooling part;
Tempered glass manufacturing apparatus comprising a.

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