KR200428951Y1 - Jig for Glass Tempering and Apparatus for Glass Tempering using Thereof - Google Patents

Abstract

The present invention, the plate-shaped jig body is mounted glass specimen; A central opening formed through the central region of the jig body in a direction perpendicular to the plate surface of the jig body; Jig for glass reinforcement, characterized in that it comprises a mounting slot formed along the plate surface direction of the jig body in communication with the central opening, so that the glass specimen can enter and exit the plate body with respect to the jig body; Provide a glass strengthening device.

As a result, the glass specimen can be strengthened while being immersed in and extracted from the alkali molten salt of the electric furnace while the glass specimen is stably mounted on the glass strengthening jig.

Description

Jig for Glass Tempering and Apparatus for Glass Tempering using Thereof}

1 is a perspective view of a glass strengthening apparatus according to the present invention,

Figure 2 is a separation state of the glass jig and glass specimen according to the present invention,

3 is a cross-sectional view of the glass specimen mounted state on the glass jig according to the present invention,

Figure 4 is a perspective view of a glass specimen mounted state on the glass jig according to the present invention,

5 is a longitudinal cross-sectional view of FIG. 4.

* Explanation of symbols for the main parts of the drawings

10: electric furnace 20: support

30: support bar 40: mounting string

50: glass specimen 60: glass jig

61: jig main body 62: central opening

63: mounting slot 64: insertion hole

The present invention relates to a glass-reinforcing jig and a glass-reinforcing apparatus including the same, and more particularly, a glass-reinforcing jig and a glass-reinforcing glass including the same, which can perform glass-reinforcement experiments in a state where the glass specimen is stably mounted. Relates to a device.

In general glass chemical strengthening method, the glass to be strengthened is brought into contact with alkali molten salt having a large ion radius by contacting alkali ions having a small ion radius contained in the glass below the transition temperature to generate a compressive stress. The molten salt method of strengthening is known.

This method first heats the glass to be ion exchanged below a transition temperature in the range of 300 to 450 ° C., on the other hand melts the alkali salt at a temperature above 380 ° C. and then deposits the preheated glass on the molten salt. By holding for a certain time or more, a compressive stress layer is formed on the surface of the glass to strengthen it.

On the other hand, in order to confirm the result of the glass strengthening by the molten salt method, which is the method described above, a glass specimen is prepared as an experiment object, and glass strengthening experiments are performed using a glass strengthening apparatus.

Specifically, the alkali salts are melted in an electric furnace at a temperature of 380 ° C. or higher to prepare the alkali molten salts in the electric furnace in advance, and the alkali heated salts in the electric furnace are clamped in a state in which the preheated glass specimens are clamped with a clamp. It is dipped in time.

After the glass specimens are removed from the electric furnace, cooled and washed, the result of the glass strengthening by the molten salt method is confirmed.

However, in such a glass strengthening device, in the state where the glass specimen is clamped using a clamp, it is inconvenient to be immersed in the alkali molten salt of the electric furnace and drawn out from the electric furnace, and the support form is not stable. have.

Accordingly, it is an object of the present invention to provide a glass strengthening jig and a glass strengthening apparatus including the same, which can perform glass strengthening experiments in a state in which glass specimens are stably mounted.

The object is, according to the present invention, the plate-shaped jig body is mounted glass specimen; A central opening formed through the central region of the jig body in a direction perpendicular to the plate surface of the jig body; It is achieved by a glass-reinforcing jig comprising a mounting slot formed along the plate surface direction of the jig body in communication with the central opening portion so that the glass specimen can enter and exit the plate body in the plate direction. .

Here, the inlet of the mounting slot portion is preferably formed on at least one of one side and the other side of the jig body around the center opening.

In addition, it is preferable that an insertion hole is formed in the upper region of the jig main body to insert the mounting strap through the plate surface.

On the other hand, the object is an electric furnace for receiving an alkali molten salt; A pair of supports erected on upper ends of both sides of the electric furnace; A support bar disposed horizontally with respect to the longitudinal direction of the pair of supports and connecting the pair of supports; It is also achieved by a glass strengthening device comprising a glass-reinforcing jig installed on the support bar so as to be immersed in the alkali molten salt of the electric furnace together with the glass specimen.

Here, the glass-reinforcing jig is preferably installed on the support bar by the installation string.

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

As shown in Figure 1, the glass strengthening apparatus according to the present invention, the electric furnace 10 for receiving an alkali molten salt for strengthening the glass specimen 50; A pair of supports 20 standing up on both upper ends of the electric furnace 10; A support bar 30 disposed in a transverse direction with respect to the longitudinal direction of the pair of supports 20 to connect the pair of supports 20; It is installed on the support bar 30 by the mounting strap 40, and includes a glass reinforcing jig 60, the glass specimen 50 is mounted.

The alkali molten salt accommodated in the electric furnace 10 can be variously applied as long as the material contains alkali ions having a larger ionic radius than the small alkali ions contained in the glass.

As an example, it is preferable to use potassium nitrate (KNO ₃ ). That is, potassium nitrate (KNO ₃ ) may be used after heating at high temperature to convert the phase into a liquid state.

On the other hand, the glass-reinforcing jig 60 according to the present invention is installed by the support string 30 to the support bar 30 so that it can be immersed in the alkali molten salt of the electric furnace 10 together with the glass specimen 50. do.

Here, the glass specimen 50 cuts and provides glass, which is used in a display device such as a liquid crystal display panel (LCD), a plasma display panel (PDP), a field emission display (FED), and the like into a predetermined standard.

As shown in FIG. 2, the glass-reinforcing jig 60 includes a plate-shaped jig body 61 on which the glass specimen 50 is mounted; A central opening portion 62 formed through the central region of the jig body 61 in a direction perpendicular to the plate surface of the jig body 61; It includes a mounting slot 63 formed along the plate surface direction of the jig body 61 in communication with the central opening 62 so that the glass specimen 50 can enter and exit the plate body 61 in the plate direction. .

3 to 5, the jig body 61 supports the upper and lower ends of the glass specimen 50 inserted into the jig body 61 through the mounting slot 63.

The upper region of the jig body 61 is formed with an insertion hole 64 through which the mounting strap 40 can be inserted through the plate surface.

The central opening 62 exposes an area of the entire glass specimen 50 inserted into the jig body 61 to the outside except for the upper and lower area regions accommodated in the jig body 61. Accordingly, when the jig body 61 on which the glass specimen 50 is mounted is immersed in the alkali molten salt, the glass specimen 50 may be sufficiently in contact with the alkali molten salt through the central opening 62.

The inlet of the mounting slot 63 is formed at one side of the jig body 61, and the other side of the jig body 61 is the glass specimen 50 drawn into the mounting slot 63. The jig body 61 is blocked from being drawn out to the other side. Although it is blocked in FIG. 3, an opening may be formed in the other side surface of the jig body 61.

When the glass specimen 50 is inserted into the jig body 61 along the plate surface direction of the jig body 61 through the inlet of the mounting slot 63 formed on one side of the jig body 61, FIGS. As shown in FIG. 5, the upper and lower end regions of the glass specimen 50 are accommodated in the jig body 61, and the central region of the glass specimen 50 is the central opening 62 of the jig body 61. Exposed through the outside.

Referring to the glass strengthening test method using the glass jig 60 for having such a configuration as follows.

The glass specimen 50 is heated below the transition temperature in the range of 300-450 ° C., while the molten salt is filled in the electric furnace. 3 and 5, after the glass specimen 50 is mounted on the glass-reinforcing jig 60, the support of the electric furnace 10 is performed by using the mounting strap 40 of FIG. 1. The glass 30 jig 60 is installed in the bar 30, the glass specimen 50 is mounted. At this time, the glass-reinforcing jig 60 equipped with the glass specimen 50 is not immersed in the alkali molten salt.

After heating the electric furnace 10 at a rate of 10 ° C./min, the glass tempered jig 60 equipped with the glass specimen 50 is immersed in an alkali molten salt for a predetermined time to strengthen the glass specimen.

At this time, since the alkali molten salt containing the ion having a large ion radius and the glass specimen containing the ion having a small ion radius undergo ion exchange, a compressive stress is generated in the surface layer of the glass specimen 50, thereby enhancing the glass specimen. will be.

After immersing the glass-reinforced jig 60 equipped with the glass specimen 50 for a predetermined time, the glass-reinforced jig 60 is taken out from the alkali molten salt of the electric furnace 10 and cooled at room temperature.

Next, the glass specimen 50 is taken out of the glass-reinforcing jig 60 and washed with hot water, and then the test result of the glass specimen 50 is measured.

As such, according to the present invention, the glass specimen 50 may be easily mounted on the glass reinforcement jig 60 and drawn out from the glass reinforcement jig 60 for the glass reinforcement experiment, and the glass specimen 50 may be removed. The glass-reinforced experiment can be performed in a state in which the glass-reinforced jig 60 is stably mounted.

As described above, according to the present invention, while the glass specimen is stably mounted on the glass-reinforcing jig while being immersed in and withdrawn from the alkali molten salt of the electric furnace, the glass specimen can be strengthened.

Claims (5)

A plate-shaped jig body in which glass specimens are mounted; A central opening formed through the central region of the jig body in a direction perpendicular to the plate surface of the jig body; Jig for glass strengthening comprises a mounting slot formed along the plate surface direction of the jig body in communication with the central opening so that the glass specimen can enter and exit in the plate direction relative to the jig body. The method of claim 1, The inlet of the mounting slot portion is glass strengthening jig, characterized in that formed on at least one of one side and the other side of the jig body around the center opening. The method of claim 2, The jig for glass strengthening is characterized in that the upper region of the jig body is formed with an insertion hole for inserting the installation string through the plate surface. An electric furnace for receiving an alkali molten salt; A pair of supports erected on upper ends of both sides of the electric furnace; A support bar disposed horizontally with respect to the longitudinal direction of the pair of supports and connecting the pair of supports; Glass reinforcing device comprising a glass reinforcing jig according to any one of claims 1 to 3 installed on the support bar to be immersed in the alkali molten salt of the electric furnace together with the glass specimen. The method of claim 4, wherein The glass strengthening jig is glass strengthening apparatus, characterized in that installed on the support bar by the installation strap.

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