KR19980014109A - Manufacturing method of vacuum window support - Google Patents

Abstract

The present invention relates to a vacuum window for preventing the heat of indoor heat from being lost through a window, and in order to maintain a clearance of a glass plate generated during a vacuum work, a support which is positioned between the glass and the glass is formed as a checkerboard By setting up a mesh and laminating a glass adhesive such as a low melting point glass or epoxy by a screen printing method one or more times, it is possible to automate the production of the support base, The present invention relates to a method of manufacturing a support for a vacuum window, which prevents cracks from occurring due to unbalanced phenomenon of the glass itself and improves assembling productivity of a factory. The method includes forming a plurality of holes in a checkerboard shape, And the upper surface of the set matshas the upper surface Melting glass or an adhesive for glass which is highly viscous is placed on the glass substrate and a low melting point glass or an adhesive for glass is printed by one or a plurality of times by a screen printing method to form an adhesive for glass .

Description

Manufacturing method of vacuum window support

The present invention relates to a vacuum window for preventing the heat of indoor heat from being lost through a window, and a method for controlling a vacuum window to prevent a gap between a glass and a glass in order to maintain a gap of a double glass which can overcome a pressure difference between an atmospheric pressure and an internal vacuum, Especially, by using a screen printing method, a low melting point glass or a high viscosity glass adhesive (eg, epoxy and an adhesive) is applied by setting a mesh having a plurality of holes formed in a checkerboard shape on a glass It is possible to automate the production of the support by laminating it once or several times and to prevent the vacuum phenomenon of the vacuum during the vacuum operation by forming the support on the glass surface and to prevent the stress of the glass itself due to unbalance, The present invention also relates to a method of manufacturing a vacuum window support which can improve the assembly productivity of a vacuum window.

As a result of the development of architecture to meet this demand, research and development of windows that can minimize indoor energy loss of heating and cooling has been continued.

As a typical window for lowering the above-mentioned cooling / heating energy loss, there is a double window having two gaps with predetermined gaps.

In the double window described above, first, there is a double window in which a space is formed between the glass and the glass by arranging two glass at regular intervals. However, since there is air in the space between the glass and the glass, Heat loss was high.

As a method to solve this problem, there is a double window which injects a low thermal conductivity gas (Argon gas, Krypton gas) between the glass and the glass, and this dual window has a limitation in lowering the heat loss rate.

Accordingly, the vacuum window having excellent heat insulation is developed by supplementing the disadvantages of the above-described double windows. The vacuum window is used to maintain a narrow space between the glass windows in a vacuum (10 ^-6 torr) This is a double window that can reduce the heat conduction rate to almost the wall level of 0.6 ~ 1.0 W m3K by preventing the convection and conduction heat loss from the source.

When the vacuum window is manufactured and produced, a support is installed in the space between the glass by means of a means for preventing the glass and the glass surface from coming into contact with each other by the vacuum force during the vacuum operation for maintaining the vacuum in the space between the glass , A conventionally developed bead-shaped support in the United States, and a cylinder-shaped support developed in Australia.

The bead-shaped supports developed in the US are manufactured by a separate mold made of stainless steel or alumina ceramic. The support is installed between the glass and the glass to prevent the glass from being in contact with the surface. The bead- There is a problem that the glass itself is damaged due to the vacuum force due to the small amount of space between the glass support and the glass, which may cause cracks or cracks.

Meanwhile, the cylinder-shaped support member developed in Australia is also manufactured by a separate mold, and the support member is installed on the glass surface. Since the support member has to be manually attached to the glass, it is troublesome and inconvenient that the vacuum window It became a big problem in automating the production.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of manufacturing a glass sheet, which comprises forming a plurality of holes in a checkerboard pattern, setting a mesh, such as a thickness of a support positioned between the glass, on a glass, And a low-melting-point glass are placed, and an adhesive for glass and a low-melting-point glass are printed one or more times by a screen printing method, and a glass adhesive and a low melting point glass are laminated in the holes to form a support And a method of manufacturing a support for a vacuum window.

The above-mentioned adhesive for glass is achieved by providing a method of manufacturing a support for a vacuum window, which is characterized by being excellent in transparency and having a low thermal conductivity and an eXoxy and a low melting point glass.

And the supporting base is formed to a thickness of about 0.1 to 0.5 mm by a printing operation over one to five times.

FIG. 1 is a view illustrating a process of manufacturing a support for a vacuum window according to the present invention,

(A) is a view showing a glass as a material of a vacuum window.

(B) is an example of a state in which a mast is set so as to form a support on the upper surface of the glass.

(C) is a state immediately before forming a support base with a low-melting-point glass or an adhesive for glass on one side of the upper surface of the set mash.

(D) is an exemplary view showing a state in which a supporting base is formed in the hole of the mache by printing a low melting point glass or an adhesive for glass.

(E) is an example showing a support formed by a mash.

(F) is an exemplary view showing a state in which a glass is placed on a support table formed on a glass.

Description of reference numerals used in the main parts of the drawings

1, 2: glass 10: marsh

11: holes 20: support

30: Adhesive for glass

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will now be described with reference to the accompanying drawings.

FIG. 1 (B) is a view showing a state in which a support is formed on the upper surface of the glass, and FIG. 2 (C) is a state immediately before forming a support base with an adhesive for glass on one side of the upper surface of the mast that has been set, (D) shows a state in which a glass adhesive is printed to form a support in the hole of the mast, (E) is an example showing a supporting stand formed by a mash, and (F) is an example showing a state in which a glass is placed on a supporting stand formed on a glass.

A method of manufacturing a support for a vacuum window according to the present invention includes forming a plurality of holes 11 in a checkerboard form and forming a mesh 10 such as the thickness of the support 20 located between the glass 1, The glass adhesive 30 is placed on one side of the upper surface of the set mesh 10 so that the glass adhesive 30 is placed on the upper side of the glass substrate 1, And the glass adhesive 30 is laminated into the holes 11 so that the support can be formed.

Preferably, the mesh 10 has a thickness of about 0.1 to 0.5 m, which is a proper thickness of the support 30, and the adhesive for glass 30 is preferably an excimer glass having a high viscosity and a glass having a low melting point. The support base 20 is laminated with a thickness of 0.1 to 0.5 mm by a printing operation performed one to five times.

Referring to FIG. 1, the operation and effect of the method of manufacturing a support for a vacuum window according to the present invention will be described below.

First, a mesh 10 having a plurality of holes 11 in a checkerboard shape is set on the upper surface of the prepared glass 1 as shown in FIG. 1 (A).

When the mesh 10 is set on the glass 1 as described above, a glass adhesive 30 having a low melting point glass or a high viscosity is placed on the upper surface of one side of the mesh 10 to perform a printing operation by the sprin printing method The glass adhesive 30 is laminated on the holes 11 formed in the mesh 10 while repeating the process 1 to 5 times. The support base 20 thus formed is formed with a thickness of 0.1 to 0.5 mm.

The glass adhesive (30) is made of an epoxy resin having a good transparency and a low thermal conductivity and a low melting point glass.

When the support 20 is formed as described above, the mash 10 is separated from the glass 1 as shown in FIG. 1E, Put the glass (2) together and proceed to the next step.

As described above, in the vacuum window support manufacturing method of the present invention, a mesh having a plurality of holes formed in a checkerboard shape on a glass is set to form a low melting point glass or an adhesive for glass having a high viscosity ) Is applied to the surface of a glass substrate by a printing process in one or several times by application of a screen printing method so as to automate production of the support base. It is possible to prevent the crack from occurring due to the prevention of the stress of the glass due to the unbalance at the same time as it solves, and the productivity can be improved by simplifying the manufacturing process of the vacuum window assembly.

The present invention relates to a method of forming a multi-layered structure by applying a low-melting glass or an adhesive for glass (eg, epoxy and an adhesive) to a screen printing system by setting a mesh on which a plurality of holes are formed on a glass plate, In this way, it is possible to automate the production of the supports. By forming the supports on the glass surface, cracks can be prevented by preventing the stress of the glass itself due to the unbalance of the supports during the vacuum operation inside the glass window. And it is an object of the present invention to provide a method of manufacturing a support for a vacuum window.

Claims (3)

A plurality of holes 11 are formed in a checkerboard shape and a mesh 10 such as the thickness of the support 20 positioned between the glass 1 and the glass 2 is set on the glass 1, An adhesive for glass 30 having a low melting point glass or a high viscosity is placed on one side of the upper surface of the millsh 10 so that the glass adhesive 30 is printed one or more times by the screen printing method to form the holes 11 (20) is formed by laminating an adhesive (30) for glass on the support base (20). The method according to claim 1, wherein the glass adhesive (30) is an epoxy resin having a good transparency and a low thermal conductivity and a low melting point glass. The method of claim 1, wherein the support (20) is formed by one to five printing operations.