KR20080001404U - Normal-pressured dryer for silica aerogel - Google Patents

Abstract

The present invention consists of a box-shaped upper platen and a desk-type lower supporter, the upper side of the upper platen is formed with a silica sol inlet, the inlet is opened and closed by a pressure control stopper, the lower side of the upper platen is opened A silicone sealant is mounted at the corner of the upper side, and a fixing ring is formed of a connecting member attached to the lower center of the four sides of the upper platen and a binding member attached to the lower center of the four sides of the lower support plate. Silica airgel pressure drying apparatus characterized in that the upper platen and the lower support is configured to be in close contact by the present invention, thereby enabling the synthesis of silica airgel under normal pressure, it was possible to solve problems such as economics / stability / continuity / reproducibility Constant evaporation rate of the wet gel at atmospheric pressure By fitting it was to solve the problems of the glass cracking or peeling deformation during coating.

Atmospheric Dryer, Silica Sol, Silica Aerogel

Description

Silica airgel atmospheric pressure drying device {Normal-pressured dryer for silica aerogel}

1 is a perspective view schematically showing a silica airgel atmospheric pressure drying apparatus of the present invention.

Figure 2 is a view showing the upper platen of the silica airgel atmospheric pressure drying apparatus of the present invention.

Figure 3 is a view showing the lower support of the silica airgel atmospheric pressure drying apparatus of the present invention.

Figure 4 is a view showing a silicone sealant of the silica airgel atmospheric pressure drying apparatus of the present invention.

Figure 5 is a view showing a pressure regulating stopper of the silica airgel atmospheric pressure drying apparatus of the present invention.

Figure 6 is a view showing a connecting ring of the silica airgel atmospheric pressure drying apparatus of the present invention.

7 is a view schematically showing an embodiment of a silica airgel atmospheric pressure drying apparatus of the present invention.

8 is an actual photograph of the silica airgel atmospheric pressure drying apparatus of the present invention.

** Brief description of the symbols in the drawings **

10 Atmospheric pressure drying device 11 Upper pressure plate

12 Lower support 13 Retention hook

14 Pressure regulating plug 15 Silica sol inlet

16 Silicone Sealant 17 Connecting Member

18 binding member

The present invention relates to a silica airgel atmospheric pressure drying apparatus, and more particularly to a silica airgel atmospheric pressure drying apparatus that can control the thickness of the silica airgel in the production of silica airgel from the silica sol and can be dried at normal pressure.

In manufacturing a multi-layer glass by coating a silica sol or the like on a conventional glass substrate, a supercritical drying method has been used to increase the thickness of the coating film or to dry the coating film, and this method requires high temperature and pressure. It has been operated using autoclave.

However, this method has a high risk of high pressure and the continuous process is impossible. Due to these shortcomings, there were problems such as risks for the experiments in the manufacture of the multi-layer glass, economical / stability / continuity / reproducibility of the process, and problems such as cracking or deformation peeling of the wet gel during the multi-layer glass coating.

Therefore, the present inventors have not only required high temperature and pressure as a result of intensive research to solve the above problems, but also solved problems such as economical / stability / continuous stone / reproducibility due to the atmospheric pressure drying device, and the atmospheric pressure drying device. By adjusting the internal and external evaporation rate of the wet gel at normal pressure by using the it was able to solve problems such as cracking and deformation peeling during the glass coating.

The purpose of the present invention is to improve the thickness at normal pressure and to dry the silica aerogel from silica sol, thereby solving problems such as economics / stability / continuity / reproducibility, and constantly adjusting the internal and external evaporation rate of the wet gel at normal pressure. It is to provide an atmospheric pressure drying apparatus that solves problems such as cracking and deformation peeling during glass coating.

The purpose of the above is to press the silica sol into the inlet formed by pressing the upper platen and the lower support to each other by the silicone sealant and the fixing ring and formed on the upper side of the upper platen, and then to seal the inlet with a stopper that can control the pressure of the silica sol silica This is achieved by an atmospheric pressure drying apparatus which can be dried by airgel.

The present invention consists of a box-shaped upper platen and a desk-type lower supporter, the upper side of the upper platen is formed with a silica sol inlet, the inlet is opened and closed by a pressure control stopper, the lower side of the upper platen is opened A silicone sealant is mounted at the corner of the upper side, and a fixing ring is formed of a connecting member attached to the lower center of the four sides of the upper platen and a binding member attached to the lower center of the four sides of the lower support plate. It provides a silica airgel atmospheric pressure drying apparatus, characterized in that configured to be in close contact with the upper platen and the lower support.

Hereinafter, the silica airgel atmospheric pressure drying apparatus of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a silica airgel atmospheric pressure drying apparatus 10 of the present invention, wherein the upper platen 11 and the lower support 12 are coupled to each other by a silicone seal 16 and a fixing ring 13. .

As shown in FIG. 2, the upper platen 11 has a box shape, and an inlet 15 for injecting a silica sol is formed on an upper surface thereof, and the inlet 15 is pressure-adjustable. It is possible to open and close the stopper 14.

It is preferable that the upper platen 11 is usually made of an acrylic resin, but may also be made of other transparent resin, and the size of the upper platen 11 may be variously designed according to the intended purpose.

 The silica sol inlet 15 is formed to a size that can safely inject the silica sol, it can also be adjusted according to the type and size of the pressure regulating stopper (14). The pressure regulating stopper 14 functions to control the pressure generated in the drying process by closing the inlet 15 after the silica sol is added. The pressure regulating stopper 14 may use any kind commercially available, and the coke-type pressure regulating stopper shown in FIG. 5 is used in the present invention.

On the other hand, the upper platen 11 has a bottom surface open, a silicon seal member 16 as shown in Fig. 4 is attached to the edge of the open surface, the fixing ring 13 is attached to the four sides, the lower support ( 12). By this silicone sealant 16 and the fixing ring 13, the upper platen 11 and the lower support 12 can be completely tightly fixed.

The connecting member 17 of the fixing ring 13 is attached to the lower side center of the four sides of the upper platen 11, the binding member 18 is attached to the upper side of the four sides of the lower support, the connecting member (17) The upper platen 11 and the lower supporter 12 are coupled to each other by fixing the binding member 18 with each other.

The combination of the upper platen 11 and the lower supporter 12 can be more tightly coupled by a silicone seal 16 mounted on the edge of the upper platen opening surface, which is shown in FIG. Shape is manufactured, and its size and thickness can be adjusted according to the size of the upper platen 11 and the thickness of the platen material.

As shown in Figure 3, the lower support 12 is obtained by the upper platen 11 is coupled to serve to support it closely from the bottom, the same size as the upper platen 11 as a desk-type structure with the lower surface is open. It is preferably made of the same acrylic resin as the upper platen (11). As described above, the lower support 12 is attached to a binding member 18 that can be connected to the connecting member 17 of the fixing ring 13 at the center of the four sides of the four sides.

<Example>

Silica airgel glass was manufactured using the silica airgel pressure drying apparatus of the present invention.

In order to manufacture a 30 × 30 cm silica airgel glass, an atmospheric pressure drying apparatus was manufactured as shown in FIG. 8.

First, silica sol was prepared using water glass. A silica sol prepared on a glass substrate was applied to form a xerogel film. The glass substrate to which the xerogel film was apply | coated was arrange | positioned to the lower support 12 of the atmospheric pressure drying apparatus, and the upper pressure plate 11 was put on it. The connecting member 17 of the connecting ring 13 was connected to the binding member 18 to tightly couple the upper platen 11 to the lower support.

Then, the pressure regulating stopper 14 was opened, the silica sol was uniformly poured onto the glass substrate and the pressure regulating stopper 14 was sealed.

While the silica sol proceeds to silica aerogels, the pressure is adjusted with a pressure adjusting stopper 14, and aged for 24 hours after the addition of isopropanol. After completion of aging, the glass substrate surface was subjected to solvent substitution / surface modification.

Subsequently, the upper platen 11 was removed and the glass substrate was dried at room temperature to obtain silica airgel glass.

The silica airgel atmospheric pressure drying apparatus of the present invention enabled the synthesis of silica airgel under atmospheric pressure, and solved problems such as economical / stability / continuity / reproducibility. Solving problems such as cracking and deformation peeling is a very effective design in the glass manufacturing industry.

Claims (1)

It consists of a box-shaped upper platen and a desk-type lower supporter, and the upper side of the upper platen is formed with a silica sol inlet, and the inlet is opened and closed by a pressure adjustable stopper, and the lower side of the upper platen is opened and opened at the corner of the open side. A silicone sealant is mounted, and a fixing ring is formed of a connecting member attached to the lower center of the four sides of the upper platen and a binding member attached to the lower side of the four sides of the lower support plate. Silica airgel atmospheric pressure drying apparatus, characterized in that configured to be in close contact with the platen and the lower support.

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