KR101524051B1 - Method of filling gas for multi layered glass - Google Patents

Abstract

The present invention relates to a gas injection method for injecting a gas into an inner space between a plate glass of a dry-type double-layer glass having a window frame movably installed on a fixed wall of a building wall, and more particularly, And a method of injecting gas into the inner space of the dry multilayer glass by inserting an induction tube and an injection tube through the through hole and gradually injecting a gas into the inner space of the dry multilayer glass .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a gas injection method for injecting a gas into an inner space between a plate glass of a dry-type double-layer glass having a window frame movably installed on a fixed wall of a building wall, and more particularly, And a method of injecting gas into the inner space of the dry multilayer glass by inserting an induction tube and an injection tube through the through hole and gradually injecting a gas into the inner space of the dry multilayer glass .

Generally, a double-layered glass has a constant air layer formed by a two-piece glass having a structurally stable gap. Such a double-layered glass having an air layer between the glass is generally referred to as a dry two-layered glass. Such dry double layered glass can be expected to have heat insulation, soundproofing, moisture-proofing effect by suppressing the heat exchange phenomenon generated at the temperature difference between the outer side glass and the inner side glass due to the air layer between the glass and the glass. The thickness of the air layer of the dry multilayer glass is increased from 6 mm to 2 mm, and the air layer thickness of the dry multilayer glass is standardized to be 6 mm and 12 mm.

In recent years, a mono-inert gas such as argon, krypton or SF6, which is heavier than air, is injected instead of air into the air layer of the above-mentioned multilayered glass so that convection does not occur easily and heat loss is reduced. However, the above gas injection with argon is generally carried out in the production stage of the multilayer glass. As a prior art in which gas injection is performed in the production stage of the multilayer glass, Korean Patent No. 10-0994235 (Registered on November 11, 2010) and No. 10-1238189 (Registered on Feb. 23, 2013) are presented.

In the above prior arts, a gas is injected between the two-layered glass in the production stage of the two-layered glass. In the prior art, a barge is installed between the glass plates to maintain a constant interval along the rim of the glass plate. The gas is injected by drilling a specific part or by installing a connector for injecting into the bass. However, the double-layered glass already installed in the fixing frame of the building wall is provided with a barrel between the plate glasses, and after the gas is injected through the barrel, a window frame surrounding the rim of the plate- As shown in Fig. That is, in the frame of the glazing and the glass plate in the state where the gas is injected through the prior art, there is additionally installed a window frame including a window frame provided on the upper end, a lower frame provided on the lower end, As shown in Fig. In the above prior arts, it is difficult to apply the above-mentioned prior art to a double-layer glass which is already installed in a fixed frame of a building wall after a window frame is formed by injecting gas without a window frame.

[Patent Document 1] Korean Patent No. 10-1238189 (Registered on Feb. 23, 2013) [Patent Document 2] Domestic Registration No. 10-0994235 (Registered on November 11, 2010)

Accordingly, the present invention provides a method of injecting gas into a dry double-layered glass having a window frame already installed movably in a fixed frame of a building wall.

In order to solve the above-mentioned problems, the present invention provides dry-type double-layered glass having a certain air layer by means of a bar that is installed along the rim of the multi-layered plate glass so as to have a constant interval, (EN) A method for injecting gas into a drywall of a building wall, comprising the steps of: (a) forming a drywall Piercing a first through hole in an upper end of a sock of the sailing boat which is wrapped around both sides of the glass; (B) drilling a second through-hole in the bar to correspond to the first through-hole; (C) inserting an induction pipe through the first through hole into the second through hole; (D) inserting an injection pipe having an outer diameter smaller than the inner diameter of the induction pipe to the lower end of the inner space of the dry multilayer glass through the induction pipe; (E) injecting a gas into the space inside the dry multilayer glass through the injection tube, and discharging the air inside the multilayer glass through the excess space of the induction tube into which the injection tube is inserted; (F) When the gas filling is completed in the inner space of the dry multilayer glass, the injection tube and the induction tube are separated from the first through hole and the second through hole, and then the second through hole is sealed with the second sealing material And sealing the first through-hole with a first sealing material.

According to the method for injecting gas into the dry multilayer glass according to the present invention, gas can be injected into the dry multilayer glass already installed in the fixing frame of the building wall. In addition, it is possible to inject the gas, which is less likely to cause convection and reduce the heat loss, into the double-layer glass already installed in the fixing frame of the building wall, thereby improving the heat insulation, soundproofing and moisture-

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a state in which a dry multilayer glass having a window frame according to the present invention is installed on a fixing frame. FIG.
2 is a sectional view taken along line XX of Fig.
Fig. 3 is a view sequentially showing a method of injecting gas into a dry-type multilayer glass having a window frame already movably installed in a fixing frame according to the present invention; Fig.

Hereinafter, a method of injecting a dry multilayer glass according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

It is to be understood that the terminology or words used herein are not to be construed in an ordinary sense or a dictionary, and that the inventor can properly define the concept of a term to describe its invention in the best possible way And should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

1 and 2, first, the dry multilayer glass 10 is formed in such a manner that no gas is injected between the glass plates 11 of plural layers kept spaced by the intermediate bar 12 and the air layer A Quot; glass ") is formed. The dry multilayer glass 10 produced in this state is provided with a window frame 20 on the four sides of the window frame 10. The window glass 10 provided with the window frame 20 is movable to a fixed frame 30 fixedly installed on the building wall Respectively.

A feature of the present invention relates to a gas injection method for injecting gas into a dry multilayer glass (10) having a window frame (20) already installed in a fixed frame (30) of a building wall.

The dry multilayer glass 10 forms a constant air layer A by a diaphragm 12 which is arranged to keep a predetermined distance between the plate glasses 11 along the rim of the plate glass 11 of the multilayer. In addition, a seal bonding finishing material 13 is applied to the outer edges of the plate glass 11 and the base bar 12. The dry double-layered glass 10 having such a structure is conventional, and a detailed description thereof will be omitted here.

The window frame 20 has a conventional structure that is installed to cover the four sides of the dry multilayer glass 10. The window frame 20 includes an upper frame 21 installed at the upper end of the multi-layer glass 10, a lower frame 22 And a sun gear 23 provided on both side surfaces.

The fixed frame 30 has a conventional structure fixed to a wall, and the window frame 20 to which the dry multilayer glass 10 is coupled is movably installed on the fixed frame 30.

Hereinafter, a method of injecting gas into the dry-type double-layer glass 10 having the window frame 20 movably installed in the fixing frame 30 of the building wall according to the embodiment of the present invention will be described in detail.

2 and 3 (a), a first through hole (not shown) is formed in the upper end portion of a side surface of a sun gear 23 of any one of the sun gears 23 surrounding both sides of the dry double- 27) are drilled (step S). In general, the sun gear 23 having a thickness of about 60 to 85 mm has a contact groove 231 having one end to be in contact with the fixing frame 30, a fixing groove 233 having the other end to enclose the dry multi- And a compartment 232 which is disposed between the contact groove 231 and the fixing groove 233. The first through-hole 27 starts from the contact groove 231, passes through the compartment 232, and is then drilled to reach the fixing groove 233.

Here, the diameter of the first through hole 27 is preferably 10 to 13 mm. Although the diameter of the first through hole 27 may be less than 10 mm, the work space is insufficient and the efficiency of the work is deteriorated. In the case of the dry double-layer glass which is generally made of two sheets of glass having a thickness of 5 mm on both sides so as to have an air layer of 6 mm by a short bar, the diameter of the first through hole 27 is preferably 13 mm in order to secure structural stability and required working space.

Next, as shown in FIG. 3 (a), the hollow bar 12 of the dry multilayer glass 10, which is in contact with the first through hole 27 drilled in the frame 23, The second through-hole 17 is pierced so as to correspond thereto (step b). Here, the second through-hole 17 is drilled to penetrate the inner and outer portions of the dry-type double-layered glass 10 by drilling to the finish material 13 as well as the intermediate bar 12.

Here, the diameter of the second through hole 17 is preferably 6 mm. In general, the thickness of the air layer of the dry double-layered glass is increased from 6 mm to 2 mm, so that the second through-hole 17 is drilled to a minimum diameter of 6 mm.

Next, referring to FIG. 3 (b), the induction pipe 40 is inserted into the first through hole 27 and the second through hole 17, which are perforated as described above (multi-step). The induction pipe 40 has a tubular shape and one end thereof is inserted into the second through hole 17 through the first through hole 27, preferably into the middle portion of the second through hole 17 And the other end is exposed to a certain length outside the end of the sun gear 23 which is the outside of the first through hole 27.

The induction pipe 40 is a tubular body having an outer diameter of preferably 6 mm and is constrained to the second through hole 17 with the same outer diameter as the circumference of the second through hole 17.

Next, as shown in FIG. 3 (b), an injection tube 50 having an outer diameter smaller than the inner diameter of the induction tube 40 is inserted into the induction tube 40 (step L). The injection tube 50 has a tubular shape and one end thereof is inserted through the induction pipe 40 to reach the lower surface of the inner surface of the dry multilayer glass 10 where the air layer A is present, 40 so as to be exposed to the outside of the end portion thereof.

Here, the injection tube 50 is a tubular body having an outer diameter of preferably 2-3 mm, and the outer diameter of the injection tube 50 is smaller than the inner diameter of the induction tube 40.

Next, referring to FIG. 3 (b), in a state as described above, a space between the plate glasses 11 of the dry double-layered glass 10 through the injection tube 50 by using a gas supply device (not shown) And the air inside the multi-layered glass is discharged to the outside through a surplus space of the induction pipe 40 into which the injection tube 50 is inserted. The gas injected into the air layer (A) of the dry multilayer glass (10) may be argon, krypton, SF6 or the like having a specific gravity heavier than air, and preferably argon is injected relatively economically. Since the injection pipe 50 is located on the lower surface of the inner space of the dry multilayer glass 10, a gas having a specific gravity is injected to the lower side of the inner space air layer A between the plate glasses 11 And pushing the relatively lightweight air upwards. The air that has been pushed upward is discharged to the outside through the remaining area of the induction pipe 40 except for the insertion region of the injection pipe 50 inserted in the induction pipe 40.

When the gas injected through the injection tube 50 is filled with the gas G in the inner space of the dry multilayer glass 10, (40). ≪ / RTI > At this time, preferably, a gas leakage detecting device (not shown) provided at the end of the induction pipe 40 detects the outflow gas, and when the gas outflow is detected, the gas injected through the injection pipe 50 The injection is stopped.

When the filling of the gas layer G into the inner space of the dry multilayer glass 10 is completed, the gas is injected from the first through hole 27 and the second through hole 17 into the injection tube 50, The second through hole 17 is sealed with the second sealing material 62 and the first through hole 27 is sealed with the first sealing material 61 after the pipe 40 is separated (Step V) . In this process, the injection tube 50 is preferably separated first. As shown in FIG. 3 (c), the injection tube 50 is moved to the vicinity of the end of the second through hole 17, which is in contact with the inner space of the dry layer glass 10 through the guide tube 40, The third sealing material 63 is inserted and the induction tube 40 is completely separated from the first through hole 27 and the second through hole 17 before the inserted third sealing material 63 is inflated . 3 (d), the third sealing material 63 is inflated and the end of the second through hole 17 is closed, so that the inner space of the dry multilayer glass 10 is completely disconnected from the outside. The third sealing material 63 used here is preferably a polyurethane foam and the third sealing material 63 is adhered to the plate glass 11 of the dry multilayer glass 10 as the polyurethane foam is instantaneously expanded and hardened. Can be minimized.

3 (e), the second sealing material 62 is injected into the remaining region of the second through hole 17 which is not closed by the third sealing material 63, and is sealed. The second sealing material used herein may be a conventional sealing material such as silicon or hot melt. Preferably, ordinary urethane silicone which is resistant to external impact and excellent in adhesion is used as the second sealing material 62, and the second sealing material 62 are preferably filled up to the periphery of the fixing groove 233 of the spinning frame 23 surrounding the second through-hole 17. Then, the first through hole 27 is sealed with the first sealing material 61. The first sealing material 61 used at this time is preferably a polyurethane foam. The polyurethane foam is used to cause the first sealing material 61 to flow into the compartment 232 of the continuously connected chain box 23 and to be instantaneously expanded without loss so that only the periphery of the first through hole 27 It is completely sealed.

As described so far, by the gas injection method of the dry multilayer glass 10 according to the present invention, the gas is injected into the dry multilayer glass 10 having the window frame 20 movably installed in the fixing frame 30 of the building wall So that it can be injected.

10: dry two-layer glass 11: plate glass
12: Bass 13: Finishing material
17: second through hole 20: window frame
21: Wicket 22: Lower frame
23: Sink frame 231: Contact groove
232: compartment 233: fixing groove
27: first through hole 40: guide tube
50: injection tube 61: first sealing material
62: second sealing material 63: third sealing material

Claims (5)

A dry double layer glass 10 having a constant air layer A is provided by means of a bar 12 provided along the rim between the plate glasses 11 of a plurality of layers so as to have a constant gap, And a window frame 20 formed of a lower frame 22 provided at the lower end and a sun frame 23 installed at both sides of the window frame 20, (30), as a gas injection method for the dry multilayer glass (10)
(A) drilling a first through hole (27) in the upper end of any one of the sun gears (23) which surrounds both side surfaces of the dry multilayer glass (10);
(B) drilling a second through hole (17) in the base (12) so as to correspond to the first through hole (27);
(C) inserting a guide pipe (40) extending to the second through hole (17) through the first through hole (27);
(D) inserting an injection pipe (50) having an outer diameter smaller than the inner diameter of the induction pipe (40) to the lower end of the inner space of the dry multilayer glass (10) through the induction pipe (40);
(E) gas is injected into the interior space of the dry multilayer glass (10) through the injection pipe (50), and the gas is injected into the inner space of the dry multilayer glass (10) through the excess space of the induction pipe (40) 10) to the outside;
(F) When the gas filling is completed in the inner space of the dry multilayer glass 10, the injection tube 50 and the induction tube 40 are separated from the first through hole 27 and the second through hole 17, The inflated third sealing material 63 is separated from the end of the second through hole 17 which is in contact with the inner surface of the dry multilayer glass 10 through the induction pipe 40 And the end of the second through hole 17 is closed by the expansion of the third sealing material 63 when the introducing tube 40 is separated before the inserted third sealing material 63 is inflated The second sealing material 62 is injected into the remaining space of the second through hole 17 which is not closed by the third sealing material 63 and then the first through hole 27 is sealed with the first sealing material 61). ≪ / RTI >
The method of claim 1, further comprising, before step (b), measuring leakage of the injected gas at the end of the induction pipe (40).
delete The method of claim 1, wherein the diameter of the first through hole (27) is larger than the diameter of the second through hole (17).
The method according to claim 1 or 4,
The diameter of the first through hole 27 is 10-13 mm, the diameter of the second through hole 17 is 6 mm, the diameter of the induction pipe 40 is 6 mm, the outer diameter of the injection pipe 50 Is 2-3 mm. ≪ / RTI >

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