KR101021872B1 - Triple multi-layer glass using space bar made up of different material - Google Patents

Abstract

PURPOSE: A triple multi-layer glass using space bars made of different materials is provided to improve the insulation effect and support force of a building against wind pressure, thereby improving durability. CONSTITUTION: A triple multi-layer glass using space bars made of different materials comprises a first glass(110), a second glass(120), a third glass(130), an insulating spacer bar(210), and a metal space bar(220). The first glass faces the inner side of a building. The second glass forms the exterior wall of a building. The third glass is located between the first glass and the second glass. The insulating spacer bar maintains a space between a first glass and a third glass. The metal space bar maintains a space between the second glass and the third glass.

Description

Triple multi-layer glass using space bar made up of different material}

The present invention relates to a triple layered glass, and more particularly, to an insulating insulation bar for maintaining a space between the first glass facing the inside of the building and the third glass located in the center, and the outer wall of the third glass and the building By installing the metal rods to maintain the space between the second glass on the same straight line on the basis of the third glass, the insulation effect is improved by the insulation rod having excellent thermal characteristics inside the building, and the bearing capacity outside the building. The present invention relates to a triple multilayer glass using a heterogeneous rod that enables the reinforced metal rod to be improved in resistance to wind pressure applied from outside the building.

In general, a multi-layered glass installed in a window frame or a chassis partitioning the interior and exterior of a building is configured by installing a ganbong between the glass to maintain a distance and a certain distance between the plurality of glass.

In this way, by separating the plurality of glass between each other by the liver bar, it is possible to increase the heat insulation and sound insulation effect, it is possible to prevent the moisture generated by the condensation phenomenon by adding a moisture absorbent and the like to the liver bar.

1 is a partial perspective view showing the structure of a conventional multilayer glass.

Referring to FIG. 1, the conventional multi-layered glass has a first glass 10 facing the inside of a building, a second glass 20 forming an outer wall of the building, and the first glass and the second glass are spaced apart from each other. It was configured to include a liver bar 30 to maintain the space.

The rod is usually made of an aluminum material so as to firmly support the spaced glass. In addition, the ganbong made of aluminum material in this way is bent the aluminum plate to the contact surface of the both sides contacting the first and second glass, the inner surface facing the inner space between the two glass, and the outer space between the two glass It was constructed by forming an outer surface facing toward.

In addition, the rod is formed by bending the aluminum material along the outer shape of the glass, or by connecting a plurality of rods made of a straight line by the coupling portion made of a predetermined shape.

However, as described above, the ganbong made of aluminum material has a high thermal conductivity, which significantly reduces the thermal insulation effect, and thus is caused by the temperature difference between the first glass located inside the building and the second glass located outside the building. There was a problem that the visual field is greatly disturbed by the condensation phenomenon.

Accordingly, in order to prevent a decrease in thermal insulation effect due to the thermal conductivity of the aluminum liver rod and to absorb moisture caused by condensation, a urethane resin or a moisture absorbent is injected into the interior of the aluminum liver rod and cured. There is a problem that the manufacturing cost is increased due to the increase of the work process and the increase of working time required for over-hardening.

In addition, it is cumbersome to reduce the thermal insulation effect and to form a through hole for absorbing moisture after bending the aluminum plate separately, and the construction and installation problems such as difficulty in bending the aluminum liver rod when the edges of the laminated glass are curved. Synthetic resin rod using PVC is proposed.

However, the conventional synthetic resin liver rods had problems of work to be bonded to the glass surface with silicon and low mechanical properties, and synthetic resin liver rods with additional reinforcing materials have been proposed to supplement these problems.

However, as more and more high-rise buildings using double-layered glass have been recently demanded, the supporting capacity for long-term support for not only insulation effects but also high-level external wind pressures is required. There was a problem that can not implement sufficient bearing capacity.

As such, there is no clear standard for the material and structure of the rods used to maintain the space between them by keeping a certain distance from each other. Thus, they provide excellent insulation effect and provide sufficient support for external impact. There is still a need for a cane that can simplify and simplify the manufacturing process.

In addition, in the case of the recently proposed triple-layered glass, a gap between the first glass facing the inside of the building and the third glass located in the center, and the second glass and the center forming the outer wall of the building In order to maintain the space between the third glass is located in the need for another bong, even in the case of the triple layer glass as described above, there is still a problem when using an aluminum ganbon and a synthetic gangan rod as described above. There is a need for a cubicle that can provide support and simplify the manufacturing process.

The problem to be solved by the present invention in forming the interlayer structure of the triple layer glass, the inner side of the building has a low thermal conductivity and excellent insulation effect is installed, and the outer side of the building has a strong metal rod between the external force By installing a different rod structure on the same straight line based on the third glass located in the middle, it is possible to simultaneously improve the insulation effect and the improvement of the bearing capacity against the wind pressure from outside the building, so that it is a triple layer used for high-rise buildings. It is to provide a triple multilayer glass using a heterogeneous rod that can improve the durability of the glass.

Triple multilayer glass using a heterogeneous rod for achieving the above object, the first glass is installed inside the building; A second glass constituting the outer wall of the building; A third glass positioned between the first glass and the second glass; Insulation bar to maintain the space between the first glass and the third glass located in the center; And an intermetallic rod positioned on the same straight line as the insulated liver rod, the intermetallic rod being made of a metal material to maintain a space between the second glass and the third glass in the center. The liver rod and the metal rod to be located on the outside of the building is characterized by consisting of different materials.

The present invention is to install a three-layer glass insulated by installing a heat insulation rod on the inside of the building, a metal rod on the outside of the building to configure the three-layered glass with heterogeneous rods, thereby improving the insulation effect of the building and high-rise building In the case of sustaining sufficient support for wind pressure continuously applied at the same time there is an advantage that can increase the durability of the building itself as well as the durability of the triple-layer glass.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a partial perspective view of a triple multilayer glass using a heterogeneous liver bar according to the present invention, Figure 3 is a cross-sectional view AA of Figure 2, Figure 4 is a cross-sectional view BB of Figure 2, Figure 5 It is a block diagram which shows a connection structure.

Referring to FIGS. 2 and 3, the triple multilayer glass using heterogeneous stems according to the present invention includes a first glass 110 facing the inside of the building, a second glass 120 forming an outer wall of the building, and the second glass. A third glass 130 positioned between the first glass and the second glass, a heat insulation rod 210 for maintaining a space between the first glass and the third glass located at the center, and a center portion between the second glass and the second glass. It comprises a metal rod 220 to maintain the space between the third glass is located.

As such, the liver rods located inside the building and the liver rods located outside the building are each composed of different materials, that is, heterogeneous materials. The liver rod is composed of the insulation rod 210 to improve the insulation effect, and the liver rod positioned on the outside of the building is a metal rod 220 made of a metal material so as to sufficiently support external impacts such as wind blowing from the outside. It is composed of

The first to third glass (110, 120, 130) can reflect most of the infrared rays having a region of the wavelength related to cooling and heating of the wavelength of the solar light low-emissivity glass having a great difference from the ordinary glass in the infrared reflectance (Low-Emissivity) It is preferred to be composed of Low-E glass. In this way, the first to the third glass is made of low-rise glass reflects the infrared rays generated by the heating mechanism inside the building back in the building in winter, and radiant heat generated by the solar heat applied from the outside of the building in the summer. By reflecting back to the outside it is possible to implement a good thermal insulation effect.

Thus, the first to third glass (110, 120, 130) composed of a Roy glass is cut to the size of the glass to the size suitable for the purpose to install the triple-layer glass, foreign matter on the surface of the cut glass to ensure solid adhesion and perfect visibility After washing, it is configured to dry sufficiently to remove the water remaining during the washing.

At this time, the insulation between the rod between the rod 210 and the metal rod 220 is installed on the same straight line, in response to the wind pressure applied from the outside, the bearing force generated in the intermetallic rod and the insulation between the rods is concentrated without being dispersed, In the case of buildings, it is possible to further strengthen the bearing capacity against the external wind pressure that is continuously experienced. Accordingly, the external wind or the like is directly received only the intermetallic rod, but is supported together in a heat insulating interrod located on the same straight line, in particular an aluminum reinforcement located inside, it is possible to strengthen the overall bearing capacity of the triple layer glass.

The insulating insulation bar 210 is installed between the first glass 110 and the third glass 130 to separate the glass, the reinforcement 211 made of a metal material such as aluminum, and the PVC portion surrounding the outside of the reinforcement 212, the first absorbent 213 is injected into the inside.

The insulation rod 210 is bent to form a loop of a size slightly smaller than its outermost circumference along the outer shape of the first and third glass, and the adhesive is applied to both sides of the PVC portion that the insulation rod is in contact with the glass Or by attaching an adhesive tape to fix the first and third glasses. Accordingly, the first and third glasses 110 and 130 are surrounded by the insulating insulating rod 210 to form a sealed first space.

In this case, the first space may be configured by injecting argon gas (Ar), krypton gas (Kr), etc. which can improve the thermal insulation effect in order to prevent heat transfer between the glass by the air.

In addition, the insulation rod 210 is bent to form a loop smaller than the first and third glass (110,130) bar, as shown in Figure 4 the outermost portion of the first and third glass (110,120) It is configured to be attached to the inner part of about 3 ~ 10mm, which is slightly inward from the seat. Accordingly, a sealing part for preventing the movement of the insulating insulating rod in the space extending from the outer circumferential surface of the insulating insulating rod to the outermost portions of the first and third glass and preventing the inflow of moisture or foreign matter into the first space formed therein. Is formed more.

The intermetallic rod 220 is made of aluminum or stainless steel, which is excellent in durability and light in metal material, in particular moisture, etc., and is located between the second glass 120 and the third glass 130 to form a triple layer. It is configured to enhance the overall bearing capacity of the glass.

At this time, the intermetallic rod 220 is configured by bending the aluminum or stainless steel sheet to a certain size using an auto bending machine. And, bent to form a loop of a size slightly smaller than the outermost circumference of the second glass and the third glass, as in the insulating insulating rod to install at the same position as the insulating insulating rod on the basis of the third glass located in the middle As shown in FIG. 5, both ends of the intermetallic rod 220 forming a loop are connected to each other by a straight key 230 to form a sealed second space.

In addition, the intermetallic rod 220 formed by bending the aluminum or stainless steel sheet is joined to the bonding surface 221 of both sides contacting the second and third glass, respectively, and the inner space between the glass in the bonded state. It consists of an inner surface 222 and an outer surface 223 facing the outer space between the two glasses.

In this case, the inner surface 222 is composed of a wide plate having a width suitable for the spaced space between the second and third glass, the outer surface 223 is configured to have a narrower width than the inner surface, the bonding It is configured to apply an adhesive to the surface 221 or to fix it to the second and third glass by using an adhesive tape.

In addition, a second absorbent 224 is injected into a space surrounded by the bonding surface, the inner surface, and the outer surface of the intermetallic rod, and has a constant through-hole on the inner surface to improve the efficiency of absorbing moisture from the second absorbent. It is preferably configured to form a.

Further, the second intermetallic bar is bent along the shape of the glass to be spaced apart between the second glass and the third glass, and attached to the second and third glass by an adhesive tape provided on the bonding surface. And a second space sealed between the third glasses.

In this case, the second space formed between the second and the third glass by the intermetallic rod may be configured by injecting argon gas (Ar) or krypton gas (Kr), which is an insulating gas to improve the insulating effect. Of course, the gas injected into the second space located outside the building does not contribute much to the improvement of the insulation effect inside the building, and in the case of the metal rod, the gas is not filled with a separate insulation gas in consideration of the large leakage. It may be configured to maintain.

In addition, the intermetallic rod 220 is also formed in a smaller size than the outermost of the second and third glass (120,130), a position slightly inward from the outermost portion of the second and third glass (120,130), It is configured to attach to the inner part of about 3-10 mm. Accordingly, a sealing part is further formed in the space extending from the outer circumferential surface of the intermetallic rod to the outermost portions of the second and third glasses to prevent the movement of the intermetallic rod and the inflow of moisture into the sealed space therein.

Accordingly, the first sealing portion 310 is injected into the first sealing part extending from the outer edge of the insulating insulation rod to the outermost portions of the first and third glass, and thus, between the outer circumferential surface of the insulation insulation rod 210 and the first and third glass. While filling the empty space of the second insulating glass is more firmly fixed between the first and third glass, the second sealing portion formed on the outer circumferential surface provided in the metal rod bar is injected into the second cheol 320 Filling the empty space between the outer circumferential surface and the second and third glass, the intermetallic rod is more firmly fixed between the second and third glass.

As such, while covering the outer circumferential surfaces of the insulating intermetallic rod and the metal intermetallic rod, each of the first thiol 310 and the second thiol 320 is disposed in a space between the first glass, the third glass, and the second glass and the third glass. By being filled, the bonding force between the first to the third glass can be further strengthened, and the heat insulation stick and the metal stick can be prevented from being directly exposed to external moisture or foreign matter.

In addition, the path from the outer space to the space between the first and third glasses is lengthened by the first and second fucks 310 and 320, and accordingly, the first moisture and the like are the first and second fucks. The total diffusion distance that is diffused through the insulating insulation rod and the intermetallic rod is increased, and the adsorption time of moisture is also increased to reduce the occurrence of condensation by external moisture.

Next, the operation of the triple multilayer glass using the heterogeneous hepatic rods according to the present invention configured as described above will be described.

The third glass 130 is positioned between the first glass 110 facing the inside of the building and the second glass 120 forming the outer wall of the building, and the third glass is positioned in the middle of the first glass. The insulating intermittent rod 210 is adhered along an outer portion of the first glass and the third glass at a predetermined distance, and the intermetallic rod made of a metallic material along the outer surface of the other surface of the third glass positioned in the middle of the second glass ( 220 is bonded to separate the second glass and the third glass by a certain distance.

In this case, an argon gas is filled in the sealed first space formed between the first glass and the third glass by the insulating insulating rod, and the sealed second formed between the second glass and the third glass by the metal insulating rod. The space remains unfilled with adiabatic gas.

Accordingly, the insulating insulation rod 210 and the argon gas block the heat conduction between the first glass representing the temperature inside the building and the second glass representing the temperature outside the building to improve the insulation effect. In addition, since the temperature distribution is evenly distributed throughout the first glass by the insulating insulation rod and argon gas, condensation may be prevented from occurring.

As described above, while the insulation rod 210 and the argon gas contribute greatly to increase the insulation effect, the second glass constituting the outer wall of the building and the metal rod 220 supporting the second glass are impacted from the outside. However, in case of high-rise buildings, it will strengthen the bearing capacity against the wind pressure caused by the strong wind. That is, by mitigating the impact of the external wind or the like directly transmitted from the metal interrod to the adiabatic interrod, it is possible to improve the durability of the entire triple glass.

In addition, since the impact caused by the external wind in the metal rods is alleviated and transmitted to the reinforcing material and the PVC portion of the aluminum material formed inside the insulation rod, it is possible to prevent the PVC portion located outside the insulation rod from being damaged by excessive impact. It is possible to realize a longer term insulation effect.

In this way, the insulation between the first and the third glass constituting the triple-layer glass and the metal rods are separated by a certain distance between the metal rods made of different materials, thereby improving the thermal insulation effect of the building and high-rise buildings In this case, it is possible to maintain sufficient bearing capacity against continuous wind pressure, which can greatly increase not only the durability of the triple glazing but also the durability of the building itself.

In the above description, the technical idea of the present invention has been described with the accompanying drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

1 is a partial perspective view showing a structure of a conventional multilayer glass.

2 is a partial perspective view of a triple multilayer glass using heterogeneous liver rods according to the present invention.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along line B-B in FIG.

Figure 5 is a block diagram showing a connection structure of the intermetallic rod in accordance with the present invention.

<Explanation of symbols for the main parts of the drawings>

100-First Glass 120-Second Glass

130-3rd Glass 210-Insulated Bars

211-Stiffener 212-PVC Section

213-First Absorbent 220-Metal Bar

221-Joint Surface 222-Interior Surface

223-Exterior 224-Second Absorbent

230-Straight Key 310-First Fuck

320-2nd Fuck

Claims (4)

A first glass installed inside the building; A second glass constituting the outer wall of the building; A third glass positioned between the first glass and the second glass; An insulated gan bar for maintaining a first space between the first glass and a third glass located in the center; And Located on the same straight line as the insulating insulation rod, comprising a metal rod made of a metal material for maintaining a second space between the second glass and the third glass located in the center, it is located inside the building Insulating rods and metal rods located on the outside of the building are composed of different materials; The insulating insulation bar is bent to form a loop of a size slightly smaller than the outermost circumference along the outer shape of the first and third glass, and is made of a reinforcement made of a metal material such as aluminum, and a PVC portion surrounding the outside of the reinforcement. , The first absorbent is injected therein; The intermetallic rod is bent to form a loop having a size slightly smaller than the outermost periphery of the second glass and the third glass, and the ends of the bent intermetallic rod are connected with a straight key to form a closed inner space. A bonding surface on both sides of the second and third glasses, the inner surface facing the inner space between the two glasses in the bonded state, and the outer surface facing the outer space between the two glasses; The first layer spaced by the insulating insulation bar to separate the first glass and the third glass is filled with argon gas (Ar) or krypton gas (Kr) triple multilayer glass using a heterogeneous liver bar. delete delete The method of claim 1, The insulation rod and the metal rod are attached to an inner portion of about 3 to 10 mm from the outermost portion of the first to third glass, and are sealed in a space extending from the outermost portion of the first to third glass to the outermost portion of the insulating rod and the metal rod. To form wealth; The sealing part is a heterogeneous liver rod, characterized in that the first injection is injected into the first sealing portion formed on the outer circumferential surface of the insulating intermittent rod, the second chirocol is injected into the second sealing portion formed on the outer circumferential surface of the intermetallic rod Triple glass using glass.

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