KR20130003223A - Triplication insulated glazing - Google Patents

Abstract

PURPOSE: A triple insulating glass window is provided to improve durability and dehumidification efficiency by securely coupling components of the glass window to each other. CONSTITUTION: A triple insulating glass window is composed of a center glass(G), inner and outer glasses(G1,G2), two aluminum beads(5), a spacer(4), and first and second silicone coated gaskets(2,3). The center glass is coupled to the first and second silicone coated gaskets. The aluminum beads are coupled to the spacer using couplers and screws(6). The first and second silicone coated gaskets are coupled to the aluminum beads.

Description

Triplication Insulated Glazing

The present invention relates to a multi-layered glass provided in the window, more specifically in the triple-layered glass to form a single window by installing a glass spaced at regular intervals in the center side, the inside and the outside in the cross section of the window, The glass disposed at the center side is independently located, and the edge is fixed with a gasket, and the inner and outer glass are formed by an integrated structure by a sealant, and the triple laminated glass which maximizes the insulation and noise blocking effect.

In general, windows installed in window frames or chassis that partition the interior and exterior of a building use a multi-layered glass having a space formed inside the glass window by separating a plurality of glasses at a predetermined distance, and such a double-layered glass is used to maintain the separation distance between the glass. The space member is formed in the form of a frame, coated with a butyl rubber or the like on both sides of the space member, and then applied to the glass plate on both sides of the space member by applying a predetermined pressure and heat in a vacuum state to insulate and noise. There are known structures that increase the blocking effect and at the same time have a dry and dry material in the space member to prevent condensation.

The use of such laminated glass is gradually increasing as the living environment is advanced, and its use is being expanded not only to secure a more comfortable living environment but also to enhance indoor and outdoor interior effects.

The commonly used multilayer glass technology improves energy saving and sound insulation, and has continuously evolved to realize various interiors, and various types of laminated glass have emerged. As shown in FIG. The technique is known.

Triple-layer glass known in the prior art is a structure for fixing the inner glass 30, the outer glass 31 and the central glass 60 with the spacer 100, a pair of unit body (10, 10a) The central glass fixing portion 50 is formed, and the pair of unit bodies 10 and 10a is coupled to the lower portion thereof by a coupler 10c. The central glass fixing part 50 is equipped with a setting block 71 to support the central glass 60, and to fix both sides of the central glass 60 with a pair of gaskets 70. 10a) A pair of desiccant 13 is arrange | positioned at each. In addition, the inner glass 30 and the outer glass 31 are bonded and bonded with an adhesive 40, and the unit body 10, 10a, 10c and the inner and outer glass 30, 31 are made of a bonding pad 20 made of silicon or the like. ) Is bonded at the bottom to form a triple glass.

However, in the prior art, a pair of gaskets supporting the central glass has a problem that the linear cross section supports both sides of the edge of the central glass, so that the contact fixing force is inferior, and the pair of gaskets have all the lower strips of the central glass. Since the structure is pressed and supported, the gasket of the linear cross section disposed on both sides of the central glass is difficult to be fixed while substantially pressing both sides of the central glass.

Since the pair of gaskets are difficult to support while pressing both sides of the edge of the center glass, when the window is installed or the window is opened or closed, vibration or shock is applied to the center glass, which causes the flow to the left and right. It is occurring.

In addition, the prior art has a structure for supporting the central glass by arranging the setting block for supporting the central glass separately under a pair of gaskets, or as the setting block is formed separately, work for installing it in the lower gasket in a narrow window space This difficult, if the load of the central glass is not applied to the setting block or evenly applied to the top of the setting block, if the setting block is detached to support the central glass, there is a problem that the central glass may fall off and break. .

And the prior art has a problem that it is difficult to fill more desiccant in a limited space by storing the desiccant storage space divided into two spaces, it is to combine the unit body divided into three only by a bonding pad by a silicone adhesive If the adhesive force of the adhesive is lowered or the impact is applied for a long time, the unit bodies are separated from each other, and thus, three glasses may be separated.

The present invention was devised to solve the problems of the above-described triple glass windows, and in forming the triple glass by separating the central glass and the inner and outer glass at regular intervals, the upper and lower portions of the central glass are supported. And gaskets to be fixed while supporting the central glass with a certain supporting force, and to allow the maximum amount of dry and dry materials to be filled in the limited space provided at the edge of the windows and is included in the windows of the triple-layered glass. By firmly bonding the elements, to improve the productivity, durability and dehumidification of the triple glass.

In the present invention as a means for solving the above problems in forming a triple laminated glass to arrange the glass in the center between the inner, outer glass having the same size, the triple laminated glass is the center glass (G) and the inner outer It is made of glass G1, G2, two aluminum beads 5, spacers 4, and first and second silicon coated gaskets 2,3.

The central glass is tightly coupled to the first and second silicon coating gaskets 2 and 3, but the first and second silicon coating gaskets fix the edge of the central glass to surface contact to absorb the micro flow of the central glass. Silver forms a tube shape provided with a long length in the vertical direction, the other side is to form a fitting that is fitted to be fixed to the aluminum bead.

And the second silicon coating gasket (3) disposed on the left side of the central glass has a lower end of the central glass is placed integrally to form a rectangular block to which the load of the central glass is transmitted, so that the lower portion of the rectangular block is the upper portion of the spacer To be located at

The spacer 4 coupled to the aluminum beads to receive the load of the central glass acting on the silicon coated gasket is formed of engineering plastic, but the overall shape is formed into a rectangular bar shape having a rectangular hollow part, and the wet and dry part is formed in the rectangular hollow part. Allow the tenth to be charged.

The upper part of the spacer has a through hole 9 connected to the rectangular hollow part at regular intervals to circulate the internal air of the triple layered glass with a desiccant filled in the spacer so that dehumidification is achieved.

", "

" 형상 고리 형태의 걸림부(4a, 4b)를 형성하고, 스페이서의 하부 양측 길이방향에는 알루미늄 비드와 끼움 결합되는 "

", "

" 형상 고리 형태의 돌기부(4c,4d)를 형성하며, 스페이서를 다수개의 스크류(6)로 결합하여, 알루미늄 비드와 스페이서가 걸림부와 돌기부 및 스크류의 3중 결합구조로 형성하도록 한다. In addition, the upper and lower portions of the rectangular hollow portion of the spacer to form a plurality of beads at regular intervals in order to prevent twisting or bending deformation of the spacer, and is fitted and fixed with the aluminum beads 5 in the longitudinal direction of both sides of the spacer.

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"Forming hooks 4a and 4b in the shape of a ring, and are fitted with aluminum beads in the lengthwise direction of the lower sides of the spacer. &Quot;

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&Quot; shaped ring-shaped protrusions 4c and 4d, and the spacers are combined with a plurality of screws 6, so that the aluminum beads and the spacers are formed in a triple coupling structure of the locking portions and the protrusions and screws.

In addition, the triple glazing is adhesively sealed with a butyl sealant on the gap between the inner and outer glass surfaces which are in contact with both sides of the aluminum bead, and the hollow space and the window rim formed under the aluminum bead seal the structural sealant having a predetermined thickness and the aluminum bead. The spacers are firmly adhesively fixed to prevent air from flowing into the multilayer glass.

And the aluminum beads are coated or anodized to prevent corrosion of aluminum, and the spacers are made of engineering plastic.

The triple multilayer glass formed by separating the center glass and the inner and outer glass of the present invention at regular intervals has a length of vertically penetrating a silicon coating gasket for supporting and fixing the lower portion of the central glass in the contact area with the central glass. By forming a ball and making surface contact with the lower portion of the central glass, the contact area between the central glass and the silicon coding gasket is increased, thereby increasing the friction area so that the central glass can be stably fixed.

In addition, the pair of silicon coated gaskets have a structure in which the lower parts of the central glass are in contact with each other while being perpendicularly contacted, thereby more reliably attenuating the flow or vibration of the central glass in the silicon coated gasket.

In addition, it is possible to fully fill the limited space that can be formed at the edge of the triple layer glass, which is the hollow portion of the spacer, it is possible to completely remove the moisture generated in the interior space of the triple layer glass.

In addition, the present invention is to have a remarkable working effect that can prevent the three-layered glass is separated from itself by vibration or shock by having a triple bonding structure using the aluminum bead and the spacer with two locking portions and screws. .

1 is a structural diagram of a conventional triple glass
Figure 2 is a cross-sectional view showing the triple glass structure of the present invention
3 is an exploded cross-sectional view showing a triple glass structure of the present invention.
Figure 4 is a perspective view showing the configuration of a spacer and a silicon coating gasket of the triple glass structure of the present invention
Figure 5 is a perspective view showing the configuration of the aluminum bead of the triple glass structure of the present invention

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

2 is an exploded cross-sectional view showing a triple multilayer glass structure of the present invention, Figure 3 is an exploded cross-sectional view showing an exploded cross-sectional view showing a triple glass structure of the present invention, Figure 4 is a spacer with a triple multilayer glass structure of the present invention and It is a perspective view which shows the structure of a silicone coating gasket, and 5 is a perspective view which shows the structure of the aluminum bead which is the triple glass structure of this invention.

As shown in FIG. 2 and FIG. 3, the present triple layered glass structure includes a center glass G, an inner outer glass G1 and G2, two aluminum beads 5, a spacer 4, and a first one. , 2 silicon coated gaskets (2, 3).

The central glass is tightly coupled to the first and second silicon coating gaskets 2 and 3, but the first and second silicon coating gaskets fix the edge of the central glass to surface contact to absorb the micro flow of the central glass. Silver forms a tube shape provided with a long length in the vertical direction, the other side is to form a fitting that is fitted to be fixed to the aluminum bead.

The second silicon coated gasket 3 disposed on the left side of the central glass integrally forms a rectangular block in which a lower end of the central glass is placed and a load of the central glass is transferred to the lower portion of the central glass. It is formed in a width corresponding to the thickness, and the height is formed so that a certain space can be secured on the upper portion of the aluminum bead, so that the lower portion of the rectangular block is located above the spacer.

The spacer 4 is made of a material of engineering plastic (Poly Amide, etc.), and the desiccant 10 is filled in a space formed inside the spacer, and the outer upper hollow portion of the one end has a small through hole 9 of 3 to 5 mm. Continuous perforation at intervals so that the moisture introduced from the outside can be dehumidified by the desiccant (10).

", "

" 형상 고리 형태의 걸림부(4a, 4b)를 형성하고, 스페이서의 하부 양측 길이방향에는 알루미늄 비드와 끼움 결합되는 "

", "

" 형상 고리 형태의 돌기부(4c,4d)를 형성하고, 도 5에 도시된 바와 같이 알루미늄 비드(5)의 내측의 일단의 중단부와 하단부에 형성된 "

", "

" 형상의 걸림부(5c, 5d, 5e, 5f)와 각각 끼움 결합을 형성 스페이서(4)에 충전된 건습제(10) 삽입 공간을 최대한 크게 형성하는 구조로 특정되어 열차단 능력을 향상 시킬 수 있도록 한다.In addition, as shown in FIG. 4, a plurality of beads are formed on the upper and lower portions of the rectangular hollow portion of the spacer 4 at regular intervals in order to prevent twisting or bending deformation of the spacer, and as shown in FIGS. 3 and 4. Likewise, fitting and fastening with the aluminum beads 5 in the lengthwise direction of the upper sides of the spacer

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"Forming hooks 4a and 4b in the shape of a ring, and are fitted with aluminum beads in the lengthwise direction of the lower sides of the spacer. &Quot;

","

"Formed ring shaped projections 4c and 4d, and formed at one end and at the lower end of the inner side of the aluminum bead 5 as shown in FIG.

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"Formed fitting engagements with the locking portions 5c, 5d, 5e, and 5f, respectively, to form the insertion space of the desiccant 10 filled in the spacer 4 as large as possible to improve the thermal barrier ability Make sure

", "

" 형상으로 상 하 걸림부의 고리가 상호 걸림 동작에 의한 결합형태를 취하고 있으며 끼움 결합 되는 알루미늄 비드(5)의 내측의 일단의 중단부와 하단부 중간 부분에 다시 한번 스크류(6)에 의해 내측의 스페이서(4)와 체결함으로써 횡 방향으로의 이탈방지 하고 각각에 견고하게 밀착 결합 되도록 한다.At this time, the hook hooked to each other is "

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The upper and lower hooks of the shape are combined by the interlocking motion, and the inner spacers are formed by the screw 6 once again in the middle portion of the one end and the lower end of the inner side of the aluminum bead 5 to be fitted. (4) by tightening to prevent the separation in the transverse direction and to be tightly coupled to each other.

The aluminum bead 5 coupled to the spacer 4 serves to protect the spacer 4 of the engineering plastic material by blocking ultraviolet rays entering through the outer glass G2, and the surface is oxidized and corroded when contacted with air. To prevent it from being used, paint or anodize it.

In addition, the gap between the inner and outer glass G1 and G2 surfaces in contact with both sides of the aluminum bead is hermetically sealed with butyl sealant 7, and the empty space formed under the aluminum bead is hermetically sealed with the structural sealant 8 (5) and the spacer (4) to be firmly fixed.

As the aluminum beads 5 and the spacers 4 are fixedly coupled as described above, the inflow of air and moisture is blocked through the outer glass and the respective structures are firmly fixed to prevent the glass from falling out or pushing out. Will be.

Next, the center glass formed in the upper center of the spacer 4 is independently positioned and fixed by supporting the lower part with a block formed shim block, and fixing the left and right sides and the upper part with a flat shim without a block formed by stretching. The inner and outer glass is formed into a structure integrated by the sealant, so that the phenomenon that the central glass falls down and the separation is prevented. Both sides of the silicon coating gaskets 2 and 3 are fixedly coupled with the aluminum beads 5.

", "

" 형상으로 형성되고, 상기 알루미늄 비드(5)의 내측의 일단의 상단부에 "

", "

" 형상의 걸림부(5a, 5b)를 형성하여 서로 끼움 결합 되고, 상기 알루미늄 비드(5)의 상단부는 경사져 있어 중앙 유리(G)와 수직 조립되고 양단 모서리 연결부가 45도 각도로 형성되어 있다.In this case, as shown in FIGS. 4 and 5, the fitting parts 2a and 3a formed in the first and second silicon coating gaskets 2 and 3 are respectively formed at both sides of one end of the gasket.

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"Is formed in a shape, and at the upper end of one end of the inside of the aluminum bead 5"

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&Quot; Hanging portions 5a and 5b of the shape " are fitted to each other, and the upper ends of the aluminum beads 5 are inclined so as to be vertically assembled with the central glass G, and both end corner connections are formed at a 45 degree angle.

", "

"형상의 걸림부(5c, 5d)는 스페이서(4) 외측의 일단 상단부에 형성된 "

", "

" 형상 고리 형태의 걸림부(4a, 4b)와, 스페이서의 하부 양측에 "

", "

" 형상 고리 형태의 돌기부(4c,4d)는 알루미늄 비드(5)의 내측의 일단의 하단부에 형성된 "

", "

"형상의 걸림부(5e, 5f)와 상호 걸림 동작에 의한 1차적 끼움 결합을 형성하고, 2차적으로 알루미늄 비드(5)의 내측의 일단의 중단부와 하단부 중간 부분에 형성된 스크류(6)와 같은 결합수단에 의해 내측의 스페이서(4)와 견고하게 밀착 결합 고정됨으로써 횡 방향으로의 이탈방지 방지할 수 있게 되는 것이다.On the other hand, as shown in Fig. 3, the end portion formed at one end of the inner side of the aluminum bead 5 "

","

"The shaped locking portions 5c and 5d are formed at one end of the spacer 4 outside."

","

"On the hooking portions 4a and 4b in the shape of a ring and on both sides of the lower part of the spacer."

","

"The annular projections 4c and 4d are formed at the lower end of one end inside the aluminum bead 5"

","

And the screw 6 formed at the middle portion of the lower end and the lower end of the inner end of the aluminum bead 5 to form a primary fitting engagement by the interlocking action with the shape locking portions 5e and 5f. By tightly coupling and fixing the inner spacers 4 by the same coupling means, it is possible to prevent the separation in the transverse direction.

In addition, the above coupling form has a wide spaced space is formed during the coupling to specify a structure that maximizes the insertion space of the desiccant 10 filled in the spacer 4 to the maximum, and the amount of filling of the desiccant increases accordingly the outer glass and the inner It is possible to improve the heat shielding ability between the glasses.

On the other hand, the outer both sides of the aluminum bead (5) is adhesively fixed to the inner outer glass by the butyl sealant (7) to form a configuration to block the air flowing from the outside and to prevent the inner outer glass from being separated The space formed at the lower end of the spacer 4 and the aluminum bead 5 is sealed and fixed by the structural sealant 8 to prevent the sliding of the glass G1 and G2 and the spacer 4 inside and outside the moisture inflow. It is structured to be blocked.

Thus, the triple composite glass structure of the present invention is the center glass (G), the inner and outer glass (G1, G2), two aluminum beads (5), the spacer (4), the first, second silicon coating gaskets (2, 3) The component of the) takes the combined form as described above, the thermal insulation effect is increased, the noise blocking function is enhanced, as well as the effect and the durability and robustness of the product significantly improved.

As described above, the present invention has been described with reference to preferred embodiments of the present invention as being capable of various modifications, but the present invention is not limited to these embodiments. In addition to the embodiments in which the above embodiments are simply combined with the conventionally known art, the technology that can be used by those skilled in the art to which the present invention pertains in the claims and the detailed description of the present invention is naturally included in the technical scope of the present invention. You will have to look.

1: space G: center glass
G1: Inner Glass G2: Outer Glass
2: first silicone coated gasket 3: second silicone coated gasket
2a, 3a: silicone coating gasket fitting
4 spacer 4a, 4b spacer top catch
4c, 4d: spacer bottom projection 5: aluminum bead
5a, 5b: aluminum bead top stop 5c, 5d: aluminum bead stop
5e, 5f: aluminum bead bottom engaging portion 6: screw
7: butyl sealant 8: structural sealant
9: through-hole 10: desiccant
11: fixed protrusion

Claims (6)

In the window which consists of triple glazing,
The triple glazing consists of a central glass and an inner and outer glass, two aluminum beads, a spacer, a screw, and first and second silicon coated gaskets, the center glass of which the edge is supported by the aluminum beads and the spacer. It is fixed with a 1, 2 coating gasket, wherein the two aluminum beads are bonded by a spacer, a coupler and a screw. The method of claim 1,
The first and second silicon-coated gaskets form a tube shape having a long hole in one side in the vertical direction to fix the edge of the central glass to face contact to absorb the micro flow of the central glass, and the other side to aluminum. The fitting portion is inserted into the bead is fixed, wherein the first gasket is a triple layered glass, characterized in that to form a rectangular block integrally supported by the rim end of the central glass in the lower portion. The method of claim 2,
The spacer is combined with aluminum beads to take the load of the central glass, and formed into a rectangular bar shape having a rectangular hollow portion filled with a desiccant so as to remove moisture in the laminated glass, the upper portion of the spacer in the air in the desiccant A plurality of through-holes are formed at regular intervals, and a plurality of beads are formed in the upper and lower portions of the rectangular hollow portion of the spacer to prevent twisting or bending deformation of the spacer, and aluminum is disposed on both upper and lower sides of the spacer, respectively. Triple-layer glass, characterized in that for forming a locking portion coupled to the bead. The method of claim 3,
The aluminum beads are formed in the first and second silicon coated gaskets at the upper end of the inner end.

","

"Insertion of the contour is inserted"

","

"Is formed in the shape of the engaging portion, the inner middle portion and the lower end formed in the upper end and the lower end at the outer end of the spacer"

","

"Engaging hooks in the shape of a ring"

","

&Quot; Form a latching portion to join the aluminum beads with the first and second silicone coated gaskets and spacers, and further to join the middle portion of the aluminum beads with the spacers with a screw. 5. The method of claim 4,
The gap between the inner and outer glass surfaces in contact with both sides of the aluminum bead is sealed with butyl sealant, and the vacant space formed under the aluminum bead and the edge of the window are sealed with structural sealant so that the aluminum bead and the spacer are firmly adhesively fixed. Characterized by triple glass. The method of claim 5,
The aluminum bead is coated or anodized to prevent corrosion of the inside of the aluminum, and the spacer is a triple layer glass, characterized in that using an engineering plastic.

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