KR20130019095A - Spacer for plural glazing structure and plural glazing structure therewith - Google Patents

Abstract

PURPOSE: A high-insulation window system pair glass spacer structure is provided to maintain a high-performance window and to secure insulation and structural safety by firmly sealing a gap between a spacer and a frame. CONSTITUTION: A high-insulation window system pair glass spacer structure includes a main frame unit(10), a spacer(20), a reinforcement block(30), a central glass support shock absorption block(40), a first sealing material(50), a second sealing material(60) and a third sealing material(70). The spacer is made of a material having a low thermal conductivity and inserted into the main frame unit. The reinforcement block is arranged into one pair of fitting spaces(14) of the main frame and is combined with the plurality of spacers. The center glass support shock absorption block is combined between the main frame unit and a center glass(a3) and prevent fragmentation of the main frame unit and the edge of the center glass due to vibration of the glass by a door and et cetera by having a coupling wedge(41). A first encapsulant adheres the plurality of reinforcement blocks and inner/outer glasses(a1,a2). A second encapsulant adheres the main frame unit and the plurality of reinforcement blocks. A third encapsulant adheres the main frame unit and the inner/outer glasses.

Description

Spacer for Plural Glazing Structure and Plural Glazing Structure Therewith}

The present invention is to construct a laminated glass that is laminated to be spaced apart to maintain a constant interval, to improve the insulation and to reinforce the warpage phenomenon and distortion, to effectively block the moisture that can enter the air layer of the multilayer and multilayer glass, Multi-layered glass spacer for high-insulation windows and doors to prevent moisture and gas leakage that can enter the end of the air gap, and effectively block the pressure increase due to the temperature rise of the air layer, and to effectively support the increase of the air layer due to the pressure generated in both air layers. It relates to a structure, which prevents the glass structure from falling off due to deterioration in durability, such as deterioration of the caulking, so that long-term structural safety can be maintained, as well as for fitting or moving and interlayer displacement between the glass and windows. Cool air that can be created by space An inert gas (Argon Gas) that maximizes insulation by blocking excessively and induces simplicity of production by using a corner key to insert a connector of a composite rod at right angles, and creates a hole in the corner key side. ) By injecting two layers of air to make it ventilated, and making holes on both sides of the corner key to be manufactured at the time of injection to maintain the same height in the production process to facilitate machine injection. It relates to a multi-layer glass spacer structure for high-insulation windows and doors to prevent the central glass from being broken due to the gap due to the tolerance for the work.

In general, due to the high quality of residential living environment and the improvement of cultural life, the double-layered glass, which is recently used in sound insulation and insulation facilities, is produced by order production, from noise to high-rise buildings, high-rise housing, driveways and private houses and shops. The demand is gradually increasing in response to the desire of consumers to seek a more comfortable atmosphere.

The structure and installation method of such laminated glass are also provided to consumers in various forms, and Patent Registration Nos. 10-0654407 and Utility Model Registration Nos.

That is, in the multilayer glass structure, a through hole having a predetermined size is formed in a building wall, and a chassis frame is installed at an inner edge of the through hole, and a laminated glass composed of inner and outer sides and a center is bonded to the joining portion of the chassis frame. It is fixed.

In this case, the multilayer glass is formed through the bonding between the metallic spacer and the adhesive to form a compressed air layer therein.

However, the thermal cross-blocking spacer applied to the prior art is composed of two liver rods, which are separately manufactured and then coupled to each other by using a connection wedge.

In addition, prior art has to insert a dehumidifying agent in the two liver rods in advance before manufacturing the liver bar into a rectangular frame, the dehumidifier is sealed and inserted within 30 minutes when exposed to air, so the dehumidifier is inserted and the Dehumidifiers are difficult to achieve sufficient effects due to the high number of processes to manufacture and process all these processes in a short time.

In addition, the prior art has a design difficulty to process the hole in the liver bar at a predetermined interval to serve as a dehumidifier to induce the dehumidifier to remove moisture through the hole.

In addition, the prior art has to use the method of inserting each corner connecting angle to tighten the two corners with a screw for connecting the corners to manufacture two rectangular bars, which takes a lot of time in the overall process In addition, it is difficult to make a smooth coupling due to the occurrence of errors during manufacturing, which leads to moisture inflow due to gaps, which has a great influence on the performance of thermal cross-cutting.

In addition, the prior art is a structure in which the two liver rods are bonded to each other, so that it is sealed with an adhesive and a secondary sealant (SILICONE SEAL), even if sealed with the adhesive and the sealant, the material of the silicone is hardened and air holes through which oil is discharged. There is a structural disadvantage that the external moisture can be introduced therein, which is the moisture generated in the inner air layer to reduce the durability of the double-glazed glass, while the phenomenon of poor thermal insulation while generating a phenomenon of poor thermal insulation butyl excellent in the connection portion It is inconvenient to add a process that needs to be filled.

Therefore, the present applicant has proposed a spacer structure for the composite glass (Patent No. 10-1024618, the following prior art 3) to improve the problems of the prior arts 1 and 2 as described above.

However, in the prior art 3, the triplet or multi-layered glass rod maintains the purpose of the invention to increase the thermal insulation or to ensure structural safety by the application of a single material, in the case of a plastic-based thermal insulation rod Although it is excellent, it is difficult to maintain uniform caulking depth because it is difficult to maintain a constant gap between the glass end and liver rod during manufacturing due to its weakness of straightness and torsion, and the plastic liver rod is broken or damaged due to the pressure that presses the glass in the equipment during glass bonding. There is this.

And, in the case of the metal insulating liver rod, the structural strength is excellent, but due to the characteristics of the liver rod, the metal is separated by using the insulation material inside and outside of the metal. Reflected by the air layer through the glass, the temperature difference between the center and the end of the glass causes the breakage of the glass, and the deflection occurs due to the weight of the liver, which lowers the durability of the glass and also facilitates the inflow of moisture. Silver structural double-sided tape had to be used.

On the other hand, the interest in high-insulation windows has been reviewed by the construction industry, but the technology of window frames and glass industry has been developed to improve the performance of each. An integrated solution that reduces the energy loss in the connection of the material is most needed, and has been confirmed in research or simulations, and even if the glass's performance is not good enough to tightly close the gap between the window frame and the glass, it is worse at the overall heat transmission rate. For example, in the case of the same window frame and glass, if the gap between the ends is blocked, at least 10% of heat transfer rate can be expected to increase.In some cases, even though the heat transmittance of glass is excellent, Rather, it will fall.

The present invention was developed in view of the problems of the prior art as described above, in order to maintain a high performance window while firmly sealing the gap between the glass and liver and window frames and glass in view of the importance of the recent high-rise and appearance of the building. The main purpose is to provide a multi-layer glass spacer structure for high-insulation windows and doors while ensuring heat insulation and structural safety.

Another object of the present invention, in combining a plurality of glass laminated in a spaced apart state at regular intervals, to improve the heat insulation and to reinforce the warpage phenomenon and distortion, to effectively absorb moisture that can be introduced into the air layer of the multilayer and multilayer glass Multi-layered glass for high-insulation windows and doors that prevents moisture and gas leakage that may enter the end of the liver bar, and effectively blocks the pressure increase caused by the temperature rise of the air layer and effectively supports the increase of the air layer due to the pressure generated in both air layers. To provide a spacer structure.

Still another object of the present invention is to induce the simplicity of manufacturing using the corner key to insert the connector of the composite liver at right angles, and to create an inert gas (Argon Gas) to maximize the thermal insulation by creating a hole in the corner key side While allowing the two air layers to be vented while allowing injection, the holes on both sides will be manufactured during injection into the corner key to maintain the same height in the production process to facilitate machine injection.

Still another object of the present invention is to prevent the glass structure from falling off due to deterioration of durability such as deterioration of the caulking, so that long-term safety can be maintained, as well as for fitting or moving and interlayer displacement between glass and windows. Maximizes insulation by blocking cold air convection that may occur in the space, and prevents the central glass from being broken due to gaps caused by tolerances for work when the rubber molding material is fitted to the metal frame.

In order to effectively achieve the above objects, the multi-layered glass spacer structure for high-insulation windows and doors according to the present invention is installed along the inner and outer glass circumferential surface so as to maintain a constant air layer between inner and outer glass having the same size. In the multilayer glass spacer structure in which the center glass mounting groove is formed in the center part, the said multilayer glass spacer has the center support frame which lies on the extension line with the center glass, and extends to the left and right on the upper and lower sides of the said support frame, respectively. The main frame consists of an upper and lower wing piece, a pair of fitting spaces provided on both left and right sides of the support frame by the upper and lower wing pieces, and a vertical extension part installed outwardly in parallel with the center glass at the end of the lower wing piece. part; The non-contact part maintains the wing piece fitting groove formed on the lower inner surface, the first locking protrusion formed on the bottom bottom surface, and the central glass non-contact portion formed on the upper inner surface so that the upper wing piece of the main frame part can be fitted. A sieve having a dehumidifying hole formed therein, and a rod of a conductive conductive reinforced plastic material installed to support the edge of the central glass from side to side; A plurality of reinforcing blocks coupled to the pair of fitting spaces provided on both the left and right sides of the main frame part, respectively, forming second catching protrusions corresponding to the first catching protrusions and connected to the plurality of liver rods; A central block for supporting the glass, which is coupled between the main frame and the central glass and protrudes a coupling wedge to prevent the end of the main frame or the central glass from being broken by vibration of the glass; A first encapsulant for blocking moisture penetration to bond the inner and outer glass to the buffer glass for supporting the central glass, respectively; A second encapsulant which bonds and fixes the main frame part and the plurality of reinforcement blocks and guides the argon gas, which is an inert gas, to the dry air layer easily through side processing of the main frame part; And a third encapsulant to adhesively fix the main frame part and the inner and outer glass; Characterized by including a configuration.

According to one aspect of the invention, the first suture is a butyl suture, the second suture is a metal bond suture, and the third suture is a silicone suture is used.

According to another aspect of the invention, the main frame portion, a pair of support frames which are located in the center and configured in parallel in the vertical direction; An upper wing piece extending from the support frame; Fitting grooves formed between upper blade pieces so that the coupling wedges of the buffer glass for supporting the central glass can be fitted; Is done.

According to another aspect of the invention, the main frame portion, the sealing member installation grooves in the left and right pair of vertical extension portion which is installed outwardly at the end of the lower wing piece.

According to another aspect of the present invention, the dehumidifying agent is filled in the liver rod, and a dehumidifying hole is formed in a non-contact portion facing the central glass.

According to another aspect of the present invention, the glass support clip for preventing the falling of the glass due to the wind load is inserted into the sealing member installation grooves of the main frame portion facing each other, the glass support clip is fixed by a screw It is configured to support by the shell structure, it is characterized in that the glass structure supported only by the caulking is prevented from falling off due to deterioration of durability due to the decay of the caulking when the outer wall of the method supported by the caulking.

According to another aspect of the present invention, the sealing member installation groove of the main frame portion, by combining a cold air blocking foam rubber for improving the overall heat transmission rate of the glass and the window frame member, the fitting or movement between the glass and the window frame member and It is characterized by maximizing insulation by blocking cold air convection generated due to the space for coping with the interlayer displacement.

According to another aspect of the present invention, the cold air blocking foam is formed in one end of the engaging groove into which the locking projection of the main frame sealing material installation groove is fitted, the other end is deployed or pressed according to the contact state of the window frame member It extends and comprises a sealing part.

According to the present invention, in consideration of the importance of high-rise building and the appearance of the recent building, high-insulation glazing for high-insulating windows and doors to secure insulation and structural safety to maintain a high-performance window while tightly sealing the gap between the glass and bong and window frames and glass It is composed of a spacer structure, through which a plurality of glass laminated in a spaced apart state at a certain interval, to improve the insulation and to reinforce the warpage phenomenon and distortion, and moisture that can enter the air layer of the multilayer and multilayer glass It effectively blocks, prevents moisture and gas leakage into the end of the liver, effectively blocks the pressure increase due to the temperature rise of the air layer, and effectively supports the increase of the air layer due to the pressure generated in both air layers. Dropping out due to durability deterioration due to deterioration of caulking To prevent long-term safety, and to prevent cold air convection, which can occur as a space for fitting or moving between windows and windows, and interlayer displacement. By inducing the simplicity of production by using the corner key to insert at right angles, the two air layers are ventilated while injecting argon gas to maximize the thermal insulation by creating a hole in the corner key side. Both holes are manufactured at the time of injection into the corner key to maintain the same height in the production process, making it easy to inject the machine, while inserting the rubber molding material into the metal frame to insert the central glass into the gap due to the tolerance for work. It can be expected to prevent the central glass from breaking.

1 is a schematic cross-sectional view showing the structure of a multi-layered glass spacer structure for high-insulation windows and windows in an embodiment of the present invention.
2 is an enlarged view of a mainframe unit in an embodiment of the present invention.
Figure 3 is a schematic cross-sectional view showing a state of expansion and contraction according to the expansion of the air layer of the multi-layered glass spacer structure for high-insulation windows and windows as an embodiment of the present invention.
Figure 4 is a schematic cross-sectional view of a state of supporting the glass structure to the shell structure using the glass support clip in the glass fitting method using the caulking in the embodiment of the present invention.
Figure 5 is a schematic cross-sectional view showing a combined state of the window frame member and the glass structure to prevent the convection phenomenon is moved to the gap in the embodiment of the present invention.

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

1 is a schematic cross-sectional view showing the structure of a multi-layered glass spacer structure for high-insulation windows and windows as an embodiment of the present invention, Figure 2 is an enlarged view of the mainframe portion in an embodiment of the present invention, Figure 3 is an embodiment of the present invention For example, a cross-sectional schematic view showing a state of expansion and contraction according to the expansion of the air layer of the multi-layer glass spacer structure for high-insulation windows and doors, Figure 4 is an embodiment of the present invention by using a glass support clip in the glass fitting method using caulking to the shell structure. Figure 5 is a schematic cross-sectional view of a state supporting the glass structure, Figure 5 shows a cross-sectional schematic view showing a coupling state of the window frame member and the glass structure to prevent the convection phenomenon is moved to the gap in an embodiment of the present invention.

1 to 5, the multilayer glass spacer structure for a high-insulation window and door according to an embodiment of the present invention is the inner, outer glass (a1) (a2) having the same size, and the inner, outer glass (a1) (a2) is applied to a multi-layered glass structure system that laminates and combines the central glass (a3) located between the (a2) to have at least one air layer, the main frame portion 10, ganbong 20, reinforcement block 30 , The central glass support buffer block 40, the first to the third encapsulant 50, 60, 70, the glass support clip 80, and the cold air blocking foam 90.

The main frame portion 10 has a central support frame 11 to be placed on the extension line with the central glass (a3), and the upper and lower wing pieces 12 extending left and right on the upper and lower sides of the support frame 11, respectively. (13), a pair of fitting spaces 14 provided on both left and right sides with respect to the support frame 11 by the upper and lower wing pieces 12 and 13, the center of the lower wing piece 13, the center The upper wing piece extending from the support frame 11 while constituting the vertical extension part 15 which is installed outward in parallel with the glass a3, and having the central support frame 11 in a pair of parallel structures. It is formed between the (12) to form a fitting groove (16) for the coupling wedge 41 of the buffer block 40 for supporting the center glass is fitted, and at the end of the lower wing piece (13) Installation of a sealing material protruding the engaging projection 17a inside the pair of left and right vertical extension portions 15 that are installed outwardly. To form a (17).

The liver rod 20 is formed of a material having a low thermal conductivity, and has a first locking protrusion 21 formed thereon, and is coupled to the upper wing piece 12 positioned at the upper end of the main frame part 10 to close the center glass a3. It is configured to support, the dehumidifying agent 22 is filled, as well as the dehumidifying hole 23 is formed in a portion in contact with the central glass (a3).

That is, when the plurality of liver rods 20 of a material having a low thermal conductivity is inserted into the main frame portion 10 of the central portion, the plurality of liver rods 20 are warped as a disadvantage of plastic materials while improving thermal insulation and structural safety. It is to provide a technical feature to reinforce the phenomenon and distortion, in particular to maintain a constant straightness of the main frame portion 10.

The reinforcement block 30 is disposed in a pair of fitting spaces 14 formed on the left and right sides of the main frame part 10, and is coupled to the plurality of liver rods 20, respectively. Each of the second locking protrusions 31 corresponding to the first locking protrusions 21 is formed.

The central glass support buffer block 40 is coupled between the main frame portion 10 and the central glass (a3), the coupling wedge 41 is configured to protrude, the coupling wedge 41 is the main The main frame unit 10 or the central glass is vibrated by a door or the like between the main frame unit 10 and the central glass a3 by being fitted into the fitting groove 16 of the frame unit 10. The phenomenon in which the edge part of (a3) is broken can be prevented.

The first encapsulant 50 is made of a material such as butyl to bond the plurality of reinforcing blocks 30 and the inner and outer glass a1 (a2), and the plurality of reinforcing blocks 30 and the inner part. , It can effectively block the penetration of moisture between the outer glass (a1) (a2).

That is, when the plurality of reinforcing blocks 30 and the inner and outer glass (a1) (a2) is bonded by the first encapsulant 50, while effectively blocking the moisture that can enter the air layer of the multilayer and multilayer glass The thickness of the air layer is 1.5 times higher than the general double layer, as well as sufficient space for the dehumidifier to enhance the dehumidification power.

The second encapsulant 60 is adhesively fixed to the main frame unit 10 and the plurality of reinforcing blocks 30 by the same material as the metal bond.

That is, using the second encapsulant 60, such as the metal bond, prevents moisture and gas leakage that may flow into the end of the liver rod 20, and provides a dry air layer through side processing of the main frame portion 10. This is to secure a space for easily injecting and sealing an argon gas which is an inert gas.

Accordingly, in the embodiment of the present invention, as well as bonding the inner and outer glass (a1) (a2) to each of both sides of the reinforcing block 30 through the first and second sutures (50, 60), of course, the By adhesively fixing the main frame portion 10, it is possible to effectively block the penetration of moisture into the air layer of the inner and outer glass (a1) (a2).

The third encapsulant 70 is for adhesively fixing the main frame part 10 and the inner and outer glass a1 (a2), which is composed of a silicon structure having excellent stretch ratio.

That is, in the present invention, the third encapsulant 70 is composed of a silicon structure having a better elasticity than the double-sided tape, and as shown in FIG. 3, the air layer is thicker than the general multilayer glass, and the pressure increases due to the temperature increase of the air layer. To effectively block the, as well as to provide a technical feature that can effectively support the increase in the air layer by the pressure (air layer expansion) generated in both air layers.

The glass support clip 80 is to prevent the glass from falling off due to the wind load, the glass structure is supported only by the caulking 100 when applying the outer wall of the method supported by the caulking 100 as shown in FIG. This is to prevent falling due to deterioration of durability due to deterioration of the caulking, for this purpose is inserted into the sealing member installation groove 17 of the main frame portion 10 facing each other, while the outer shell by the fixing screw 200 The coupling is coupled to the structure (mullion) 300 to be made to support.

The cold air blocking foam 90 is coupled to the sealing material installation groove 17 of the main frame portion 10 to fit or move between the glass (a1, a2, a3) and the window frame member 400 and the interlayer displacement. By blocking the convection of cold air that can occur as a space to cope with the improvement of the overall heat transmission rate of the glass (a1) (a2) (a3) and the window frame member 400 or more by 10% as well as to maximize the thermal insulation When inserting into the sealing material installation groove 12 of the main frame portion 10, a locking groove 91 is formed at one end to which the locking projection 17a of the sealing material installation groove 12 is fitted, and the window frame at the other end. According to the contact state of the member 400, the sealing part 92 which is developed or pressed is extended.

That is, as shown in Figure 5, the cold air blocking foam (90) by appropriately blocking the cold air convection that may occur as a space for coping between the glass and windows or movement and interlayer displacement, glass and windows It can provide a technical feature that can improve the overall heat transmission rate of more than 10% and maintain the thermal insulation of the existing insulation rods.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be easy to understand. It is also to be understood that the technical spirit of the invention is also deemed to belong to the scope of the appended claims if the practice of such improvements, alterations, substitutions or additions falls within the scope of the appended claims.

10; Mainframe section 11; Support frame
12; Upper wing 13; Lower wing
14; Fitting space 15; Vertical extension
16; Fitting groove 17; Sealing groove
17a; Obstacle 20; Liver bar
21; First projection 22; Dehumidifier
23; Dehumidification holes 30; Reinforcement Block
31; Second projection 40; Buffer block for supporting the middle glass
41; Coupling wedge 50; First suture
60; Second encapsulant 70; Third encapsulant
80; Glass support clip 90; Cold blocking foam rubber
91; Engaging groove 92; The sealing portion
100; Caulking 200; Set screw
300; Shell structure 400; Window frame member

Claims (8)

In the spacer structure for a double-glazed glass window is installed along the inner and outer glass circumferential surface to maintain a constant air layer between the inner and outer glass having the same size, and forming a central glass mounting groove in the inner central portion,
The multilayer glass window spacer,
A center support frame placed on the center glass and an extension line, a pair of upper and lower wing pieces extending left and right on the upper and lower sides of the support frame, and a pair provided on both left and right sides of the support frame by the upper and lower wing pieces. A main frame portion consisting of a fitting space, and a vertical extension portion installed outwardly in parallel with the central glass at the end of the lower wing piece;
The non-contact part maintains the wing piece fitting groove formed on the lower inner surface, the first locking protrusion formed on the bottom bottom surface, and the central glass non-contact portion formed on the upper inner surface so that the upper wing piece of the main frame part can be fitted. A sieve having a dehumidifying hole formed therein, and a rod of a conductive conductive reinforced plastic material installed to support the edge of the central glass from side to side;
A plurality of reinforcing blocks coupled to the pair of fitting spaces provided on both the left and right sides of the main frame part, respectively, forming second catching protrusions corresponding to the first catching protrusions and connected to the plurality of liver rods;
A central block for supporting the glass, which is coupled between the main frame and the central glass and protrudes a coupling wedge to prevent the end of the main frame or the central glass from being broken by vibration of the glass;
A first encapsulant for blocking moisture penetration to bond the inner and outer glass to the buffer glass for supporting the central glass, respectively;
A second encapsulant which bonds and fixes the main frame part and the plurality of reinforcement blocks and guides the argon gas, which is an inert gas, to the dry air layer easily through side processing of the main frame part; And
A third encapsulant to adhesively fix the mainframe part and the inner and outer glass; Multi-layered glass spacer structure for high-insulation windows and doors comprising a. The method of claim 1,
The first encapsulant is a butyl encapsulant, the second encapsulant is a metal bond encapsulant, and the third encapsulant is a three encapsulant made of silicon material, respectively. . The method of claim 1, wherein the main frame unit,
A pair of support frames positioned at the center and arranged in parallel in the vertical direction;
An upper wing piece extending from the support frame;
Fitting grooves formed between upper blade pieces so that the coupling wedges of the buffer glass for supporting the central glass can be fitted; A multilayer glass spacer structure for high-insulation windows and doors, comprising: The method of claim 1, wherein the main frame unit,
A multi-layered glass spacer structure for high-insulation windows and doors, characterized in that a sealing material installation groove is formed inside a pair of left and right vertical extensions provided outwardly at an end of the lower wing piece. The method of claim 1,
The liver rod is filled with a dehumidifying agent, the multilayer glass spacer structure for high-insulation windows and doors, characterized in that to form a dehumidification hole in the non-contact portion facing the central glass. According to claim 1, In the sealing member installation grooves of the main frame portion facing each other,
The glass support clip is inserted to prevent the glass from falling off due to the wind load, and the glass support clip is configured to be supported by the outer shell structure by a fixing screw, and is supported by the caulking only when the outer wall of the method supported by the caulking is applied. A multilayer glass spacer structure for high-insulation windows and doors, wherein the glass structure is prevented from falling off due to deterioration in durability due to deterioration of caulking. According to claim 1, wherein the sealing member mounting groove of the main frame portion,
The combination of cold air blocking foam rubber that improves the overall heat transmission rate of glass and window frame members, and the insulation between the glass and the window frame member to block the cold air convection generated due to the space for coping or movement and interlayer displacement Multi-layered glass spacer structure for high-insulation windows and doors, characterized in that to maximize. The method of claim 7, wherein the cold air blocking foam,
Multi-layer glass spacers for high-insulation windows and doors characterized in that the locking groove is formed at one end to the engaging projection of the sealing member installation groove of the main frame portion, and the other end extends the sealing portion that is developed or pressed according to the contact state of the window frame member. Structure.

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