KR101021869B1 - Manufacturing process of triple multi-layer glass using space bar made up of different material - Google Patents

Abstract

PURPOSE: A method for manufacturing triple multi-layer glasses using different material space bars is provided to improve the durability of triple multi-layer glasses used in a multistory building and increase support force of a building against wind pressure. CONSTITUTION: A method for manufacturing triple multi-layer glasses using different material space bars comprises following steps. A plate glass is cut into a fixed size and is cleaned(S10). An insulation space bar is formed with an aluminum stiffener(S20). The insulation space bar is attached on one side of the cut third glass(S30). Aluminum or a stainless steel plate is bent, so a metal space bar is formed. The metal space bar is attached to one side of the second glass using adhesive or adhesive tape. Thiokol is injected into the outer surface of the insulation space bar and the metal space bar.

Description

Manufacturing process of triple multi-layer glass using space bar made up of different material}

The present invention relates to a three-layered glass manufacturing method, and more particularly, in forming a liver rod spaced apart from the first to third glass by a certain distance, the first glass facing the inside of the building and the third glass located in the center Between the third glass and the second glass constituting the outer wall of the building between the third glass and the second glass forming a metal between, forming the interlayer of the tri-layer glass of different dissimilar materials, respectively, the thermal properties inside the building The excellent insulating insulation bar improves the thermal insulation effect, and on the outside of the building, the present invention relates to a method for manufacturing triple-layered glass using heterogeneous rods, which is able to improve resistance to wind pressure by means of reinforced metal rods.

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.

Thus, by separating the plurality of glass with 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 caused by the condensation phenomenon by adding an absorbent to the liver bar.

Conventional multilayer glass is configured to include a first glass facing the inside of the building, a second glass constituting the outer wall of the building, and a ganbong to maintain a constant space between the first glass and the second glass.

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 liver rod made of aluminum has a high thermal conductivity, which significantly reduces the thermal insulation effect, and thus the visual field is greatly disturbed by the dew condensation caused by the temperature difference between the inner and outer surfaces of the glass. there was.

In addition, in order to form the liver rod from the aluminum material, the process of cutting the steel sheet for forming the liver rod to a certain size, the process of bending the cut steel sheet, the process of inserting the connection key to form a closed loop structure, The process of injecting the absorbent and the process of attaching the adhesive are constantly required, and the equipment for operating each process and the operator for operating the equipment are required. There was a problem.

Accordingly, in order to prevent the reduction of the thermal insulation effect due to the thermal conductivity of the aluminum liver rod, the urethane resin or the moisture absorbent was filled and cured in the interior of the aluminum liver rod, but it was used after curing. There is a problem that the manufacturing cost is increased due to the increase in time.

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 cues that can 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 method of manufacturing liver rods that can simultaneously provide support and simplify the manufacturing process.

The problem to be solved by the present invention is to form a liver bar that is located inside the building from the triple-layered glass with an aluminum reinforcement and excellent insulation performance, and has a strong bearing capacity for wind pressure, etc. It is made of metal material to improve the insulation effect and improve the bearing capacity against wind pressure at the outside of the building. The present invention provides a method of manufacturing triple layered glass using heterogeneous liver rods that can reduce and improve the durability of the triple layered glass used in a high-rise building.

Triple layered glass using heterogeneous rods for achieving the above object is to cut the plate glass to the size of the first to third glass, and to wash the foreign substances on the cut surface of the cut glass, to remove the remaining water during the cleaning A plate glass processing step of drying sufficiently; Forming a thermal insulation rod formed with an aluminum reinforcement; Insulation sticking step of adhering the insulating heat insulating rod to one surface of the third glass by an adhesive or adhesive tape, and placing the first glass temporarily fixed on one surface of the insulating heat insulating rod, and pressurized to attach it; An intermetallic rod forming step of bending an aluminum or stainless steel sheet to form an intermetallic rod; Bonding an intermetallic bar to one surface of the second glass using an adhesive or an adhesive tape, and attaching the other surface of the third glass to the other surface of the intermetallic rod; And a thiol call injection step of injecting thiol call on the outer circumferential surfaces of the adiabatic rod and the metal rod.

At this time, the insulating insulation rod forming step, a reinforcing material forming process of forming a reinforcing material made of a metal material such as aluminum; PVC part coating process of wrapping the outside of the reinforcement with a synthetic resin; And a first absorbent injection process for injecting a first absorbent into the reinforcing material, and is formed to form a loop having a size slightly smaller than the outermost circumference of the first to third glasses.

The present invention is to form a liver rod that is located inside the building from the triple-layered glass as an insulating insulation rod, and the liver rod that is located outside the building to form a metal rod to improve the insulation effect and the improvement of bearing capacity against the wind pressure outside the building. At the same time, it is easy to bend the edges along the shape of the glass to facilitate the work, thereby reducing the manpower and equipment for the production of the triple layer glass while maintaining the durability of the triple layer glass used in the high-rise building. There is an advantage that can be improved.

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

1 is a block diagram of a method for manufacturing triple multilayer glass using heterogeneous liver rods according to the present invention, and FIG. 2 is a partial perspective view of triple multilayer glass using heterogeneous liver rods according to the present invention.

Referring to Figure 1, the three-layer multilayer glass manufacturing method using a heterogeneous liver bar according to the present invention, the plate glass processing step (S10) for cutting and washing the plate glass to a certain size, and heat insulation to form a heat insulation between the rods provided with aluminum reinforcement Ganbong forming step (S20), the insulating insulating bar is bonded to one surface of the cut third glass and the insulating insulating bar adhesive step (S30) for pressing and attaching the first glass, and bending the aluminum or stainless steel sheet to form a metal rod The intermetallic rod forming step (S50) and the intermetallic rod adhesion step (S60) for adhering the intermetallic rod to one surface of the second glass by using an adhesive or an adhesive tape and pressing the other surface of the third glass by pressing; It is configured to include a cheol call injection step (S70) for injecting a cheol call on the outer circumferential surface of the insulating steel bar and the metal rod.

In this case, the triple multilayer glass using the heterogeneous ganbong is the first glass 110 facing the inside of the building, as shown in Figure 2, the second glass 120 forming the outer wall of the building, and the first glass and The third glass 130 positioned between the second glass, the insulating interlayer 210 to maintain a space between the first glass and the third glass located in the center, and the second glass and the center located in the center It consists of a metal rod 220 to maintain the space between the three glass.

In this way, in the triple-layered glass, the liver rod located inside the building is composed of an insulation rod for improving the insulation effect, and the liver rod positioned outside the building is sufficiently supported by external impacts such as wind blowing from the outside. It consists of intermetallic rods that can be made of different dissimilar materials.

The plate glass processing step (S10) is to cut the plate glass to the size of the first to the third glass, and to clean the foreign matter on the surface of the cut glass to ensure a strong adhesion and perfect visibility, remaining in the cleaning And dry enough to remove moisture.

In this case, the plate glass forming the first to the third glass can reflect most of the infrared rays having a region of the wavelength related to the cooling and heating of the sunlight, so the low-emissive glass (Low) has a large difference from the ordinary glass in the infrared reflectance It is composed of Low-E glass which is -Emissivity.

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.

The insulating insulation rod forming step (S20) is a reinforcing material forming process (S21) for forming a reinforcing material made of a metal material such as aluminum, PVC part coating process (S22) for wrapping the outside of the reinforcing material with a synthetic resin, and the first inside the reinforcing material It is configured to include a first absorbent injection process (S23) for injecting the absorbent.

Accordingly, the insulating insulation rod 210 is installed between the first glass 110 and the third glass 130 to separate the glass, as shown in Figure 2, the reinforcing material 211 made of a metal material such as aluminum And, made of a PVC part 212 surrounding the outside of the reinforcing material, the first absorbent 213 is injected into the inside.

In this case, the insulating insulating bar is bent to form a loop of a size slightly smaller than the outermost circumference of the first to the third glass, the insulating insulating rod is coated with adhesive or adhesive tape on both sides of the PVC contacting the glass. To be fixed to the first and third glasses. And both ends of the insulation bar forming a loop in this way is configured to be firmly connected to form a closed first space therein.

In the insulating insulating bar sticking step (S30), the insulating insulating bar is adhered to one surface of the third glass by an adhesive or an adhesive tape applied to both sides of the PVC part, and the temporarily fixed first glass is positioned on one surface of the insulating insulating bar. After pressing, attach it by pressing.

At this time, the insulating intermittent rod attached to the third glass is attached to a point 3 to 10 mm inward from the outermost side of the third glass, and the first glass attached to one side of the insulating intermittent rod is also 3 to 10 at the outermost end. It is preferable to adjust the position so that it is attached to the point which entered in mm.

In addition, while the first glass is placed on one surface of the insulating heat insulating bar, the heat insulating effect can be improved in the sealed first space formed between the first glass and the third glass by the insulating insulating bar before the complete adhesion is made. It is preferable that it further comprises a heat insulating gas injection step (S40) for injecting argon gas (Ar) or krypton gas (Kr) into the gas. Accordingly, heat transfer between the first glass and the third glass is suppressed by the argon gas or the krypton gas, thereby realizing a better heat insulating effect.

The intermetallic rod forming step (S50) is made through an independent process, which is performed separately as in the insulating intermittent rod forming step, and cuts and bends aluminum or stainless steel sheets to be in contact with the second and third glass, respectively. Intermetallic rod bent to form an inner surface 222 facing the inner space between the two glasses and an outer surface 223 facing the outer space between the two glasses in the bonded state 221 and forming a closed loop Cutting and bending process (S51), a straight key insertion process (S52) to form a closed loop by inserting a straight key at both ends of the bent metal rod, and the inner space of the joint surface and the inner surface and the outer surface The second absorbent is filled with a second absorbent (S53) and a butyl bonding process (S54) for attaching the adhesive tape to the bonding surface is configured to.

At this time, the intermetallic rod is also bent to form a loop of a size slightly smaller than the outermost circumference of the first to the third glass, like the insulating interrod, both ends of the intermetallic rod forming the loop is connected by a straight key And configured to form a sealed second space therein.

The intermetallic sticking step (S60) is to move the first multilayer glass formed so that the first glass and the third glass are separated by a predetermined distance by the insulating insulation rod to the conveyor belt, the second glass using an adhesive or adhesive tape It is configured to adhere the second glass and the third glass by adhering the intermetallic rod to one surface of the first glass and the other surface of the third glass constituting the first laminated glass to contact the bonding surface of the intermetallic rod. Accordingly, the intermetallic rod is positioned between the second glass and the third glass to strengthen the overall supporting force of the triple glass.

In this case, the intermetallic sticking step (S60) is attached to the first surface of the second glass first as described above, the first double-layered glass on the second glass and then pressurized by a second It may be configured to adhere the glass and the third glass, of course, the first metal stick to the other surface of the third glass constituting the first multilayer glass, and then press the second glass toward the third glass It may also be configured to attach.

In this case, the intermetallic rod is attached to the same position, that is, on the same straight line, so that the bearing force generated by the insulating insulation rod and the intermetallic rod is not dispersed, and the reinforced effect is realized. It is preferable.

In addition, the second space spaced apart from the second glass and the third glass by the metal interrod further comprises a heat insulation gas injection step of injecting argon gas or krypton gas in the same way as the space formed by the heat insulation intermittent rod May be

The cheol call injection step (S70) is the heat insulating between the bar and the metal between the bar is slightly attached inward from the outermost portion of the first to the third glass, the inner portion of about 3 to 10 mm, so Into the space leading to the outer circumferential surface of the intermetallic rod and the first to the third glass, the chicol is injected as a sealing part for preventing the movement of the liver rod and the inflow of moisture.

This cheol call injection step (S70) is a step (S71) of contacting the outlet of the cheol call supply device to the outer surface of the first to third glass, and supplying the cheol call along the outer surface of the first to third glass Moving the outlet of the device and supplying the cheol (S72), and the edge treatment process for adhering the flow preventing means to the glass by recognizing the edge of the first to third glass and supplying more cheolol (S73) It is configured to include.

In this way, the first call 310 is formed in the first sealing portion formed on the outer circumferential surface of the insulating intermittent bar by the supply of the first call, and the second call call 320 is formed in the second sealing part formed on the outer circumferential surface of the intermetallic rod. Is formed. As described above, the first to third glasses are filled between the first glass, the third glass, and the second glass and the third glass while covering the outer circumferential surfaces of the insulating inter-bar and the metal inter-bar. In addition, it is possible to more firmly bond between the insulation bar and the metal bar to prevent direct exposure to external moisture or foreign matter.

In addition, the path from the outer space to the space between the first and third glass is extended by the first and second chocolate, so that external moisture or the like passes through the first and second chocolate. The total diffusion distance to the insulation rod and the metal rod is increased, the adsorption time in the rod is also increased, it is possible to significantly reduce the condensation phenomenon caused by the external moisture.

When the thiol is hardened after the filling of the thiol is completed, the rod is spaced apart a certain distance from the first to third glass constituting the triple-layer glass, the insulation between the inside of the building and the metal between the bars of the outside of the building are different materials. In addition, it improves the insulation effect of the building and at the same time maintains sufficient bearing capacity against wind pressure continuously applied even in high-rise buildings, which not only increases the durability of the triple-glazed glass but also increases the durability of the building itself. .

In the above description, the technical idea of the present invention has been described with the accompanying drawings. In addition, it is apparent that any person having ordinary knowledge in the technical field to which the present invention belongs may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

1 is a block diagram of a method for manufacturing triple multilayer glass using heterogeneous liver rods according to the present invention.

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

220-Metal Rod 310-First Cheol

320-2nd Fuck

Claims (5)

A plate glass processing step of cutting the plate glass to the size of the first to third glass, washing the foreign substances on the cut glass surface, and then drying the plate glass sufficiently to remove water remaining during the washing; Forming a thermal insulation rod formed with an aluminum reinforcement; Insulation sticking step of adhering the insulating heat insulating rod to one surface of the third glass by an adhesive or adhesive tape, and placing the first glass temporarily fixed on one surface of the insulating heat insulating rod, and pressurized to attach it; An intermetallic rod forming step of bending an aluminum or stainless steel sheet to form an intermetallic rod; Bonding an intermetallic bar to one surface of the second glass using an adhesive or an adhesive tape, and attaching the other surface of the third glass to the other surface of the intermetallic rod; And It comprises a cheol call injection step of injecting the cheol call on the outer circumferential surface of the insulating insulation rod and the metal rod; The insulating insulation rod forming step, Reinforcing material forming process of forming a reinforcing material made of a metal material such as aluminum; PVC part coating process of wrapping the outside of the reinforcement with a synthetic resin; And A first absorbent for injecting a first absorbent into the reinforcing material, and forming a loop having a size slightly smaller than the outermost periphery of the first to third glasses; The insulating insulation rod bonding step further includes an insulation gas injection step of automatically injecting argon gas (Ar) or krypton gas (Kr) into the sealed space formed by the insulation insulation rod in the press for pressing the first glass. To; The intermetallic rod forming step, An aluminum or stainless steel sheet is cut and bent by an auto bending machine to be joined to both side surfaces of the second and third glasses, respectively, and the inner surface facing the inner space between the two glasses in the bonded state, and both glasses. An intermetallic bar cutting and bending process to form an outer surface facing an outer space therebetween and bend to form a closed loop; A straight key insertion process of inserting straight keys at both ends of the bent metal rods to form a closed loop; A second absorbent injecting step of filling a second absorbent into an inner space formed of both the bonding surface, the inner surface, and the outer surface; And Method for producing a triple layer glass using a heterogeneous liver rod, characterized in that comprising a butyl bonding process for attaching the adhesive tape to both bonding surfaces. delete delete delete The method of claim 1, The cheol call injection step, An outer surface contacting process of contacting an outlet of the cheocol supply device to an outer surface of the first to third glasses; Moving the discharge port of the thicol supply device along the outer surfaces of the first to third glass and supplying the chicol; And Recognizing the edges of the first to third glass, the three-layered glass manufacturing method using the heterogeneous liver bar, characterized in that it comprises a corner treatment process for adhering the flow preventing means in close contact with the glass and supply more cheolcol.

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