KR20210155552A - Triple laminated glass using polycarbonate glass and manufacturing method - Google Patents

Abstract

The present invention relates to a triple laminated glass using a polycarbonate glass. More particularly, the present invention relates to a triple laminated glass that not only guarantees rigidity but also has excellent earthquake resistance, and a manufacturing method thereof. To this end, according to the present invention, a polycarbonate plate is formed between two glass plates, a liquid film is provided on the other surface of the polycarbonate plate, on one side of the polycarbonate plate, a bar is installed on the four-sided border between the polycarbonate plate and one glass plate so that a vacuum space is formed, and a sealing member is applied to configure a multi-layered glass.

Description

Triple laminated glass using polycarbonate glass and manufacturing method

The present invention relates to a method of manufacturing triple laminated glass and triple laminated glass, and more particularly, to a laminated glass using polycarbonate glass and a manufacturing method thereof.

Laminated glass is configured by bonding a plurality of layers including a glass plate, and rigidity may be reinforced than that of a single glass plate. Laminated glass used for windows and safety guides, which are non-structural elements constituting a building, must have toughness against external impacts for safety. In particular, since glass used in high-rise buildings is continuously exposed to strong wind, it must have an earthquake-resistant function to prevent glass breakage due to vibration.

Double-glazed glass is a structure in which glass is installed as a double, and by enabling triple blocking, it functions as a curtain wall with excellent thermal insulation effect. It is possible to adopt an earthquake-resistant structure with a seismic design so as to absorb vibrations by separating the inner frame and filling the space connecting the inner frame and the outer frame with an insulating material or elastic rubber material.

On the other hand, according to Korean Patent Publication No. 10-2012-0052068 as an example of the prior art that presents a seismic structural curtain wall installed on the exterior wall of a building, it is installed on the exterior wall of a building that can replace the double-glazed glass indoors as well as outdoors Disclosed is a curtain wall structure of an earthquake-resistant structure. When the prior art is described in detail with reference to FIG. 1 , the center frame 1 ′ of an embodiment used for a curtain wall is composed of an inner center bar 1a ′ and an outer center bar 1b ′, but the inner center bar (1a') and the outer center bar (1b') by inserting a heat insulating material (4a') in each protrusion of the center bar (1a') and the outer center bar (1b') are connected to each other.

However, according to the prior art, there is still a disadvantage in that there is a limitation in presenting a structure capable of reducing the impact applied to the multilayer glass from the occurrence of vibrations due to earthquakes or strong winds.

The present invention can be used for doors that require security for interiors of buildings, as well as windows that require security, such as a place that sells precious metals, because rigidity is reinforced by bonding glass in three layers. , an object of the present invention is to provide a triple laminated glass having an earthquake-resistant function that prevents glass breakage due to vibration during earthquakes or wind and flood damage, and a method for manufacturing triple laminated glass.

In order to achieve the above object, the present invention provides an intermediate layer made of a polycarbonate plate having a liquid film formed on one side thereof, and a glass material or polycarbonate plate provided adjacent to the lower surface of the upper layer and the intermediate layer, which is a glass material provided to contact the upper surface of the intermediate layer. It consists of a phosphorus lower layer, an interstitial rod disposed between the upper and lower layers to form a vacuum space at a predetermined interval, and a sealing member disposed in close contact with the interstitial rod between the upper and lower layers. In addition, the intermediate layer includes a polycarbonate plate having an inlet and an air outlet formed thereon, a double-sided adhesive film provided along the remaining edges except for the inlet and the air outlet on the upper surface of the polycarbonate plate, and having the same thickness as the double-sided adhesive film, poly It includes a liquid film formed to have an area in the center of the upper surface of the carbonate plate.

If the state in which the liquid film is formed on the polycarbonate plate is described in detail, the liquid film is injected through the injection hole of the polycarbonate plate, and the edge portion of the liquid film that is filled is placed in close contact with the inner surface of the double-sided adhesive film. The inlet and the air outlet are formed on one side of the edge of the upper surface of the polycarbonate plate, are concavely gripped to have a predetermined depth, and are formed to have a predetermined width and thickness. In addition, the upper layer is configured by closely disposing the glass material on the double-sided adhesive film, and the glass material constituting the upper layer has the same size as the polycarbonate plate material. The inter rod is a second double-sided adhesive film attached to one side and the other side, respectively, and is provided adjacent to the four-sided edge portion between the polycarbonate plate and the lower layer, and is spaced apart from the lower edge of the polycarbonate plate by a predetermined distance in the inward direction. Positioned so as to be, one side of the interstitial rod is coupled to be in contact with the polycarbonate plate by the second double-sided adhesive film, and the other side of the interbar is coupled to the lower layer by the second double-sided adhesive film. As the sealing member is disposed so as to be in close contact with the outer surface of the rod provided toward the outside, it seals the edge between the upper and lower layers to seal the vacuum space. A vacuum jack is formed in the corner of one side of the rod, and the vacuum jack has a through-type discharge hole that allows air and moisture introduced into the vacuum space to be discharged to the outside, and a check ball for opening and closing provided with a spring is provided in the discharge hole. By fastening, the path of the discharge hole can be blocked, and the sealing member is placed in close contact with the outer surface of the discharge hole of the vacuum jack to which the check ball for opening and closing is fastened to maintain the vacuum dry state of the vacuum space.

In the manufacturing method of triple laminated glass using polycarbonate glass, the method of forming the intermediate layer comprises the steps of: forming an inlet for injecting a liquid film into a polycarbonate plate and an air outlet for discharging air; and On the upper surface of the polycarbonate plate on which the primary processing has been completed, the steps of providing a double-sided adhesive film of a certain thickness along the remaining edges except for the inlet and the air outlet; step; and injecting a liquid film on the upper surface of the polycarbonate plate from the inlet and simultaneously discharging air from the air outlet to remove air bubbles between the intermediate layer and the upper layer; and solidifying the injected liquid film; and of the intermediate layer A step of coupling one side of the interstitial rod to the lower surface and forming a vacuum space; and coupling the lower layer to the other side of the interstitial rod so that the lower layer abuts; forming and sealing the vacuum space; and, when the sealing member is 40% to 60% solidified, discharging the air and moisture introduced into the vacuum space through the discharge hole of the vacuum jack formed at one corner of the interstitial rod; and, fastening the check ball for opening and closing to the discharge hole of the vacuum jack; and maintaining the vacuum state inside the vacuum space by forming a sealing member to seal the discharge hole of the vacuum jack to which the check ball for opening and closing is fastened. and, solidifying the sealing member; includes

The features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings.

According to the present invention, it is possible to prevent secondary damage due to glass breakage when an earthquake or wind and flood damage occurs, and there is an effect that can provide a triple laminated glass capable of securing excellent seismic performance.

1 shows the shape of a conventional laminated glass.
2 is a cross-sectional view showing the structure of a triple laminated glass using the polycarbonate glass of the present invention.
3 is a plan view and a cross-sectional view showing the structure of the polycarbonate plate 210 of the present invention.
4 is a plan cross-sectional view and a cross-sectional view showing a state of forming a liquid film on the intermediate layer of the triple laminated glass using the polycarbonate glass of the present invention.
5 is a plan view and a cross-sectional view showing the bonding state of the intermediate layer and the lower layer of the triple laminated glass using the polycarbonate glass of the present invention.
6 is a plan view and a cross-sectional view showing a state of sealing the vacuum space of the triple laminated glass using the sealing member of the present invention.
7 is a flowchart illustrating a method of manufacturing a triple laminated glass using the polycarbonate glass of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

In addition, the following examples do not limit the scope of the present invention, but are merely exemplary matters of the components presented in the claims of the present invention, and are included in the technical spirit throughout the specification of the present invention and constitute the claims Embodiments including substitutable elements as equivalents in elements may be included in the scope of the present invention.

2 is a cross-sectional view showing the structure of a triple laminated glass using the polycarbonate glass of the present invention.

Referring to FIG. 2 , an intermediate layer 200 made of a polycarbonate plate 210 having a liquid film 230 formed on one surface thereof, and an upper layer 100 and an intermediate layer 200 that are glass materials provided to contact the upper surface of the intermediate layer 200 . ), a lower layer 300 that is a glass material or polycarbonate plate 210 provided adjacent to the lower surface, and an interstitial rod 400 disposed between the upper layer 100 and the lower layer 300 to form a vacuum space at a predetermined interval and , consisting of a sealing member 500 disposed in close contact with the interstitial rod 400 between the upper layer 100 and the lower layer 300 .

3 is a plan view and a cross-sectional view showing the structure of the polycarbonate plate of the present invention.

Referring to (a) of FIG. 3 , an inlet 211 and an air outlet 212 are respectively formed on one side of the upper edge of the polycarbonate plate 210 . The inlet 211 and the air outlet 212 are concavely gripped to have a predetermined depth, as shown in FIG. 3B , and have a predetermined width and thickness.

4 is a plan cross-sectional view and a cross-sectional view showing a state of forming a liquid film on the intermediate layer of the triple laminated glass using the polycarbonate glass of the present invention.

Figure 4 (a) is a cross-sectional plan view cut so that the cross-section of the liquid film formed between the intermediate layer and the upper layer is visible, Figure 4 (b) is a cross-sectional view.

Referring to (a) and (b) of Figure 4, the intermediate layer 200 is a polycarbonate plate material 210 having an inlet 211 and an air outlet 212 formed in the method shown in FIG. 3, and a polycarbonate plate material ( While having the same thickness as the double-sided adhesive film 220 and the double-sided adhesive film 220 provided along the remaining edges except for the inlet 211 and the air outlet 212 on the upper surface of the 210, polycarbonate plate 210 It includes a liquid film 230 formed to have an area in the center of the upper surface of the . The liquid film 230 is between the upper surface of the intermediate layer 200 and the upper layer 100 through the injection hole 211 of the polycarbonate plate 210 in a state in which the upper layer 100 is in close contact with the upper surface of the intermediate layer 200 . The rim portion of the liquid film 230 that is injected into the liquid film 230 and is placed in close contact with the inner surface of the double-sided adhesive film 220 .

When the bonding state of the intermediate layer 200 and the upper layer 100 is described in detail with reference to FIG. 4 (b), the upper layer 100 is formed by arranging a glass material in close contact with the double-sided adhesive film 220, and the glass material is poly It has the same size as the carbonate plate 210 . In addition, in this case, the glass material may use glass having various materials and functions according to the purpose of use of the triple laminated glass.

The liquid film 230 is injected through the injection hole 211 using an injection nozzle for injecting the liquid film in a state where the intermediate layer and the upper layer are combined. Simultaneously with the injection of the liquid film, air is discharged through the air outlet to remove air bubbles between the middle layer and the upper layer. The shape of the injection nozzle and the injection method of the liquid film using the injection nozzle are commonly known techniques to those who practice the present invention, and detailed description will be omitted.

5 is a plan view and a cross-sectional view showing the bonding state of the intermediate layer and the lower layer of the triple laminated glass using the polycarbonate glass of the present invention.

Referring to FIG. 5 , the interstitial rod 400 has a second double-sided adhesive film 400 ′ attached to one side and the other side, respectively. It is provided adjacent to, and is positioned to be spaced apart from the lower edge of the polycarbonate plate 210 in the inward direction by a predetermined distance. The polycarbonate plate 210 constituting the intermediate layer 200 and the lower layer 300 are formed with a vacuum space at regular intervals by the interstitial rod 400 . In this case, as the glass material of the lower layer 300, it is preferable to use the polycarbonate plate 210 or glass, but glass materials having various other functions and materials may be selectively used according to the purpose of use.

One side of the interstitial rod 400 by the second double-sided adhesive film is coupled to be in contact with the polycarbonate plate 210, and the other side of the interbar 400 by the second double-sided adhesive film is coupled to contact the lower layer 300. do.

6 is a plan view and a cross-sectional view showing a state of sealing the vacuum space of the triple laminated glass using the sealing member of the present invention.

Referring to Figure 6 (a), as the sealing member 500 is disposed to be in close contact with the outer surface of the rod 400 provided in the outward direction, sealing the edge between the upper layer 100 and the lower layer 300 to vacuum seal the space.

As shown in (b) of FIG. 6, a vacuum jack 410 is formed at one corner of the interstitial rod 400, and the vacuum jack has a discharge hole through which air and moisture introduced into the vacuum space are discharged to the outside. It is formed in a penetrating type, and by fastening the check ball 420 for opening and closing provided with a spring to the discharge hole, it is possible to block the path of the discharge hole. To explain this in detail, the vacuum jack can block the path of the discharge hole by pressing the check ball for opening and closing with a spring, and block air from flowing into the vacuum space through the path of the discharge hole. Then, the sealing member 500 is placed in close contact with the outer surface of the discharge hole of the vacuum jack to which the opening/closing check ball is fastened to maintain the vacuum dry state of the vacuum space.

7 is a flowchart illustrating a method of manufacturing a triple laminated glass using the polycarbonate glass of the present invention.

When the manufacturing method of the triple laminated glass using polycarbonate glass is described with reference to FIG. 7, the polycarbonate plate material comprising the steps of forming an inlet for injecting a liquid film and an air outlet for discharging air to form a primary processing; and, 1 On the upper surface of the polycarbonate plate on which the car processing is completed, the steps of providing a double-sided adhesive film of a certain thickness along the remaining edges except for the inlet and the air outlet; And, injecting a liquid film on the upper surface of the polycarbonate plate from the inlet and simultaneously discharging air from the air outlet to remove air bubbles between the middle layer and the upper layer; and then solidifying the injected liquid film; and of the intermediate layer A step of coupling one side of the interbar to the lower surface and forming a vacuum space; and coupling the lower layer in contact with the other side of the interbar; and, between the upper and lower layers, a sealing member to be placed in close contact with the outer surface of the interbar. forming and sealing the vacuum space; and, when the sealing member is 40% to 60% solidified, discharging the air and moisture introduced into the vacuum space through the discharge hole of the vacuum jack formed at one corner of the interstitial rod; and fastening the check ball for opening and closing to the outlet hole of the vacuum jack; and maintaining the vacuum state inside the vacuum space by forming a sealing member to seal the outlet hole of the vacuum jack to which the check ball for opening and closing is fastened. and, solidifying the sealing member; includes

The step of discharging the air and moisture introduced into the vacuum space through the discharge hole of the vacuum jack formed at one corner of the inter rod; is best performed when the sealing member is 50% solidified.

Although the present invention has been described in detail through specific examples, this is for the purpose of describing the present invention in detail, and the present invention is not limited thereto. It is clear that the modification or improvement is possible.

All simple modifications and variations of the present invention fall within the scope of the present invention, and the specific scope of protection of the present invention will be clarified by the appended claims.

100: upper layer 200: middle layer
210: polycarbonate plate 211: inlet
212: air outlet 220: double-sided adhesive film
230: liquid film 300: lower layer
400: simple rod 410: vacuum jack
420: check ball 500: sealing member

Claims (7)

An intermediate layer made of a polycarbonate plate having a liquid film formed on one surface, an upper layer that is a glass material provided so as to be in contact with the upper surface of the intermediate layer, and a lower layer that is a glass material or polycarbonate plate material provided adjacent to the lower surface of the middle layer, and the upper layer and the lower layer It consists of an inter rod forming a vacuum space at a predetermined interval, and a sealing member disposed in close contact with the inter rod between the upper and lower layers,
The intermediate layer includes a polycarbonate plate having an inlet and an air outlet, and a double-sided adhesive film provided along the remaining edges except for the inlet and the air outlet on the upper surface of the polycarbonate plate, and having the same thickness as the double-sided adhesive film, polycarbonate Including a liquid film formed to have an area in the center of the upper surface of the plate,
The liquid film is injected through the injection hole of the polycarbonate plate, and the rim portion of the liquid film that has been filled is triple laminated glass using polycarbonate glass that is placed in close contact with the inner surface of the double-sided adhesive film. According to claim 1, wherein the inlet and the air outlet is formed on one side of the edge of the upper surface of the polycarbonate plate, is gripped concave to have a predetermined depth and is formed to have a predetermined width and thickness using a triple using polycarbonate glass. laminated glass. The triple laminated glass using polycarbonate glass according to claim 2, wherein the glass material is closely disposed on the double-sided adhesive film to form an upper layer, wherein the glass material constituting the upper layer has the same size as the polycarbonate plate material. According to claim 3, wherein the interstitial rod has a second double-sided adhesive film attached to one side and the other side, respectively, and is provided adjacent to the four-sided edge portion between the polycarbonate plate and the lower layer, and at the lower edge of the polycarbonate plate. It is positioned so as to be spaced apart from each other in an inward direction,
Triple laminated glass using polycarbonate glass that one side of the interstitial rod is coupled to be in contact with the polycarbonate plate by the second double-sided adhesive film, and the other side of the interbar is coupled to come into contact with the lower layer by the second double-sided adhesive film . [Claim 5] The triple laminated glass using polycarbonate glass according to claim 4, wherein the sealing member is arranged to be in close contact with the outer surface of the rod provided in the outward direction, thereby sealing the edge between the upper and lower layers to seal the vacuum space. [Claim 6] The vacuum jack according to claim 5, wherein a vacuum jack is formed at one corner of the inter-bar, and the vacuum jack has a through-hole through which the air and moisture introduced into the vacuum space are discharged to the outside, and the discharge hole has a spring. By fastening the provided opening/closing check ball, the path of the discharge hole can be blocked, and the sealing member is placed in close contact with the outer surface of the discharge hole of the vacuum jack to which the opening/closing check ball is fastened to maintain the vacuum dry state of the vacuum space. Triple laminated glass using polycarbonate glass. In the manufacturing method of triple laminated glass using polycarbonate glass, the method of forming the intermediate layer comprises the steps of: primary processing by forming an inlet for injecting a liquid film into a polycarbonate plate and an air outlet for discharging air;
On the upper surface of the polycarbonate plate on which the primary processing is completed, the step of providing a double-sided adhesive film of a certain thickness along the remaining edges except for the inlet and the air outlet;
Adhering the upper layer to the double-sided adhesive film formed on the upper surface of the intermediate layer;
removing air bubbles between the middle layer and the upper layer by injecting a liquid film on the upper surface of the polycarbonate plate from the inlet and discharging air from the air outlet at the same time;
solidifying the injected liquid film;
coupling one side of the inter-bar to the lower surface of the intermediate layer and forming a vacuum space;
coupling the lower layer to the other side of the gwanbong;
sealing the vacuum space by forming a sealing member so as to be closely disposed on the outer surface of the interstitial rod between the upper and lower layers;
When the sealing member is 40% to 60% solidified, discharging the air and moisture introduced into the vacuum space through the discharge hole of the vacuum jack formed in one corner portion of the rod;
Fastening the check ball for opening and closing to the discharge hole of the vacuum jack;
maintaining a vacuum state inside the vacuum space by forming a sealing member to seal the discharge hole of the vacuum jack to which the opening/closing check ball is fastened;
solidifying the sealing member; A method of manufacturing a triple laminated glass using polycarbonate glass comprising a.

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