WO2018079972A1 - Earthquake-resistant laminated glass - Google Patents

Abstract

The present invention relates to earthquake-resistant laminated glass developed to prevent fracture of a fixed edge and a corner part of glass, which is used as a finish material of a window or a show window, due to a failure to overcome brittleness in a situation involving vibrations and shocks, such as earthquake. More particularly, the present invention relates to earthquake-resistant laminated glass comprising: two or more windowpanes cut to have the same size; and an interval bar inserted into adjacent windowpanes along edges of the windowpanes so as form a space, wherein the laminated glass is inserted/mounted into an inner edge of a window frame configured in the shape of a quadrangular frame by a pair of horizontal frames and a pair of vertical frames. The windowpanes of the laminated glass comprise: corner round portions having four corners rounded to be spaced from inner corners configured by intersection of the horizontal frames and the vertical frames by at least 5mm; and side round portions configured such that four of the upper, lower, left, and right sides of the windowpanes protrude as the same come closer to the center. The interval bar is spaced inward from edges of the windowpanes so as to form the shape of the quadrangular frame, and is configured such that the same does not protrude into the inner edge of the window frame when mounted. The windowpanes and the interval bar are attached by a double-sided tape which is elongated along a tight-contact surface, and which exhibits elastic restoring force.

Description

Laminated glass with durability to earthquake

The present invention relates to a multi-layer glass that is durable against earthquakes. More specifically, the glass used as a finishing material for windows and show windows overcomes brittleness at fixed edges and corners in vibration and shock conditions such as earthquakes. The present invention relates to a multilayer glass that is durable against earthquakes developed to prevent damage.

Since mass production is possible, glass has been used in various buildings, from the use of windows to indoor and outdoor doors and show windows, and in buildings, as a building material from exterior wall finishing materials.

However, glass is a fragile material that is destroyed when the deformation is very brittle and has a very small deformation. Glass used for special purposes such as exterior wall finishes uses tempered glass or film. To reinforce it.

Meanwhile, the earthquake that occurred in Gyeongju in 2016 became aware of the danger of earthquake on the Korean peninsula, and became interested in the seismic design of each building, and it could be damaged when the glass used as a building material could be damaged. Is needed.

However, because tempered glass or film-coated glass is expensive, it is not suitable for use in the glass of the most used windows, and the structure is complicated even when a structure such as a window frame for fixing the glass has a means to damp vibrations. It may cause an increase.

Therefore, it is generally necessary to study a method of making a multilayer glass or double glass which is widely used to have excellent thermal insulation function and has durability that is not destroyed by an earthquake.

The present invention was developed to solve the above-mentioned problems, the purpose of which is the laminated glass mainly used for the window is the glass is fixed by the vibration generated by the earthquake, the deformation caused by the vibration occurs the most and the corner of the impact And it is to develop the multilayer glass which is durable in the earthquake which prevents glass from being broken including a rim part.

In order to achieve the above object, the present invention is composed of two or more plate glass cut to the same size and a gap bar inserted between adjacent plate glass along the edge of the plate glass to form a space, a pair of horizontal frame and a In the multilayer glass inserted into the inner edge of the window frame made of a rectangular frame by a pair of vertical frames;

In the multilayer glass, the plate glass has four rounded corner round parts so as to be spaced at least 5 mm from the inner edge where the horizontal frame and the vertical frame meet, and the four sides of the upper and lower sides of the plate glass protrude toward the center. Equipped;

The spacing bar is spaced inwardly from the edge of the plate glass to form a rectangular frame, so as not to protrude into the inner edge of the window frame when mounted, the plate glass and the spacing bar on the double-sided tape having an elastic restoring force extending along the close contact surface It is characterized by being bonded by.

In addition, the four sides of the upper and lower sides and the left and right of the glass plate is characterized in that further provided with a side round portion protruding toward the center.

In addition, each of the plate glass is characterized in that the elastic band made of the '' 'shape is mounted along the rim.

In addition, each of the plate glass is characterized in that the protective film is attached to the surface facing each other.

In addition, the double-sided tape for adhering the plate glass and the spacer bar is characterized in that it has a shape of a band and extends in both sides and extends in the longitudinal direction, and a connecting portion for dividing the space portion is connected in the longitudinal direction. .

In addition, the edge round portion of the plate glass is characterized in that the edge finishing member is formed with a groove formed in the '' 'shape.

As described above, the present invention rounds the edges of the laminated glass to sharpen the glass during the cutting process, thereby increasing the brittleness, and when the vibration occurs due to the earthquake, it is fixed by the window frame, so that the sharp edge of the shock and distortion caused by the vibration occurs By removing it, it is effective to prevent glass from being broken during an earthquake.

1 is a perspective view according to an embodiment of the present invention

2 is a conceptual diagram showing a mounting state according to an embodiment of the present invention

3 is a conceptual diagram illustrating a mounting state according to the first enlarged embodiment of the present invention;

4 is a front view according to a second enlarged embodiment of the present invention;

Figure 5 is a side cross-sectional view showing a mounting state according to a second enlarged embodiment of the present invention

Figure 6 is a side cross-sectional view showing a mounting state according to a third enlarged embodiment of the present invention

7 is a side sectional view showing a mounting state according to a fourth enlarged embodiment of the present invention;

8 is a front view according to a fifth enlarged embodiment of the present invention

Accordingly, the configuration of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

1 is a perspective view according to an embodiment of the present invention, Figure 2 is a conceptual view showing a mounting state according to an embodiment of the present invention, two or more plate glass 11 and the plate glass 11 are cut to the same size It is composed of a spacing bar 12 is inserted between the adjacent panes 11 along the border of the space to form a space, by a pair of horizontal frame 21 and a pair of vertical frame 22 of the rectangular frame shape In the multilayer glass (1) inserted into the inner edge of the window frame (2) consisting of;

In the multilayer glass (1), the plate glass (11) has a rounded corner round part (111) having four corners rounded so as to be spaced apart by 5 mm or more from the inner edge where the horizontal frame (21) and the vertical frame (22) meet;

The spacing bar 12 is spaced inward from the edge of the plate glass 11 to form a rectangular frame, so as not to protrude into the inner edge of the window frame 2 when mounted, the plate glass 11 and the spacing bar 12 Represents a multilayer glass that is durable against earthquakes, characterized by being bonded by a double-sided tape having an elastic restoring force extending along the contact surface.

The present invention proposes to form a corner round part 111 at the edge of the plate glass 11 in a way to have durability without damage to the vibration and impact that may be applied to the multilayer glass 1 due to the earthquake.

In the corner round part 111, the horizontal frame 21 and the vertical frame 22 are vibrated by the lateral vibration and the longitudinal vibration when an earthquake occurs. This action is the edge of the sharp glass plate 11 is a force to apply a deformation by this force acts to cause damage from this part due to the nature of the brittle glass is to be rounded to prevent this.

In addition, since the collision occurs with the horizontal frame 21 or the vertical frame 22 due to vibration, the sharp corners are easily broken by such collisions, and thus the corner round part 111 becomes a means for dispersing the impact.

In addition, in the present application, the spacing bar 12 is generally a case of forming a spacing bar in the outer edge of the laminated glass in the prior art, but the spacing bar 12 of the present application is to be formed in a portion where the inner window frame 2 and the glass closely contact. .

In this scheme, the vibration generated in the close contact portion of the pane 11 and the window frame 2 by the vibration acts on the glass as it is, but the spacer bar 12 is inserted between the panes 11 and is broken at this portion. It is to prevent the role.

3 is a conceptual view showing a mounting state according to the first enlarged embodiment of the present invention, the four sides of the upper and lower sides and the left and right of the plate glass 11 is further provided with a side round portion 112 protruding toward the center An embodiment is featured.

In such an embodiment, the multilayer glass 1 may be damaged when the adjacent two side edge portions alternately collide with each other due to vibration, and thus cause damage. Thus, the multilayer glass 1 of the present application may have a side round portion 112. It is to reduce the occurrence of a sudden collision by causing it to shake along the rounded surface without collision.

Figure 4 is a front view according to a second enlarged embodiment of the present invention, Figure 5 is a side cross-sectional view showing a mounting state according to a second enlarged embodiment of the present invention, each of the plate glass 11 is the shape of the letter 'c' An embodiment characterized in that the elastic band consisting of 113 is mounted along the rim.

This embodiment is to prevent the shock generated along the rim of the plate glass 11 by vibration more efficiently to fit the elastic band 113 of the rubber material with elastic restoring force along the rim. .

Figure 6 is a side cross-sectional view showing a mounting state according to a third enlarged embodiment of the present invention, each of the pane 11 has shown an embodiment characterized in that the protective film 114 is attached to the surface facing each other. .

The effect of the protective film 114 has a known effect as a protective film 114 in the present application to strengthen the plate glass 11 and to prevent damage from being scattered even if broken to reduce the damage caused from the outside Suggested.

7 is a side cross-sectional view showing a mounting state according to a fourth enlarged embodiment of the present invention, the double-sided tape 13 for adhering the plate glass 11 and the spacer bar 12 extends in both sides with the shape of a band. And a space portion 131 penetrating in the longitudinal direction, and a connecting portion 132 for dividing the space portion 131 into the longitudinal direction is illustrated.

The double-sided tape 13 of the present application is made of a material having an elastic restoring force by itself, but the space part 131 and the connection part 132 have been proposed as a configuration to more efficiently buffer the generated vibration.

It can be easily understood that the effective elastic restoring force can be applied to the space by forming the space portion 131, and the vertical bar flow is possible when the gap bar 12 and the plate glass 11 vibrate up and down. Will be done.

At this time, the configuration of the connecting portion 132 is limited so that the up and down flow can be made fine without much.

8 is a front view according to the fifth enlarged embodiment of the present invention, the edge round member 111 of the plate glass 11 is characterized in that the edge closing member 115 is formed with a groove formed in the shape of '' An embodiment is shown.

The above embodiment is for the purpose of protecting the corner round 111, but preferably made of a material having an elastic restoring force can achieve a primary protection purpose even if there is little or no elastic restoring force.

Therefore, the material can be used in a variety of materials, such as synthetic resin, wood, metal, it is desirable to use environmentally friendly materials with durability.

[Description of the code]

1: multilayer glass

     11: plate glass

          111: corner round part 112: side round part

          113: elastic band 114: protective film

          115: corner finishing member

     12: spacer bar

     13: double sided tape

          131: space portion 132: connection portion

2: window frame

     21: horizontal frame 22: vertical frame

Claims (5)

1. It consists of two or more panes 11 cut to the same size and a spacing bar 12 inserted between adjacent panes 11 along the edge of the pane 11 to form a space, a pair of horizontal frames In the multilayer glass (1) which is inserted and mounted in the inner edge of the window frame (2) which is formed in the shape of a rectangular frame by the 21 and a pair of vertical frames (22);

   In the multilayer glass (1), the plate glass (11) has four rounded corners rounded corners 111 and the plate glass so as to be spaced apart at least 5 mm from the inner edge where the horizontal frame 21 and the vertical frame 22 meet. Four sides of the top, bottom, left, and right sides of 11) include side round portions 112 that protrude toward the center;

   The spacing bar 12 is spaced inward from the edge of the plate glass 11 to form a rectangular frame, so as not to protrude into the inner edge of the window frame 2 when mounted, the plate glass 11 and the spacing bar 12 The multilayer glass having durability against earthquakes, characterized in that the adhesive is bonded by a double-sided tape having an elastic restoring force extending along the contact surface.
2. 3. The multilayer glass according to claim 2, wherein each of the panes (11) has an elastic band (113) formed along the rim of the 'C' shape.
3. 3. The multilayer glass of claim 2, wherein a protective film (114) is attached to a surface of the plate glass (11) facing each other.
4. The double-sided tape 13 for adhering the plate glass 11 and the spacer bar 12 has a band shape and extends in both sides and penetrates in the longitudinal direction, and the space. Multi-layer glass having durability against earthquakes, characterized in that the portion 131 is bisected to have a connecting portion 132 to be connected in the longitudinal direction.
5. The multi-layer glass of claim 2, wherein the edge round part 111 of the plate glass 11 is provided with a corner finishing member 115 having a groove formed in a 'c' shape.

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